HIGH MOLECULAR IODINE CONCENTRATION COMPOSITIONS, PHARMACEUTICAL FORMULATIONS, PREPARATION AND USES CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] This application is a continuation-in part and claims the benefit of International Patent Application No. PCT/US2021/046035, filed August 13, 2021, which claims the benefit of U.S. Provisional Patent Application Nos. 63/065,479, filed August 13, 2020, 63/068,969, filed August 21, 2020, 63/077,520, filed September 11, 2020, 63/080,769, filed September 20, 2020, 63/147,743, filed February 9, 2021, and 63/211,543, filed June 16, 2021, all of which are incorporated herein by reference in their entirety.

TECHNICAL FIELD

[0002] This invention relates to compositions and pharmaceutical formulations having high concentrations of molecular iodine (high molecular iodine concentration composition and pharmaceutical formulation), articles comprising the high molecular iodine concentration compositions or pharmaceutical formulations, methods of preparing the high molecular iodine concentration compositions or pharmaceutical formulations, and methods of using the high molecular iodine concentration compositions or pharmaceutical formulations.

BACKGROUND

[0003] Molecular iodine is known to inactivate viruses, fungi and bacteria and this has led to widespread use of iodine biocides to kill pathogens on skin. Killing or inactivating topical pathogens with iodine including bacteria, viruses and fungi on skin is an established prophylactic that has been used for over 100 years in hygiene and medicine. Commercial iodine disinfectants largely rely upon a formulation approach that utilizes iodophors to complex molecular iodine.

Iodophors are water-based solutions that contain at least one polymeric complexing agent that limits the hydration of molecular iodine and prevents loss of molecular iodine. The overall concentration of molecular iodine declines once it is hydrated as described in detail by Waldemar Gottardi (Gottardi, W., Iodine and disinfection: theoretical study on mode of action, efficiency, stability, and analytical aspects in the aqueous system. Arch Pharm (Weinheim), 1999. 332(5): pp. 151-7). Iodophors necessarily contain extremely low concentrations of unbound or free molecular iodine and very high concentrations of other iodine species such a tri-iodide and iodide. The iodophor formulations are highly acidic compositions that stain skin and other materials and exhibit toxicity.

[0004] In this application, we describe high molecular iodine concentration compositions that provide high concentrations of molecular iodine on and in skin with little or no staining, skin irritation, and/or toxicity.

SUMMARY

[0005] The present disclosure is directed to compositions, formulations (including pharmaceutical formulations), preparations, and uses of a high molecular iodine concentration composition.

[0006] In certain embodiments, the high molecular iodine concentration composition comprises: molecular iodine having a concentration of about 1 ,274 ppm to about 170,000 ppm, about 1,274 ppm to about 160,000 ppm, about 1,274 ppm to about 150,000 ppm, about 1,274 ppm to about 100,000 ppm, about 1,274 ppm to about 68,000 ppm, about 1,274 ppm to about 66,000 ppm, about l,274 ppmto about 15,200 ppm, about 1,400 ppm to about 68,000 ppm, about 1,400 ppm to about 15,200 ppm, about 1,400 ppm to about 66,000 ppm, or about 1,500 ppm by weight/volume (wt/v); and an organic carrier having a concentration of no less than about 93.5%wt, no less than about 95%wt, no less than about 98%wt, or no less than about 99%wt of the total weight of the high molecular iodine concentration composition.

[0007] In certain embodiments, the high molecular iodine concentration pharmaceutical formulation comprises the high molecular iodine concentration composition.

[0008] In certain embodiments, the organic carrier of the high molecular iodine concentration composition is a pharmaceutically acceptable organic carrier and the high molecular iodine concentration composition is a pharmaceutically acceptable composition. In certain embodiments, the high molecular iodine concentration pharmaceutical formulation further comprises a second pharmaceutically acceptable carrier.

[0009] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation may be a solution, a viscous solution, a cream, an ointment, or a suspension which is used by applying a few drops to the hands and rubbing the hands or applying a few drops to a treatment area on the skin and rubbing the solution into the skin. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is a hand sanitizer. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is a hand sanitizer which has an I ₂ concentration of 1,500 ppm (wt/v).

[0010] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is non-aqueous. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is substantially non-aqueous. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is water-free. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is substantially water-free. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is alcohol-free. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is substantially alcohol-free. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is complexed iodine-free. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is substantially complexed iodine -free. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is free of iodine species that are not molecular iodine. In certain embodiments, the high molecular iodine concentration composition is substantially free of iodine species that are not molecular iodine. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation has an iodine uptake ratio of at least about 99%, at least about 95%, at least about 90%, at least about 85%, at least about 80%, at least 75%, or atleast 70%.

[0011] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is stable for at least 2 years at room temperature. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is stable for at least 3 months when stored in closed container at room temperature. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is stable for at least 3 months when stored in closed container in the dark at room temperature.

[0012] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is non-staining, stain free or substantially stain free.

[0013] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is not irritative to a subject skin. [0014] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is not cytotoxic.

[0015] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is biostatic persistent.

[0016] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation is biocidal persistent.

[0017] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation has a prolonged biocidal activity.

[0018] Provided are embodiments of a quat-12 composition comprising a) a quaternary amine (quat) composition and b) the high molecular iodine concentration composition. In certain embodiments, the quat-12 composition is a pharmaceutical formulation (the quat-E pharmaceutical formulation), the quat composition is pharmaceutical composition (a quat pharmaceutical formulation), and the high molecular iodine concentration composition is a high molecular iodine concentration pharmaceutical formulation. In certain embodiments, the presence of quat composition or pharmaceutical formulation does not adversely impact oneor more of the following properties of the high molecular iodine concentration composition or pharmaceutical formulation: 1) I2 stability; 2) irritation to skin; 3) staining property; 4) cytotoxicy; and 5) biostatic persistent, biocidal persistent, and/or prolonged biocidal activity. In certain embodiments, the quat composition comprises one or more quats comprising a structure of RI(R2)(R3)N ⁺ R4 or its pharmaceutically acceptable salts, R R ₂ , R3, andR ₄ beingrespectively and independently selected from the group consisting of alkyl, aryl, arylalkyl, alkylaryl, and alkylarylalkyl groups, said substitution group may be further respectively and independently substituted with one or more further substitution groups. Examples of the further substitution groups include, without limitation, halogen (e.g., F, Cl, Br, I), NO2, hydroxyl, alkoxyl, ether, ester, andcarbonyl. Examples of pharmaceutically acceptable salts of quats include, without limitation, hydrochloride, hydrobromide, hydroiodide, nitrate, sulfate, bisulfate, phosphate, acid phosphate, isonicotinate, acetate, lactate, salicylate, citrate, tartrate, pantothenate, bitartrate, ascorbate, succinate, maleate, gentisinate, fumarate, gluconate, glucaronate, saccharate, formate, benzoate, glutamate, methanesulfonate, ethanesulfonate, benzensulfonate, p-toluenesulfonate, and pamoate (i.e., 1,11- methylene-bis-(2-hydroxy-3 -naphthoate)) salts of quats. In one embodiment, the quat-b composition or pharmaceutical formulation comprises a quat composition comprising a mixture of decyl dimethyl ammonium chloride, dioctyl dimethyl ammonium chloride, and didecyl dimethyl ammonium chloride at a ratio by weight of 2: 1 : 1 (decyl dimethyl ammonium chloride: dioctyl dimethyl ammonium chloride: didecyl dimethyl ammonium chloride).

[0019] Embodiments of a method of disinfecting a surface or space by killing or inhibiting the growth of a microorganism and/or parasite on a surface or in a space are disclosed. The method comprises applying an effective amount of the high molecular iodine concentration composition or the quat-E composition to the surface or space.

[0020] Embodiments of a method of killing or inhibiting the growth of a microorganism and/or parasite on or in a subject are disclosed. The method comprises administering a therapeutically effective amount or prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-E composition or pharmaceutical formulation to the subject. In certain embodiments, the microorganism is present at a treatment site in or on the subject. In certain embodiments, an undesired biofilm is present at the treatment site. [0021] Embodiments of a method of disrupting and/or eliminating an undesired biofilm present at a treatment site in or on a subject are disclosed. The method comprises administering a therapeutically effective amount or prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation to the undesired biofilm present at the treatment site in or on the subject.

[0022] Embodiments of a method of treating or preventing a condition associated with a microorganism and/or parasite of a subject are disclosed. The method comprises administering a therapeutically effective amount or prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation to the subject.

[0023] Provided are embodiments of a method of treating or preventing a skin condition of a subject comprising administering a therapeutically effective amount or prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation to the subject. In certain embodiments, examples of the skin condition include, without limitation:

1) skin conditions associated with a biological reaction of a subject to an exogenously introduced irritant; and

2) skin conditions associated with an autoimmune disease.

[0024] In certain embodiments, the skin conditions include acne and rosacea.

[0025] In certain embodiments, the autoimmune disease is diabetes.

[0026] Provided are embodiments of a method of fostering wound-healing or preventing a wound of a subject comprising administering to the subject a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation.

[0027] Provided are embodiments of a method of treating a surgical site to foster healing prevent infection, and/or inhibit tumor recurrence in a subject in need comprising administering to the subject a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation. In certain embodiments, the method of treating a surgical site is performed as a pre-surgical treatment, a post-surgical treatment, or a treatment during a surgery.

[0028] Provided are embodiments of a method of treating or preventing an ophthalmic condition in a subject in need comprising administering to the subject a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation at or proximate to a site of the ophthalmic condition.

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] Figure 1 shows absorbancevaluesformoleculariodinedissolvinginglycerin at different time points from Example 1 A.

[0030] Figure 2 shows absorbance rates of molecular iodine dissolved in glycerin absorbed into mammalian skin under the conditions in Example 2 A.

[0031] Figures 3A-3C show the staining of skin from epidermal administration of 100 pL of PVP-I over 90 minutes. Figure 3 A: Epidermis of the skin after epidermal application; Figure 3B: Subcutaneous tissue of the skin after epidermal application; and Figure 3C: Cross-section of pig skin after epidermal application. [0032] Figure 4 shows a cross-section of a 0.5 mm piece of tissue halved after exposure to PVP-

I.

[0033] Figures 5A-5C show the staining of pig skin from epidermal administration of Iodine Tincture USP solution over 90 minutes. Figure 5 A: Epidermis of the skin after epidermal application; Figure 5B: Subcutaneous tissue of the skin after epidermal application; and Figure 5C: Cross-section of pig skin after epidermal application.

[0034] Figures 6A-6B show the staining of pig skin from epidermal administration of an embodiment of molecular iodine composition in ethanol (I ₂ -ethanol composition) with I ₂ concentration of 150,000 ppm (wt/v) over 90 minutes. Figure 6A: Epidermis of the skin after epidermal application; and Figure 6B: Cross-section of pig skin after epidermal application.

[0035] Figures 7A-7B show the staining of pig skin three minutes from epidermal administration of an embodiment of molecular iodine composition in glycerin (I ₂ -glycerin composition) with I ₂ concentration of 66,000 ppm (wt/v). Figure 7A: Epidermis of the skin after epidermal application; andFigure 7B: Subcutaneoustissue after epidermal application shown with the epidermis removed.

[0036] Figures 8A-8J show SenSafelodine Checkteststripsin contactwith subcutaneoustissue of pig skin at 15 min, 30 min, 45 min, 60 min, 75 min, 90 min, 120 min, 150 min, 180 min, and 210 min after an embodiment of I ₂ -glycerin composition with I ₂ concentration of 15,200 ppm (wt/v) was applied to the subcutaneous tissue directly.

[0037] Figures 9A-9L show the biocidal persistent results of embodiments of I ₂ -glycerin compositions with various I ₂ concentrations. Figure 9 A: Biocidal persistent results of challenge with E. coli 30 min after application of I ₂ -glycerin composition with I ₂ concentration of 424 ppm (wt/v); Figure 9B: Biocidal persistent results of challenge with A. coli 30 min after application of -glycerin composition with I ₂ concentration of 948 ppm (wt/v); Figure 9C: Biocidal persistent results of challenge with E. coli 30 min after application of I ₂ -glycerin composition with I ₂ concentration of 1,100 ppm (wt/v); Figure 9D: Biocidal persistent re suits of challenge with //. coli 30 min after application of I ₂ -glycerin composition with I ₂ concentration of 1,274 ppm; Figure 9E: Biocidal persistent results of challenge with E. coli 30 min after application of I ₂ -glycerin composition with I ₂ concentration of 1,500 ppm (wt/v); Figure 9F: Biocidal persistent results of challenge with E. coli 30 min after application of I ₂ -glycerin composition with I ₂ concentration of 4,077 ppm (wt/v); Figure 9G: Biocidal persistent results of challenge with E. coli 30 min after application of I ₂ -glycerin composition with I ₂ concentration of 8,703 ppm (wt/v); Figure 9H: Biocidal persistent results of challenge with E. coli 60 min after application of I ₂ -glycerin composition with I ₂ concentration of 8,703 ppm (wt/v); Figure 91: Biocidal persistent results of challenge with E. coli 120 min after application of I ₂ -glycerin composition with I ₂ concentration of 8,703 ppm (wt/v); Figure 9J: Biocidal persistent results of challenge with E. coli 120 min after application of I ₂ -glycerin composition with I ₂ concentration of 15,200 ppm (wt/v); Figure 9K: Biocidal persistent results of challenge with E. coli 30 min after application of 10% PVP-I; and Figure 9L: Biocidal persistent results of challenge with E. coli 30 min after application of Lugofs solution.

[0038] Figures 10A-10E show the results of administration of a series of embodiments of Inglycerin compositions with various I ₂ concentrations prepared according to Example 8 to the forearm of a volunteer. Figure 10 A: The initial administration of the I ₂ -glycerin compositions with various I ₂ concentrations onto the forearm of the subject; Figure 10B shows 1 min. after the I ₂ -glycerin compositions with various I ₂ concentrations were administered on the forearm before the residue was wiped off; Figure 10C shows the skin of the subject at 5 minutes after the initial administration of the 12-glycerin compositions with various I2 concentrations; Figure 10D shows the skin of the subject at 15 minutes after the initial administration of the I ₂ -glycerin compositions with various I2 concentrations; and Figure 10E shows the skin of the subject at 30 minutes after the initial administration of the I ₂ -glycerin compositions with various I ₂ concentrations.

[0039] Figures 11 A and 1 IB show a subject’s hands before and after administration of two to three drops of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 2,200 ppm (wt/v). Figure 11 A: Before administration; and Figure 1 IB: 0 min. after administration of the 12- glycerin composition.

[0040] Figures 12A and 12B show a subject’ s hands before and after administration of two to three drops of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 4,400 ppm (wt/v). Figure 12 A: Before administration; Figure 12B: 0 min. after administration of the 12- glycerin composition.

[0041] Figures 13 A and 13B show a subject’ s hands before and after administration of two to three drops of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 8,400 ppm (wt/v). Figure 13 A: Before administration; Figure 13B: 0 min. after administration of the 12- glycerin composition.

[0042] Figures 14A and 14B show a subject’ s hands before and after administration of two to three drops of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 12,250 ppm (wt/v). Figure 14 A: Before administration; Figure 14B: 0 min. after administration of the 12- glycerin composition.

[0043] Figures 15 A-l 5E show a subject’s hands before and after administration of two to three drops of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 13,900 ppm (wt/v). Figure 15A: Before administration; Figure 15B: 0 min. after administration of the E-glycerin composition; Figure 15C: 30 sec. after administration; Figure 15D: 1 min. after administration; and Figure 15E: 2 min. after administration.

[0044] Figures 16A-16F show a subject’s hands before and after administration of two to three drops of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 17,000 ppm (wt/v). Figures 16A and 16B both show the subject’ s hands before the administration of the I ₂ -glycerin composition; Figure 16C: 0 min. after administration of the I ₂ -glycerin composition; Figure 16D:

1 min. after administration; Figure 16E: 5 min. after administration; and Figure 16F: 9 min. after administration.

[0045] Figures 17A-17B show effects of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 1,500 ppm (wt/v) as prepared according to Example IB on plaque psoriasis. Figure 17A: Fingers of a subject having plaque psoriasis; and Figure 17B: The fingers after treatment for one week with application of the I ₂ -glycerin composition twice a day 0.2 mL.

[0046] Figures 18A-18E show the effects of an embodiment of I ₂ -glycerin composition with I ₂ concentration of l,500ppm (wt/v)as prepared accordingto Example IB onbee sting. Figure 18A: Left ankle stung by a bee; Figure 18B: Blistering from the inflammation and swelling observed at the sting site; Figure 18C: About 30 mins after application of the 1,500 ppm (wt/v) I ₂ -glycerin composition; Figure 18D: About 30 minutes after the 1,500 ppm (wt/v) I ₂ -glycerin composition was applied to the area of the bee sting; Figure 18E: The sting site after application of the 1,500 ppm (wt/v) I ₂ -glycerin composition ten times over the next 72 hours.

[0047] Figures 19A-19C show the effects of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 1,500 ppm (wt/v) as prepared according to Example IB on a plantar wart on the bottom large right toe of a subject. Figure 19A: The wart after two days of treatment twice a day, with one drop (0.15 mLto 0.2 mL) of the 1,500 ppm (wt/v) I ₂ -glycerin composition; Figure 19B: The wart on the morning of the sixth day of treatment; and Figure 19C : The wart after treatment of 2 months and 1 week.

[0048] Figure 20A and Figure 20B show the effects of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 1,500 ppm (wt/v) as prepared according to Example IB on tinea. Figure 20A: The patient’s condition beforetreatment; and Figure 20B: The patient after treatment of two weeks.

[0049] Figure 21A and Figure 21B show the effects of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 1,500 ppm (wt/v) as prepared according to Example IB on seborrheic dermatitis. Figure 21 A: The patient’s symptoms at the time of diagnosis (baseline); and Figure 21B: The patient at day 14 of a treatment twice a day.

[0050] Figure 22A and Figure 22B show the effects of an embodiment of I ₂ -glycerin composition with I ₂ concentration of 1,500 ppm (wt/v) as prepared according to Example IB on a subject’s fungal toenails. Figure 22A: The subject’ s foot before treatment; and Figure 22B: The subject’s foot after thirty days of treatment twice a day with 0.2 mL.

[0051] Figure 23 A and Figure 23B show appearance of embodiments of the high molecular iodine concentration compositions in petroleum jelly and Aquaphor, respectively. Figure 23 A: embodiments of high molecular iodine concentration compositions in petroleum jelly (left) and Aquaphor (right) after the compositions were prepared; and Figure 23B: the same embodiments shown of Figure 23 A on day 5 after preparation.

DETAILED DESCRIPTION

[0052] Prior to the discovery ofthe disclosedhigh molecular iodine concentration compositions, iodine disinfectants available on the market were all aqueous and almost exclusively comprised of iodophors. Iodophors stabilize a low level of molecular iodine in an aqueous environment. Iodophors have been referred to as “tamed” iodine since they exhibit less toxicity than Lugol’s solution which contains 170 ppm molecular iodine and the prior art ascribes iodine toxicity, irritation, and/or staining to molecular iodine. See, e.g., Glick PL et al., “Iodine toxicity secondary to continuous povidone-iodine mediastinal irrigation in dogs.” J Surg Res. 1990 Nov;49(5):428- 34. doi: 10.1016/0022-4804(90)90191-4. PMID: 2246887.

[0053] Embodiments of high molecular iodine concentration compositions in an organic carrier (e.g., glycerin, propyl glycol, ethanol, isopropanol, petroleum jelly, and other petrolatum -based organic carriers) with high concentration of molecular iodine (e.g., about 1,025 ppm to about 170,000 ppm, about 1,025 ppm to about 160,000 ppm, 1,025 ppm to 150,000 ppm, about 1,274 ppm to about 170,000 ppm, about 1,274 ppm to about 160,000 ppm, about 1,274 ppm to about 150,000 ppm, about 1,274 ppm to about 100,000 ppm, about 1,274 ppm to about 68,000 ppm, about 1,274 ppm to about 66,000 ppm, about 1,274 ppm to about 15,200 ppm, about 1,400 ppm to about 68,000 ppm, 1,400 ppm to 66,000 ppm, about 1,400 ppm to about 15,200 ppm, and about 1,500 ppm by wt/v) are provided (e.g., Examples 1, 2, 4, and 8). Examples provided show that certain embodiments of the high molecular iodine concentration composition may be biostatic persistent, biocidal persistent, and/or have prolonged biocidal activities to various conditions caused by bacteria (e.g., Examples 3, 4A-4B, 4E, 5A-5C), virus (e.g., SARS COV-2, Example 6; HPV, Example 9E), fungus (e.g., Examples 3, 9F-9H), autoimmune reactions (e.g., Examples 9A and 9B), or exogeneous irritants from plants/animals (e.g., Examples 9C and 9D). Surprisingly, a substantial amount of I ₂ diffused into subcutaneous tissue did not react with the biological matrix as reflected by the observation that outgassing of 12 from subcutaneous tissue lasted for up to 2.5 hours (Example 2B). This was the first demonstration that I ₂ remained stable in a biological tissue.

Contrary to common belief that molecular iodine is responsible for irritancy, staining, and/or toxicity of aqueous iodine composition, embodiments of the high molecular iodine concentration composition showed little or no visible stain on human skin at a molecular iodine concentration of at leastup to 33,000 ppm wt/v without noticeable irritancy (Example 8); and embodiments of the high molecular iodine concentration composition showed unexpectedly low cytotoxicity at least up to a molecular iodine concentration of 1,500 ppm wt/v (Example 7).

[0054] As shown in the examples provided, molecular iodine remained stable in the high molecular iodine concentration compositions (e.g., Example IB, a 1,500 ppm (wt/v) I ₂ -glycerin composition with 1% ethanol remained stable after 113 days or 480 days at room temperature). Furthermore, the high molecular iodine concentration compositions provided biocidal persistent effects on mammal skin (e.g., Example 3, one application of 1,500 ppm (wt/v) I ₂ -glycerin composition with 1% ethanol inhibited yeast growth on pigskin for at least 20 hours). The high molecular iodine concentration compositions showed unexpected high biocidal persistence (Example 4 A-4B) which neither PVP-I nor Lugol’ s solution achieved (Examples 4C and 4D). For example, application of a 1,500 ppm (wt/v) I ₂ -glycerin composition with 1% ethanol showed biocidal persistence for at least 1 log reduction of S. aureus up to at least 6 hours after the 1,500 ppm (wt/v) I ₂ -glycerin composition was applied to a skin of a subject (Example 4A); a concentration above 1 , 100 ppm (e.g., 1 ,274 ppm) provided complete kill of driedE. coll about 30 minutes after application to human skin; longer period for biocidal persistence were achieved as the concentration of I ₂ increased; and at 15,000 ppm I ₂ provided complete kill activity 2 hours after application (Example 4B). The longer biocidal persistence achieved by higher I ₂ concentration may be due to the more I ₂ delivered to subcutaneous tissue by compositions having higher I ₂ concentrations (Example 2B). When biocidal embodiments of the high molecular iodine concentration composition were applied at the same amount, compositions with higher molecular iodine concentrations were more effective to neutralize more significant bioburden (Example 4E). The high molecular iodine concentrationcompositions also showedunexpectedprolonged biocidal effects on mammal skin (e.g., Example 4F, one application of E-glycerin composition of I ₂ concentration of 15k PPM showed prolonged biocidal effects on human hand at least against two applications of E. Coli that were 2.5 hours apart).

[0055] The high molecular iodine concentration compositions showed unexpectedly low cytotoxicity despite a high concentration of molecular iodine (Example 7) and was effective in killing or inhibiting growth of a wide range of bacteria (e.g., Examples 5A and 5B, 1,500 ppm (wt/v) E-glycerin composition with 1% ethanol, Escherichia coli, Shigella flexneri. Staphylococcus, aureus, Staphylococcus epidermidis, Serratia marcescens, Vibrio cholera and Salmonella enterica. ). Furthermore, the high molecular iodine concentration compositions were effective in treating autoimmune skin conditions (e.g., chronic plaque psoriasis in Example 9A), hive (e.g., Example 9B), biologic reaction to exogeneous irritants from plant (e.g., poison sumac rash, Example 9C), or from animals (e.g., bee sting, Example 9D), viral infections (e.g., plantar warts, Example 9E; and SARS COV-2, Example 6), fungus infections (e.g., tinea, Example 9F; yeast infection, seborrheic dermatitis, Example 9G; and fungal nails (Example 9H). Unexpectedly, various embodiments of the high molecular iodine concentration compositions showed little or no staining after being applied to the skin of a subject. For example, as shown in Example 8, no stain was observed within 60 min. after administration for all tested I ₂ concentrations (1,025 ppm, 1,655 ppm, 2,000 ppm, 2,200 ppm, 4, 100 ppm, 4,400 ppm, 8,200 ppm, 8,400 ppm, 12,250 ppm, 13,900 ppm, 15,000 ppm, 16,500 ppm, 17,000 ppm, 33,000 ppm, 66,000 ppm, and 68, OOO ppm). When the high molecular iodine concentration compositions were spread after administration, no stain was observed for the high molecular iodine concentration compositions with I ₂ concentrations of 1,655 ppm, 2,200ppm, 4,400 ppm, 8,400ppm, and 12,250 ppm; a stain was observed immediately after administration for the high molecular iodine concentration compositions with I ₂ concentrations of 13,900 ppm, 15,000 ppm, and 17,000 ppm, butthe stain disappeared within 2 min, 5 min, and 10 min, respectively. When the high molecular iodine concentration compositions were left undisturbed for one minute after administration and then wiped off, the high molecular iodine concentration compositions with I ₂ concentrations of 1,025 ppm did not stain, while the high molecular iodine concentration compositions with I ₂ concentrations of 2,000 ppm, 4, 100 ppm, 8,200 ppm, or 16,500 ppm) showed some stains that disappeared within 5 min to 30 min.

[0056] Furthermore, examples of quat-I ₂ compositions at various I ₂ concentrations (1,100 PPM and 400 PPM in glycerin) with one of chloride salts of various quaternary amines (octyl decyl dimethyl ammonium chloride, dioctyl dimethyl ammonium chloride, didecyl dimethyl ammonium chloride or Ci ₂ -Ci ₄ -alkyl(ethylbenzyl)dimethylammonium chloride) (1% quat, wt/v) showed unexpected I ₂ stability after 60 days at room temperature or 37 °C (Example 10) as although I ₂ was known to react with I ₂ . No loss of I ₂ was observed for the quat-I ₂ compositions of both I ₂ concentrations (1 , 100PPM and 400 PPM) at room temperature or the quat-I ₂ composition of 1 ,100 PPM I ₂ concentration at 37 °C. A 7% loss of iodine was observed for the quat-I ₂ composition of 400 PPM I ₂ concentration after 60 days at 37 °C.

[0057] Furthermore, embodiments of the high molecular iodine concentration compositions or pharmaceutical formulations in petrolatum or other petrolatum-based organic carriers were prepared (Example 11 ) by mixing I ₂ -PG in petrolatum or Aquaphor Healing Ointment. No change in color or appearance was ob served from the compositions in petrolatum or Aquaphor after weeks. [0058] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations have unexpected indications due to the high concentration of molecular iodine in the high molecular iodine concentration composition with surprisingly little orno stain orirritancy on a subject’s skin, low cytotoxicity, and high stability.

Definitions

[0059] The singular forms “a,” “an,” and“the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to a “gelling agent” refers to a single gelling agent as well as to several different gelling agents, reference to an “excipient” includes a single excipient as well as two or more different excipients, and the like.

[0060] The term “comprising,” which is inclusive or open-ended and does not exclude additional unrecited elements or method steps, is intended to encompass as alternative embodiments, the phrases “consisting essentially of’ and “consisting of’ where “consisting of’ excludes any element or step not specified and “consisting essentially of’ permits the inclusion of additional unrecited elements or steps that do not materially affect the essential or basic and novel characteristics of the composition or method under consideration.

[0061] The term “optional” or“optionally” means thatthe subsequently described circumstance may or may not occur, so that the description includes instances where the circumstance occurs and instances where it does not.

[0062] The term “pharmaceutically acceptable” in reference to an entity or ingredient is one that causes no significant adverse toxicological effects in a subject when administered to the subject.

[0063] The term “molecular iodine” refers to diatomic iodine, which is represented by the chemical symbol I2 (CAS Registry Number: 7553 -56-2) whether dissolved, suspended orin a solid state. The term “molecular iodine” may also be referred to as “elemental iodine” when in the solid state and is sometimes represented as “I2” in this application. The term “molecular iodine” may also be referred as I2, “free molecular iodine,” “unbound molecular iodine,” “uncomplexed molecular iodine,” and “un-complexed molecular iodine” in the art. Chemical activity of molecular iodine is not reduced by association with or complexation with other polymers or iodide and therefore exhibits antimicrobial activity. In aqueous solutions only hypoiodious acid (HOI) and molecular iodine are biocidal. The active biocide in acidic iodine-based biocides is believed to be free molecular iodine.

[0064] The term “iodide” or “iodide anion” refers to the species which is represented by the chemical symbol T (CAS Registry Number: 20461-54-5). Suitable counter-ions for the iodide anion include sodium, potassium, calcium, and the like.

[0065] The term “iodophor” refers to a mixture of molecular iodine with one or more polymers that form a complex with molecular iodine and thereby reduce the concentration of molecular iodine in the mixture, usually in an aqueous medium. Polymers that are used to form iodophors include polyvinylpyrrolidone, copolymers of N-vinyl lactams, acrylates and acrylamides, poly ether glycols. Examples of poly ether glycol include nonylphenolethoxylates. Combinations of polymers may also be used.

[0066] The term “all iodine species” in a sample refers to all iodine containing components in the sample.

[0067] The term “ratio of molecular iodine to all iodine species” in a composition refers to the iodine content of molecular iodine (I2) in the composition divided by the iodine content of all iodine species in the composition.

[0068] The term “organic carrier” refers to an organic molecule in which molecular iodine can be dispersed and the organic molecule does not react with molecular iodine. Examples of organic carrier include glycols with molecular weight below 300 (e.g., propylene glycol, di-propylene glycol, glycerin), propylene glycol monomethyl ether acetate, dimethyl sulfoxide, alcohols (e.g, ethanol, propanols such as isopropanol and 1 -propanol), petroleum jelly, and other petrolatumbased organic carriers, and any mixtures of the foregoing.

[0069] The term “gelling agent” or “viscosity enhancer” refers to an organic molecule that increases the viscosity of a composition. Examples of gelling agent or viscosity enhancer include hydroxypropyl methylcellulose (HPMC) and crosslinked polyacrylic acid polymers (e.g., Carbopols). Examples of the gelling agents for use in the high molecular iodine concentration compositions or pharmaceutical formulations may also include, without limitation, synthetic hydrocolloids like homopolymers of acrylic acid such as those offered by Lubrizol Advanced Materials, Inc., Cleveland, OH, including Ultrez 10®, Ultrez 20®, Ultrez 30® and the Carbopols includingCarbopol®934, Carbopol®940, Carbopol®980, Carbopol® SC-200; methyl glucoside derivatives; alcohol esters such as monohydric alcohol esters, polyhydric alcohol esters; polyethylene glycols (PEG) such as PEG- diisostearate, propoxylated PEG monolaurate, poly glyeryl-3 -laurate, natural hydrocolloids like carrageenan, locust bean gum, guar gum, acacia, tragacanth, alginic acid, gelatin, and semisynthetic hydrocolloids, e.g., carboxymethyl cellulose, methyl cellulose and hydroxypropyl methyl cellulose. Examplesof the viscosity enhancing agents for use in the high molecular iodine concentration compositions or pharmaceutical formulations may also include, without limitation, methyl cellulose, microcrystalline cellulose, carboxymethyl cellulose, hydroxypropyl cellulose, hydroxymethyl cellulose, hydroxyethyl cellulose, hydroxypropylmethyl cellulose, poloxamer (copolymers of polyoxypropylene and polyoxyethylene), cross-linked homopolymers of acrylic acid like Ultrez 30, and guar gum. [0070] The term “stable” means that the variation of the molecular iodine content of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is less than 10% of the initial molecular iodine content. [0071] The term “shelf-life” means the period of time that the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation remains stable in a package under a storage condition. In certain embodiments, the shelf-life is at least 1 month, 2 months, 3 months, 4 months, 5 months, 6 months, 7 months, 8 months, 9 months, 10 months, 11 months, 1 year, 1.5 years, 2 years, 2.5 years, 3 years, 3.5 years, 4 years, 4.5 years, or 5 years. In certain embodiments, the storage condition is room temperature. In certain embodiments, the storage condition is in the dark at room temperature. In certain embodiments, the package is in a closed container. In certain embodiments, the package is in a closed container that prevents more than 90% environmental light from penetrating through the package to reach the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation stored in the package.

[0072] The term “effective amount” means an amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation that is needed to effectuate a desired clinical outcome from a subject the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered to.

[0073] The term “biostatic persistence” means that after the administration of the high molecular iodine concentration composition the microorganism count at the site of administration will be equal to or lower than baseline for at least six hours post administration. The term “baseline” means the microorganism count at the site of administration immediately before administration of the high molecular iodine concentration composition. See FDA Briefing Document discussed in a Nonprescription Drugs Advisory Committee meeting dated March 11 , 2020 (the FDA Briefing at pp. 9-11, https://www.fda.gov/media/135559/download. The disclosed pharmaceutical formulations may also exhibit biostatic persistence.

[0074] Unless otherwise specified, the term “biocidal persistence” means that at the site of the administration of the high molecular iodine concentration composition the microorganism count measured one minute after one post administration challenge at the site and within a set period of time (e.g., 0.5 hr, 1 hr, 1.5 hr, 2 hr, 2.5 hr, 3 hr, 3.5 hr, 4 hr, 4.5 hr, 5 hr, 5.5 hr, 6 hr) of the administration of the composition will be reduced at least about 1 log lower compared to the microorganism count at a site of the same microorganism challenge without administration of the composition. The term “biocidal persistence” may be modified by the extent of microorganism reduction and the time length the “biocidal persistence” lasts. For example, a 3 log/ 6 hours biocidal persistence means that at the site of the administration of the high molecular iodine concentration composition the microorganism count measured one minute after one post administration challenge at the site and within six hours of the administration of the composition will be reduced about 3 log lower compared to the microorganism count at a site of the same microorganism challenge without administration of the composition. For example, a 2 log/ 12 hour biocidal persistence means that at the site of the administration of the high molecular iodine concentration composition the microorganism count measured one minute after one post administration challenge at the site and within twelve hours of the administration of the composition will be reduced about 2 log lower compared to the microorganism count at a site of the same microorganism challenge without administration of the composition. The disclosed pharmaceutical formulations may also exhibit biocidal persistence [0075] Unless otherwise specified, the term “prolonged biocidal activity” means that at the site of the administration of the high molecular iodine concentration composition, the microorganism count measured one minute after not only a first post administration challenge but also a subsequent post administration challenge atthe site and within a setperiod of time (e.g., 0.5 hr, 1 hr, 1.5 hr, 2 hr, 2.5 hr, 3 hr, 3.5 hr, 4 hr, 4.5 hr, 5 hr, 5.5 hr, 6 hr) of the administration of the composition will be reduced at least about 1 log lower compared to the microorganism count at a site of the same microorganism challenges respectively without administration of the composition. Similarly, the term prolonged biocidal activity may be further defined by the extent of microorganism reduction and the time length the “prolonged biocidal activity” lasts. For example, a 3 log/ 6 hours prolonged biocidal persistence means that atthe site of the administration of the high molecular iodine concentration composition, the microorganism count measured one minute after not only a first post administration challenge of microorganism but also a subsequent post administration challenge atthe site and within six hours of the administration of the composition will be reduced about 3 log lower compared to the microorganism count at a site of the same microorganism challenges respectively without administration of the composition. For example, a 2 log/ 12 hour prolonged biocidal persistence means that that atthe site of the administration of the high molecular iodine concentration composition, the microorganism count measured one minute afternotonly afirstpost administration challenge but also a subsequentpost administration challenge at the site and within twelve hours of the administration of the composition will be reduced about 2 log lower compared to the microorganism count at a site of the same microorganism challenges respectively without administration of the composition. The disclosed pharmaceutical formulations may also exhibit prolonged biostatic activity. [0076] The term “non-staining” means thatthe high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation does not leave a visible stain on a subject’s skin.

[0077] The term “stain free” means that the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation does not leave a visible stain on a subject’s skin after about 10 min.

[0078] The term “substantially stain free” means thatthe high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation does not leave a visible stain on a subject’s skin after about 1 hour.

[0079] The term “non-aqueous” means the total water content of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is no more than 1 ,5%wt of the total weight of the composition.

[0080] The term “substantially non-aqueous” means the total water content of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is no more than 5.0%wt of the total weight of the composition.

[0081] The term “water-free” means the total water content of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is no more than 0.5%wt of the total weight of the composition.

[0082] The term “substantially water-free” means the total water content of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is no more than 2.5%wt of the total weight of the composition. [0083] The term “alcohol-free” means the total alcohol content of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is no more than 0.75%wt of the total weight of the composition.

[0084] The term “substantially alcohol-free” means the total alcohol content of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is no more than 5.5%wt of the total weight of the composition.

[0085] The term “complexed iodine free” means the total concentration of complexed iodine of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is no more than about 5.0 ppm wt/v. Examples of complexed iodine include tri-iodide and iodophors.

[0086] The term “substantially complexed iodine-free” means the total concentration of complexed iodine of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is no more than about 30.0 ppm wt/v.

[0087] The term “iodine uptake ratio” means the amount of molecular iodine absorbed ata site of administration of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation divided by the total amount of molecular iodine administered.

[0088] The term “PPM” of an agent in a composition means a weight/volume (wt/v) concentration of the agent in the composition expressed in parts per million, which may also be referred to as a mass/volume (m/v) concentration. [0089] The term “surgical site” means an incision site on a subject, or any part of a subject’s anatomy in organs or spaces which is opened or manipulated during a surgery.

[0090] The term “about” before a numeric value means a range of ±10% of the numeric value.

I. High Molecular Iodine Concentration Compositions and Pharmaceutical Formulations, Quat-F Composition and Pharmaceutical Formulations

[0091 ] One aspect of the disclosure relates to a high molecular iodine concentration composition comprising: molecular iodine having a concentration of about 1 ,400 ppm to about 170,000 ppm, about 1,400 ppm to about 160,000 ppm, about 1,400 ppm to about 150,000 ppm, about 1,400 ppm to about 100,000 ppm, about 1,400 ppm to about 68,000 ppm, about 1,400 ppm to about 66,000 ppm, about 1,400 ppm to about 60,000 ppm, about 1,400 ppm to about 55,000 ppm, about 1,400 ppm to about 50,000 ppm, about 1,400 ppm to about45,000 ppm, about 1,400 ppm to about 40,000 ppm, about 1,400 ppm to about 35,000 ppm, about 1,400 ppm to about 30,000 ppm, about 1,400 ppm to about 25,000 ppm, about 1,400 ppm to about 20,000 ppm, about 1,400 ppm to about 15,200 ppm, about 1,400 ppm to about 15,000 ppm, about 1,400 ppm to about 10,000 ppm, about 1,400 ppm to about 8,703 ppm, about 1,400 ppm to about 8,000 ppm, about 1,400 ppm to about 5,000 ppm, about 1,400 ppm to about4,077 ppm, about 1,400 ppm to about 2,000 ppm, about 1,400 ppm to about 1,700 ppm, about l,274 ppm to about 170,000 ppm, about 1,274 ppm to about 160,000 ppm, about 1,274 ppm to about 150,000 ppm, about 1,274 ppm to about 100,000 ppm, about 1,274 ppm to about 68,000 ppm, about 1,274 ppm to about 66,000 ppm, about 1,274 ppm to about 60,000 ppm, about 1,274 ppm to about 55,000 ppm, about 1,274 ppm to about 50,000 ppm, about 1,274 ppm to about 45,000 ppm, about 1,274 ppm to about 40,000 ppm, about 1,274 ppm to about 35,000 ppm, about 1,274 ppm to about 30,000 ppm, about 1,274 ppm to about 25,000 ppm, about 1,274 ppm to about

20,000 ppm, about 1,274 ppm to about 15,200 ppm, about 1,274 ppm to about 15,000 ppm, about 1,274 ppm to about 10,000 ppm, about 1,274 ppm to about 8,703 ppm, about 1,274 ppm to about 8,000 ppm, about 1,274 ppm to about 5,000 ppm, about 1,400 ppm to about 4,077 ppm, about 1,274 ppm to about2,000 ppm, about 1,274 ppm to about 1,700 ppm, about 1,500 ppm, about 2,000 ppm, about 4,077 ppm, about 4, 100 ppm, about 8,200 ppm, about 8,703 ppm, about 15,200 ppm, about 16,500 ppm, or about 33,000 ppm by wt/v; and an organic carrier having a concentration of no less than about 93 ,5%wt, no less than about 95%wt, no less than about 98%wt, or no less than about 99%wt of the total weight of the high molecular iodine concentration composition.

[0092] Another aspect of the disclosure relates to a high molecular iodine concentration composition comprising: molecular iodine having a concentration of about 1,121 ppm to about 1,399 ppm wt/v, about 1, 150 ppm to about l,350 ppm wt/v, about l,200 ppm to about 1,300 ppm wt/v, or about 1,250 ppm to about 1,275 ppm wt/v; and an organic carrier having a concentration of no less than about 93 ,5%wt, no less than 95%wt, no less than about 98%wt, or no less than about 99%wt of the total weight of the high molecular iodine concentration composition.

[0093] In certain embodiments, the high molecular iodine concentration composition may be a solution, a viscous solution, a cream, an ointment or a suspension which is used by applying a few drops to the hands and rubbing the hands or applying a few drops to a treatment area on the skin and rubbing the solution into the skin. In certain embodiments, the high molecular iodine concentration composition is a hand sanitizer. In certain embodiments, the high molecular iodine concentration composition is a hand sanitizer which has an I ₂ concentration of 1,500 ppm (wt/v). [0094] Another aspect of the disclosure relates to a high molecular iodine concentration pharmaceutical formulation comprising the high molecular iodine concentration composition. In certain embodiments, the organic carrier of the high molecular iodine concentration composition is pharmaceutically acceptable. In certain embodiments, the high molecular iodine concentration composition is pharmaceutically acceptable. In certain embodiments, the high molecular iodine concentration pharmaceutical formulation further comprises a second pharmaceutically acceptable carrier and/or one or more pharmaceutically acceptable additives.

[0095] Another aspect of the disclosure relates to a quat-I ₂ composition comprising a) a quaternary amine (quat) composition and b) the high molecular iodine concentration composition. In certain embodiments, the quat-I ₂ composition is a pharmaceutical formulation, the quat composition is a quat pharmaceutical formulation, and the high molecular iodine concentration composition is a high molecular iodine concentration pharmaceutical formulation. In certain embodiments, the presence of the quat composition or pharmaceutical formulation does not adversely impact one or more of the following properties of the high molecular iodine concentration composition or pharmaceutical formulation: 1) I ₂ stability; 2) irritation to skin; 3) staining property; 4) cytotoxicy; and 5) biostatic persistent, biocidal persistent, and/or prolonged biocidal activity. In certain embodiments, the quat composition comprises one or more quats comprising a structure of RI(R ₂ )(R3)N ⁺ R4 or its pharmaceutically acceptable salts, Ri, R ₂ , R3, and R4 being respectively and independently selected from the group consisting of alkyl, aryl, arylalkyl, alkylaryl, and alkylarylalkyl groups. In certain embodiments, the alkyl, and alkyl groups of the arylalkyl, alkylaryl, and alkylarylalkyl groups have 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, or 20 carbon. In certain embodiments, one or more of the arylalkyl, alkylaryl, and alkylarylalkyl groups are respectively or independently substituted with one or more further substitution groups. Examples of the further substitution groups include, without limitation, halogen (e.g., F, Cl, Br, I), NO2, hydroxyl, alkoxyl, ether, ester, and carbonyl.

[0096] In certain embodiments, the quat-I ₂ composition may be a solution, a viscous solution, a cream, an ointment or a suspension which is used by apply ing a f ew drop s to the hands and rubbing the hands or applying a few drops to a treatment area on the skin and rubbing the solution into the skin. In certain embodiments, the quat-I ₂ composition is a hand sanitizer. In certain embodiments, the quat-I ₂ composition is a hand sanitizer which has an I ₂ concentration of 1 ,500 ppm (wt/v).

[0097] In certain embodiments, the concentration of the one or more quaternary amines of the quat-I ₂ compositions can be about 0.01% to about 5%, about 0.01% to about 2%, about 0.01% to about 1%, 0.1%, 0.5%, 1%, 1.5%, 2%, 3%, 4%, or 5% by wt/v.

[0098] Examples of pharmaceutically acceptable salts of quaternary amines include, without limitation, hydrochloride, hydrobromide, hydroiodide, nitrate, sulfate, bisulfate, phosphate, acid phosphate, isonicotinate, acetate, lactate, salicylate, citrate, tartrate, pantothenate, bitartrate, ascorbate, succinate, maleate, gentisinate, fumarate, gluconate, glucaronate, saccharate, formate, benzoate, glutamate, methanesulfonate, ethanesulfonate, benzensulfonate, p-toluenesulfonate and pamoate (i.e., 1,1 l-methylene-bis-(2-hydroxy-3 -naphthoate)) salts of the quaternary amines.

[0099] Examples of salts of quaternary amines include, withoutlimitations, octyl decyl dimethyl ammonium chloride (e.g., C1-), dioctyl dimethyl ammonium chloride didecyl dimethyl ammonium chloride (e.g., ), and Ci2-Ci4-alkyl(ethylbenzyl)dimethylammonium chloride pharmaceutical formulation comprises a quat composition comprising a mixture of decyl dimethyl ammonium chloride, dioctyl dimethyl ammonium chloride, and didecyl dimethyl ammonium chloride at a ratio by weight of 2:1 :1 (decyl dimethyl ammonium chloride: dioctyl dimethyl ammonium chloride: didecyl dimethyl ammonium chloride). In one embodiment, the quat-I ₂ composition or pharmaceutical formulation comprises a quat composition comprising a mixture of decyl dimethyl ammonium chloride, dioctyl dimethyl ammonium chloride, and didecyl dimethyl ammonium chloride at a ratio by weight of 2: 1 : 1 (decyl dimethyl ammonium chloride: dioctyl dimethyl ammonium chloride: didecyl dimethyl ammonium chloride) in an embodiment of high molecular iodine concentration composition or pharmaceutical formulation, e.g., I ₂ - glycerin with I ₂ concentration of 400 ppm, 500 ppm, 1,100 ppm, or 1,500 ppm by wt/v)

[00100] Examples of the organic carriers of certain embodiments of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations include, without limitation, glycols with molecular weight of less than 300 (e.g., propylene glycol, di-propylene glycol, glycerin), propylene glycol monomethyl ether acetate, dimethyl sulfoxide, alcohols (e.g., ethanol, propanols such as isopropanol and 1- propanol), petroleum jelly, other petrolatum-based organic carriers, and any mixtures of the foregoing.

[00101] In certain embodiments, the organic carrier of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation has a boiling point higher than 100 °C and has a vapor pressure that is less than about 30% of the vapor pressure of molecular iodine. In certain embodiments, the organic carrier comprises one or more anhydrous organic solvents. In certain embodiments, the organic carrier is anhydrous.

[00102] In certain embodiments of the high molecular iodine concentration composition or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations, at least about 90%, at least about 95%, at least about 96%, at least about 97%, at least about 98%, at least about 99%, or at least about 99.9% of all iodine species is molecular iodine.

[00103] The ratio of molecular iodine to all iodine species of certain embodiments of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations is at least about 95%, at least about 96%, at least about 97%, at least about 98%, at least about 99%, or at least about 99.9%.

[00104] Examples of suitable pharmaceutical formulations include, without limitation, creams, lotions, gels, ointments, and sprays. In one embodiment, the high molecular iodine concentration composition or the quat-I ₂ composition is formulated into a vaginal lubricant or gel to provide treatment for or prophylactic protection from viral, bacterial, or fungal infections.

[00105] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are nonaqueous. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-l2 compositions or pharmaceutical formulations are substantially non-aqueous. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are water-free. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are substantially water-free.

[00106] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation has a water content of no more than about 5%wt, no more than about 4.5%wt, no more than about 4%wt, no more than about 3.5%wt, no more than about 3%wt, no more than about 2.5%wt, no more than about2%wt, no more than about 1 ,9%wt, no more than about 1.8%wt, no more than about 1 ,7%wt, no more than about 1 ,6%wt, no more than about 1 ,5%wt, no more than about 1 ,4%wt, no more than about 1 ,3%wt, no more than about 1 ,2%wt, no more than about 1. l%wt, no more than about l%wt, no more than about 0.9%wt, no more than about 0.8%wt, no more than about 0.7%wt, no more than about 0.6%wt, no more than about 0.5%wt, no more than about 0.4%wt, no more than about 0.3%wt, no more than about 0.2%wt, or no more than about 0. l%wt of the total weight of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation.

[00107] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are alcohol-free. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are substantially alcohol-free. [00108] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation has an alcohol content of no more than about 50%wt, no more than about 40%wt, no more than about 30%wt, no more than about20%wt, no more than 10%wt, no more than about 5%wt, no more than about 4.5%wt, no more than about 4%wt, no more than about 3.5%wt, no more than about 3%wt, no more than about 2.5 %wt, no more than about 2%wt, no more than about 1 ,9%wt, no more than about 1.8%wt, no more than about 1.7%wt, no more than about 1.6%wt, no more than about 1 ,5%wt, no more than about 1 ,4%wt, no more than about 1 ,3%wt, no more than about 1 ,2%wt, no more than about 1. l%wt, no more than about l%wt, no more than about 0.9%wt, no more than about 0.8%wt, no more than about 0.7%wt, no more than about 0.6%wt, no more than about 0.5%wt, no more than about 0.4%wt, no more than about 0.3%wt, no more than about 0.2%wt, or no more than about 0.1%wt of the total weight of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation.

[00109] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is complexed iodine-free. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is substantially complexed iodine-free.

[00110] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation has a total concentration of complexed iodine of no more than about 30.0 ppm wt/v, no more than about 25.0 ppm wt/v, no more than about 20.0 ppm wt/v, no more than about 15.0 ppm wt/v, no more than about 10.0 ppm wt/v, no more than about 8.0 ppm wt/v, no more than about 5.0 ppm wt/v, no more than about 4.5 ppm wt/v, no more than about 4.0 ppm wt/v, no more than about 3.5 ppm wt/v, no more than about 3.0 ppm wt/v, no more than about 2.5 ppm wt/v, no more than about 2.0 ppm wt/v, no more than about 1.5 ppm wt/v, no more than about 1.0 ppm wt/v, or no more than about 0.5 ppm wt/v.

[00111] In certain embodiments, concentrations of the iodine-containing species that are not molecular iodine of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation are no more than about 30.0 ppm wt/v, no more than about 25.0 ppm wt/v, no more than about 20.0 ppm wt/v, no more than about 15.0 ppm wt/v, no more than about 10.0 ppm wt/v, no more than about 8.0 ppm wt/v, no more than about 5.0 ppm wt/v, no more than about 4.5 ppm wt/v, no more than about 4.0 ppm wt/v, no more than about 3.5 ppm wt/v, no more than about 3.0 ppm wt/v, no more than about 2.5 ppm wt/v, no more than about 2.0 ppm wt/v, no more than about 1.5 ppm wt/v, no more than about 1.0 ppm wt/v, or no more than about 0.5 ppm wt/v.

[00112] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation further comprises one or more additives. Examples of the one or more additives are, without limitation, gelling agents, polymers, viscosity enhancing agents, unsaturated fatty acids, desiccants, and fragrances.

[00113] In certain embodiments, the viscosities of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are no greater than about 100,000 Centipoise (cps), no greater than about 50,000 cps, no greater than about 1,000 cps, or no greater than about 500 cps. In certain embodiments, the viscosities of the high molecular iodine centration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are about 2,000 cps.

[00114] Examples of polymers for use in the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations include carbopols and HPMA polymers.

[00115] An example of desiccants for use in the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations include zeolites.

[00116] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations further comprise an unsaturated fatty acid that imparts a long-lasting residual bactericidal activity. Examples of the unsaturated fatty acids includelactic acid, myristic acid, 1 -monolaurin, dodeconic acid and caprylic acid. Lauric acid, latic acid and caprylic acid can be incorporated directly into propylene glycol.

[00117] In certain embodiments, molecular iodine remains stable in the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations. For example, the concentration changes of molecular iodine in the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are less than about 5%, less than about 4%, less than about 3%, less than about2%, less than about 1%, orless than about 0.5% after 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 24, or 36 monthsatroom temperature. In certain embodiments, the concentration changes of molecular iodine in the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are less than 10% after 26 months at room temperature. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are placed at room temperature in dark.

[00118] In certain embodiments, the shelf-lives of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are at least 1 month, 2 months, 3 months, 4 months, 5 months, 6 months, 7 months, 8 months, 9 months, 10 months, 11 months, 1 year, 1.5 years, 2 years, 2.5 years, 3 years, 3.5 years, 4 years, 4.5 years, or 5 years. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are stored at room temperature. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are stored in dark at room temperature. In certain embodiments, the packages where the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are stored in are closed containers. In certain embodiments, the packages where the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are stored in are closed containers that prevent more than 90% environmental light exposure for the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations stored therein.

[00119] In certain embodiments, the iodine uptake ratio of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is at least about 99%, at least about 95%, at least about 90%, at least about 85%, at least about 80%, at least 75%, or at least 70%. [00120] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are nonstaining. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are stain free. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are substantially stain free.

[00121] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are nonstaining; and have a concentration of molecular iodine that is about 1,121 ppm to about 12,250 ppm, about 1,121 ppm to about 8,400 ppm, about 1,121 ppm to about 4,400 ppm, about 1,121 ppm to about 2,200 ppm, about 1, 121 ppm to about 1,655 ppm, 1,274 ppm to about 12,250 ppm, about 1,274 ppm to about 8,400 ppm, about 1,274 ppm to about 4,400 ppm, about 1,274 ppm to about 2,200 ppm, about 1,274 ppm to about 1,655 ppm, 1,400 ppm to about 12,250 ppm, about 1 ,400 ppm to about 8,400 ppm, about 1 ,400 ppm to about 4,400 ppm, about 1,400 ppm to about 2,200 ppm, or about 1,400 ppm to about 1,655 ppm wt/v (e.g., 1,500 ppm wt/v); and a concentration of the organic carrier that is no less than about 93.5%wt, no less than 95%wt, no less than about 98%wt, or no less than about 99%wt of the total weight of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations.

[00122] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are stain free; and have a concentration of molecular iodine that is about 1,121 ppm to about 13,900 ppm, about 1, 121 ppm to about 15,000 ppm, about 1,121 ppm to about 17,000 ppm, about 1,274 ppm to about 13,900 ppm, about 1,274 ppm to about 15,000 ppm, about 1,274 ppm to about 17,000 ppm, about 1,400 ppm to about 13,900 ppm, about 1,400 ppm to about 15,000 ppm, or about 1,400 ppm to about 17,000 ppm, and a concentration of the organic carrier that is no less than about 93 ,5%wt, no less than 95%wt, no less than about 98%wt, or no less than about 99%wt of the total weight of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat- I2 compositions or pharmaceutical formulations.

[00123] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-l2 compositions or pharmaceutical formulations are substantially stain free; and have a concentration of molecular iodine that is about 1,121 ppm to about 33,000 ppm, about 1,121 ppm to about 66,000 ppm, about 1, 121 ppm to about 68,000 ppm, about 1,274 ppm to about 33,000 ppm, about 1,274 ppm to about 66,000 ppm, or about 1,274 ppm to about 68,000 ppm, about 1,400 ppm to about 33,000 ppm, about 1,400 ppm to about 66,000 ppm, or about 1,400 ppm to about 68,000 ppm wt/v, and a concentration of the organic carrier that is no less than about93.5%wt, no less than 95 %wt, no less than about98%wt, orno less than about 99%wt of the total weight of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-l2 compositions or pharmaceutical formulations.

[00124] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-l2 compositions or pharmaceutical formulations may leave a stain on a subject’s skin at the site of administration but the stain dissipates after 1 sec, 2 sec, 3 sec, 4 sec, 5 sec, 6 sec, 7 sec, 8 sec, 9 sec, 10 sec, 20 sec, 30 sec, 40 sec, 50 sec, 1 min, 2 min, 3 min, 4 min, 5 min, 6 min, 7 min, 8 min, 9 min, 10 min, 12 min, 13 min, 14 min, 15 min, 20 min, 25 min, 30 min, 1 hr, 1.5 hr, 2 hr, 2.5 hr, 3 hr, 3.5 hr, 4 hr, 4.5 hr, 5 hr, 5.5 hr, 6 hr, 6.5 hr, 7 hr, or 8 hr.

[00125] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are not irritative to a subject’s skin. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are not irritative to a subject’s skin after they are in contact with the subject skin for 1 sec, 2 sec, 3 sec, 4 sec, 5 sec, 6 sec, 7 sec, 8 sec, 9 sec, 10 sec, 20 sec, 30 sec, 40 sec, 50 sec, 1 min, 2 min, 3 min, 4 min, 5 min, 6 min, 7 min, 8 min, 9 min, 10 min, 12 min, 13 min, 14 min, 15 min, 20 min, 25 min, 30 min, 1 hr, 1.5 hr, 2 hr, 2.5 hr, 3 hr, 3.5 hr, 4 hr, 4.5 hr, 5 hr, 5.5 hr, or 6 hr.

[00126] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are not cytotoxic.

[00127] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are biostatic persistent. In certain embodiments, the high moleculariodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are biostatic persistent for one or more microorganisms for at least 6 hr, at least 7 hr, at least 8 hr, at least 9 hr, at least 10 hr, at least 11 hr, at least 12 hr, at least 13 hr, at least 14 hr, at least 15 hr, at least 16 hr, at least 17 hr, at least 18 hr, at least 19 hr, at least 20 hr, at least 21 hr, at least 22 hr, at least 23 hr, or at least 24 hr. [00128] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations are biocidal persistent. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations have at least 1 log, 2 log, 3 log, 4 log, 5 log, or 6 log biocidal persistence for oneor more microorganisms for at least 15 min, at least 30 min, at least 45 min, at least 1 hr, at least 2 hr, at least 3 hr, at least 4 hr, at least 5 hr, at least 6 hr, at least 7 hr, at least 8 hr, at least 9 hr, at least 10 hr, at least 11 hr, at least 12 hr, at least 13 hr, at least 14 hr, at least 15 hr, at least 16 hr, at least 17 hr, at least 18 hr, at least 19 hr, at least 20 hr, at least 21 hr, at least 22 hr, at least 23 hr, or at least 24 hr.

[00129] In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations have prolonged biocidal activities. In certain embodiments, the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations have at least 1 log, 2 log, 3 log, 4 log, 5 log, or 6 log prolonged biocidal activities for one or more microorganisms for at least 15 min, at least 30 min, at least 45 min, at least 1 hr, at least 2 hr, at least 3 hr, at least 4 hr, at least 5 hr, at least 6 hr, at least 7 hr, at least 8 hr, at least 9 hr, at least 10 hr, at least 11 hr, at least 12 hr, at least 13 hr, at least 14 hr, at least 15 hr, at least 16 hr, at least 17 hr, at least 18 hr, at least 19 hr, at least 20 hr, at least 21 hr, at least 22 hr, at least 23 hr, or at least 24 hr.

[00130] In certain embodiments, for a tissue (e.g., hand) of a subject, if the tissue is administered with a therapeutically effective amount of an embodiment of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations and the tissue is then exposed to an environment of a microorganism of a first concentration, the concentration of the microorganism on the tissue remains at least 1 log less than the first concentration for at least 15 min, at least 30 min, at least 45 min, at least 1 hr, at least 2 hr, at least 3 hr, at least 4 hr, at least 5 hr, at least 6 hr, at least 7 hr, at least 8 hr, at least 9 hr, at least 10 hr, at least 11 hr, at least 12 hr, at least 13 hr, at least 14 hr, at least 15 hr, at least 16 hr, at least 17 hr, at least 18 hr, at least 19 hr, at least 20 hr, at least 21 hr, at least 22 hr, at least 23 hr, or at least 24 hr.

IL Articles Comprising the High Molecular Iodine Concentration Compositions or Pharmaceutical Formulations or the Quat-I ₂ Compositions or Pharmaceutical Formulations [00131] Another aspect of the disclosure relates to an article comprising the high molecular iodine concentration composition or pharmaceutical formulation, or the quat-I ₂ composition or pharmaceutical formulation. In certain embodiments, the article is a pharmaceutically acceptable article comprisingthe high molecular iodine concentration pharmaceutical formulation orthe quat- I ₂ pharmaceutical formulation.

[00132] In certain embodiments, the article is a container comprising one or more compartments. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation orthe quat-I ₂ composition or pharmaceutical formulation is packaged in a container that has 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, or 20 compartments.

[00133] In certain embodiments, the compartment holds a unit dose of a therapeutically effective and/or prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation. Examples of unit dose include 0.1 mL, 0.2 mL, 0.3 mL, 0.4 mL, 0.5 mL, 0.6 mL, 0.7 mL, 0.8 mL, 0.9 mL, or 1 mL.

[00134] Examples of the containers include capsules, bottles, pouches, and tubes. [00135] In certain embodiments, the pharmaceutical formulation is applied to a surface of the article that will be in contact with a biological tissue of a subject when administered. Examples of such articles include wiping articles, ports, catheters, surgical tools, and films. Examples of the wiping articles include wipes, fabrics, cloths, paper, and cotton.

III. Uses of the High Molecular Iodine Concentration Compositions, High Molecular Iodine Concentration Pharmaceutical Formulations, Quat-I ₂ Compositions, and Quat-I ₂ Pharmaceutical Formulations

[00136] Embodiments of the high molecular iodine concentration compositions or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations have not only the known uses for molecular iodine, but also unexpected uses due to the high concentration of molecular iodine in the high molecular iodine concentration composition or pharmaceutical formulations orthe quat-I ₂ compositions or pharmaceutical formulations as well asthe surprisingly little or no stain or irritancy on a subject’s skin, low cytotoxicity, and high stability of the high molecular iodine concentration composition or pharmaceutical formulations or the quat-I ₂ compositions or pharmaceutical formulations.

A. Killing or Inhibiting the Growth of Microorganism and/or Parasites

[00137] Another aspect of the invention provides a method of disinfecting a space or surface by killing or inhibitingthe growth of a microorganism and/or parasite on a surface or in a space by applying an effective amount of the high molecular iodine concentration composition or the quat- I ₂ composition or pharmaceutical formulation to the surface or space. The high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation may be applied by spraying, or wiping. [00138] Another aspect of the invention provides a method of killing or inhibiting the growth of a microorganism and/or parasite on or in a subject by administering a therapeutically effective amount or a prophy lactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation to the subject. In certain embodiments, the subject is a human. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation may be a solution, a viscous solution, a cream, an ointment or a suspension which is used by apply ing a f ew drop s to the hands and rubbing the hands or applying a few drops to a treatment area on the skin and rubbing the solution into the skin. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is a hand sanitizer. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is a hand sanitizer which has an I ₂ concentration of 1,500 ppm (wt/v).

[00139] In certain embodiments, the subjectis a domesticated animal. Examples of domesticated animals include horse, cow, sheep, goat, pig, dog, and cat. In certain embodiments, the microorganism is present at a treatment site in or on the subject. In certain embodiments, an undesired biofilm is present at the treatment site.

[00140] Another aspect of the invention provides a method of disrupting and/or eliminating an undesired biofilm present at a treatment site in or on a subject by administering a therapeutically effective amount or prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation to the undesired biofilm present at the treatment site in or on the subject. [00141] Another aspect of the invention provides a method of disinfecting or sanitizing a subject’shandsby killing or inhibitingthe growth of a microorganism and/orparasite on the hands of a subject by administering a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat- composition or pharmaceutical formulation to the subject’s hands.

[00142] Another aspect of the invention provides a method of treating or preventing a condition associated with a microorganism and/or parasite of a subject comprising administering to the subject a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-l2 composition or pharmaceutical formulation.

[00143] In certain embodiments, the condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is a tissue condition associated with the microorganism and/or parasite. In certain embodiments, the tissue is a mucosal tissue or a cutaneous tissue.

[00144] In certain embodiments, the mucosal tissue surrounds or is in a biological cavity. Examples of biological cavities include eye cavity, ear cavity, oral cavity, nasal cavity, vaginal cavity, rectal cavity, and urethral cavity.

[00145] Examples of the microorganism to be killed or growth of which to be inhibited by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-b composition or pharmaceutical formulation include virus, bacteria, fungus, and protozoa.

[00146] Examples of virus to be inactivated or growth of which to be inhibited by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include adenoviruses (e.g., human adenovirus), Norovirus, Reovirus, Rotavirus, Aphthovirus, Parechovirus, papovaviruses (e.g, Polyoma virus and SV40), Erbovirus, Kobuvirus, Teschovirus, Reoviruses (e.g., rotavirus and human reovirus), Hepatovirus, Hepatitis E virus, Rubella virus, Lymphocytic choriomeningitis virus, retroviruses (e.g., HIV-1, HIV-2, rous sarcoma virus (rSV), and mouse leukemia viruses), HTLV-I, herpesviruses (e.g., Human herpes Simplex Virus 1 and 2,), Cardiovirus (e.g., Norwalk virus), Orthomyxovirus (e.g., Influenza Virus A, B and C), Isavirus, Thogotovirus, Coxsackie Virus, vims and semliki forest vims and the flaviviruses (group b) (e.g., Dengue virus, yellow fever virus and the St. Louis encephalitis virus), Yellow fever virus, Hepatitis A vims, Hepatitis B vims, Hepatitis C vims, Measles virus, Mumps virus, Respiratory syncytial vims, Bunyaviruses, (e.g., bunyawere (encephalitis), California encephalitis vims), Hantavirus, filoviruses, (e.g., Ebola virus, Marburg virus), Corona virus, Astroviruses, Borna disease virus, Poxviruses, (Vaccinia virus and variola (Smallpox)), Parvoviruses (e.g., Adeno associated virus (aav)), Picomaviruses (e.g., Poliovirus), Togavi ruses (e.g., includingthe alpha viruses (group a), e.g., Sindbis), Rhabdovi viruses, (e.g, vesicular stomatitis virus (VSV) and rabies vims), Arena viruses (e.g., lassa virus), Coronavimses (e.g., common cold (rhinovirus), GI distress viruses, SARS-Cov-2, SARS), Ebola, Human Papilloma virus (HPV), Herpes Simplex vims 1 or 2, Human Immunodeficiency Virus (HIV), Hepatitis A virus (HAV), Hepatitis B virus (HBV), and Hepatitis C virus (HCV).

[00147] Examples of conditions associated with virus to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-b composition or pharmaceutical formulation include COVID-19, SARS, Ebola, HPV infection (e.g., plantar warts), herpes, AIDS, hepatitis A, hepatitis B, Hepatitis C, adenoviral conjunctivitis, viral keratitis (e.g., herpes simplex virus epithelial keratitis, herpes simplex virus stromal keratitis, herpes simplex virus endothelial keratitis, herpes zoster virus epithelial keratitis). [00148] Examples of bacteria to be killed or growth of which to be inhibited by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include gram-positive and gram-negative bacteria, e.g., Bacillus oleronius, Streptococcus pyogenes, Erysipelothrix rhusiopalhiae , My cobacterium tuberculosis, Mycobacterium bovis, Escherichia coli, Extended Spectrum Beta Lactamase resistant E. coli (ESBL), Shigella flexneri, Staphylococcus aureus, Staphylococcus epidermidis, Serratia marcescens, Vibrio cholera, MRSA, Salmonella enterica, Gonorrhea, Syphilis, Shewanella algae, Shewanella putrefaciens, Chlamydia, Chlamydia trachomatis, Chlamydia pneumoniae, Chlamydia psittacci, Aeromonas hydr ophila, Vibrio species, Pasteur ellamultocida, Stapylococcus species, Corynebacterium species, Pripionibacterium species, and antibiotic resistant bacteria, e.g., antibiotic resistant flesh eating bacteria.

[00149] Examples of conditions associated with bacteria to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include tuberculosis, periodontitis, acne (e.g., Propionibacterium acnes), rosacea, impetigo, cellulitis, folliculitis, blepharitis (e.g., anterior blepharitis, posterior blepharitis, rosacea blepharitis), bacterial conjunctivitis, blepharoconjunctivits, bacterial corneal ulceration, post-operative endophthalmitis, endophthalmitis after intravitreal or intracameral injection, and infections caused by the bacterium (e.g., urinary tract infections).

[00150] Examples of fungus to be killed or growth of which to be inhibited by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include Apophysomyces variabilis, Aspergillus, Basidiobolus ranarum, Blastomyces dermatitidi, Coccidioides (e.g., Coccidioides posadasii, Coccidioides immitis), Conidiobolus (e.g., Conidiobolus coronatus, Conidiobolus incongruous),

Epidermophyton, Fonsecaea (e.g., Fonsecaea pedrosoi, Fonsecaea compacta), Fusarium,

Geotrichum candidum, Herpotrichiellaceae (e.g., Exophiala jeanselmei), Histoplasma (e.g., Histoplasma capsulatum, Histoplasma duboisii), Hortaea wemeckii, lacazia (e.g., Lacazia loboi), Hyalohyphomycosis, Lichtheimia corymbifera, Malassezia furfur, Microsporum (e.g., Microsporum canis, Microsporum gypseum), Mucor indicus, onychomycosis (e.g., Distal subungual onychomycosis, Proximal subungual onychomycosis), Phialophora verrucose, Piedraia hortae, Pityrosporum, Pseudallescheria boydii, Rhizopus oryzae, Sporothrix schenckii, Syncephalastrumracemosum, Talaromyces mameffei, Trichophyton (e.g., Trichophyton mbmm, Trichophyton mentagrophytes), and yeast (e.g., Candida such as Candida albicans, Candida glabrata, Candida tropicalis, Candida lusitaniae; Cryptococcus neoformans; Pneumocystis such as Pneumocystis jirovecii).

[00151] Examples of conditions associated with fungus to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation are Alternariosis, black Piedra, blastomycosis, chromoblastomycosis, conidiobolomycosis, favus, fungal folliculitis, fungal corneal ulceration, Lobomycosis, onychomycosis, Otomycosis, Phaeohyphomycosis Pityrosporum folliculitis, ringworm, tinea (e.g., tinea pedis, tinea cruris, tinea barbae, tinea manuum, tinea unguium, tinea unguium, tinea faciei, tinea versicolon, tinea nigra, tinea corporis gladiatorum, tinea imbricate, tinea incognito), yeast infection (e.g., seborrheic dermatitis, vaginal yeast infections).

[00152] Examples of protozoa to be killed or growth of which to be inhibited by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include Acanthamoeba, Leishmania parasites, trypanosoma, Entamoeba histolytica, and Toxoplasma gondii.

[00153] Examples of conditions associated with protozoa to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include Acanthamoeba infections (e.g., Acanthamoeba corneal ulceration), Acanthamoeba keratitis, Leishmaniasis, trypanosomiases, Amebiasis, and Toxoplasmosis.

[00154] Examples of parasites to be killed or growth of which to be inhibited by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include Cercarial Dermatitis (Swimmer's Itch), Cryptosporidiosis, Demodex species (e.g., Demodex mite, Demodex folliculorum, and D. brevis), Encephalitozoon intestinalis, Enterocytozoon bieneusi, Loa, Red mite (Dermanyssus gallinae), Rhinosporidium seeberi, Scabies mite (Sarcoptes scabiei), Spiny rat mite (Laelaps echidnina), and Tropical rat mite (Ornithonyssus bacoti).

[00155] Examples of conditions related to a parasite to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include mite dermatitis caused by the mites listed above, e.g., scabies, Red mite infestation, Cercarial Dermatitis, Tropical rat mite dermatitis, Spiny rat mite dermatitis, demodex folliculorum dermatitis, loiasis, Cryptosporidium infection, and demodex blepharitis.

B. Uses on Skin Conditions

[00156] Another aspect of the invention relates to a method of treating or preventing a skin condition of a subject comprising administering to the subject a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation.

[00157] In certain embodiments, examples of the skin condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation are, without limitation:

1) skin conditions associated with a biological reaction of a subject to an exogenously introduced irritant; and

2) skin conditions associated with an autoimmune disease.

[00158] In certain embodiments, the skin conditions to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include acne, Granuloma gluteale infantum, and rosacea.

[00159] In certain embodiments, the skin conditions to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include eczema (e.g., subacute eczema, asteatotic eczema), dermatitis (e.g., rhus dermatitis, allergic contact dermatitis, atopic dermatitis), urticaria, psoriasis, chronic or acute itching, impetigo, cellulitis, and folliculitis.

[00160] In certain embodiments, the exogenously introduced irritant that is associated with a skin condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is introduced to the subject by an animal (e.g., insect stings and bites, and jellyfish stings) or a plant (e.g., poison oak, poison sumac, or poison ivy). [00161] Examples of the insects that are associated with a skin condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-E composition or pharmaceutical formulation include bee, wasp, hornet, scorpion, ant, spider and mosquito.

[00162] Examples of the jellyfish include Physalia sp. (Portuguese Man-o-War, Blue-bottle), Cub ozoan jellyfish (e.g., Chironex fleckeri), Carybdeids (e.g., Carybdea arborifera and Alatina moseri), Linuche unguiculta (Thimble jellyfish), a jellyfish responsible for Irukandji syndrome (Carukia barnesi) and Pelagia noctiluca.

[00163] Examples of the exogenously introduced irritants that are associated with a skin condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include apitoxin (bee venom), histamine, tyramine, serotonin, catecholamines, hydrolases (wasp venoms), anticoagulant (mosquito saliva), proteinaceous porins, neurotoxic peptides, and bioactive lipids.

[00164] In certain embodiments, examples of the autoimmune diseases that are associated with skin conditions to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include diabetes, scleroderma, psoriasis, dermatomyositis, epidermolysis bullosa, and bullous pemphigoid. [00165] In certain embodiments, the skin condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is associated with diabetes. Examples of skin conditions associated with diabetes include acanthosis nigricans, bullosis diabeticorum (diabetic blisters), digital sclerosis, disseminated granuloma annulare, eruptive xanthomatosis, and necrobiosis lipoidica diabeticorum. [00166] In certain embodiments, the skin condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is associated with an immune response.

[00167] In certain embodiments, the skin condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is associated with an inflammatory response.

C. Uses on Wound-Healing and/or Wound-Prevention

[00168] Another aspect of the invention relates to a method of fostering wound-healing or preventing a wound of a subj ect comprising administering to the subj ect a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation.

[00169] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is applied to a wound or tissue in proximity of the wound. In certain embodiments, the tissue is a mucosal tissue or a cutaneous tissue.

[00170] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is applied to a tissue where an incision will be created before the incision is created. For example, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation may be applied to an area of tissue where or in proximity to where a surgical procedure will be performed. [00171] In certain embodiments, the wound to be healed in presence of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is healed with a scar less severe than a similar wound healed without administration of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation. In certain embodiments, the scar is less severe as characterized by one or more improvements, e.g., without limitation, reduction of the scar height, reduction of the scar surface, reduction of the thickness of the scar, improvement of the pliability of the scar, improvement of the texture of the scar, reduction of pigmentation of the scar, and reduction of vascularity of the scar. See, e.g., Fearmonti et al., “A Review of Scar Scales and Scar Measuring Devices,” Eplasty, 2010: 10 e43, which is incorporated by reference (https://www ncbi.nlm.nih gov/pmc/articles/PMC2890387/, attached as Appendix I). In certain embodiments, the one or more improvements of the scar are at least about 10%, about 10% to about 100%, at least about 20%, at least about 30%, at least about 40%, at least about 50%, at least about 60%, at least about 70%, at least about 80%, at least about 90%, at least about 95%, or at least about 99%. In certain embodiments, the reduction of the scar height, the reduction of the scar surface, and/or the reduction of the thickness of the scar are/is at least about 10%, about 10% to about 100%, at least about 20%, at least about 30%, at least about 40%, at least about 50%, at least about 60%, at least about 70%, at least about 80%, at least about 90%, at least about 95%, or at least about 99%.

[00172] In certain embodiments, the wound to be healed in presence of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is healed without a visible scar. [00173] In certain embodiments, the wound to be healed in presence of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is healed in a shorter period of time in the presence of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation compared to similar wound healed without the presence of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation. In certain embodiments, the presence of the high molecular iodine concentration composition or pharmaceutical formulation or the quat- I ₂ composition or pharmaceutical formulation shortens the wound-healing period by at least about 10%, about 10% to about 99%, at least about 20%, at least about 30%, at least about 40%, at least about 50%, at least about 60%, at least about 70%, at least about 80%, at least about 90%, at least about 95%, or at least about 99%.

[00174] In certain embodiments, the wound to be healed in presence of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is inflicted by a cut, a friction, cold, heat, radiation (e.g., sunburn), a chemical, electricity, a microorganism and/or parasite infection, pressure, and/or a condition of the subject (e.g., diabetes). For example, in certain embodiments, the subjectis diabetic (i.e., a subject having a condition, and the condition is diabetes). Examples of wounds in a diabetic subject include bullosis diabeticorum (diabetic blisters), eruptive xanthomatosis, and neuropathic ulcers (e.g., diabetic foot ulcers). In certain embodiments, the wound is a decubitus ulcer (i.e., pressure ulcer, pressure sore, or bedsore).

[00175] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is applied as a spray, a bandage impregnated with the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation, or a cream.

D. Uses for Pre-, Post- and Intra-Operative Infection Prevention and Tumor Inhibition

[00176] Another aspect of the invention relates to a method of treating a surgical site to foster healing, prevent infection, and/or inhibit tumor recurrence in a subject in need comprising administering to the subject a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation. In certain embodiments, the method of treating a surgical site is performed as a pre-surgical treatment, a post-surgical treatment, or a treatment during a surgery.

[00177] A surgical site refers to an incision site on a subject, or any part of a subject’s anatomy in organs or spaces which were opened or manipulated during a surgery. In certain embodiments, the incision site includes a superficial incision site, e.g., involving skin or subcutaneous tissue. In certain embodiments, the incision site includes a deep incision site, e.g., in tissues deeper than the skin or subcutaneous tissue, such as fascial and muscle layers.

[00178] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is applied to a surgical site or tissue in proximity of the surgical site.

[00179] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is applied to a surgical site as a surgical lavage (pre-surgical, post-surgical, or during surgery) as a liquid stream or as a spray. Examples of surgical lavage include esophageal lavage, and pleural lavage.

Examples of surgery include pleurodesis procedure, cytoreductive surgery, thoracic surgery, esophageal resection, complete resection or pleural reductive surgery for thymoma, primary functional endoscopic sinus surgery, spinal surgery, and colonic resection.

[00180] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered as an eyelid antisepsis prior, during, or after an eye surgery (e.g., cataract surgery) or other procedures on or proximate to an eye (e.g., intravitreal injection, intracameral injection). In certain embodiments, the eyelid antisepsis is applied to eyelid by hand or by an article comprising the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation (e.g., an eyelid wipe).

[00181] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is applied to a surgical site comprising a chest cavity (i.e., a space between a subject’s lung and chest wall). For example, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation maybe administered before, during or after a pleurodesis procedure in a subject in need.

[00182] In certain aspects, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is applied to a surgical site, and the surgical site comprises a tumor. In certain embodiments, the tumor comprises a benign tumor. In certain embodiments, the tumor comprises a premalignant tumor. In certain embodiments, the tumor comprises a malignant tumor.

[00183] Examples of benign tumors to be treated by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include adenomas, fibromas, hemangiomas, and lipomas. [00184] Examples of premalignant tumors to be treated by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include actinic keratosis, cervical dysplasia, metaplasia of the lung and leukoplakia.

[00185] Examples of malignant tumors to be treated by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include carcinomas, sarcomas, germ cell tumors, blastomas, adenocarcinoma, melanoma, basal cell carcinoma, squamous cell carcinoma, NUT carcinoma, ductal carcinoma in situ (DCIS), invasive ductal carcinoma, malignant rhabdoid tumor, Wilms tumor, renal cell carcinoma, chondrosarcoma, Ewing sarcoma, osteosarcoma, Desmoid tumor, hepatoblastoma, hepatocellular carcinoma, alveolar soft-part sarcoma, angiosarcoma, fibrosarcoma, liposarcoma, neurofibrosarcoma, rhabdomyosarcoma, synovial sarcoma, adrenal tumor, carcinoid tumor, camey triad, multiple endocrine neoplasia (MEN), neuroendocrine tumors, paragangliomas, pheochromocytomas, thyroid carcinoma, pancreatic tumor, nasopharyngeal carcinoma, ovarian tumor, testicular tumor, thoracic tumor, and retinoblastoma.

[00186] In certain embodiments, the malignant tumors to be treated by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is caused by a cancer. Examples of cancer include bladder cancer, breast cancer, cervical cancer, colon cancer, rectal cancer, colorectal cancer, endometrial cancer, kidney cancer, lip cancer, oral cancer, ovarian cancer, testicular cancer, melanoma, non-melanoma skin cancer, mesothelioma, non-small cell lung cancer, small cell lung cancer, pancreatic cancer, prostate cancer, bone cancer, liver cancer, and thyroid cancer. [00187] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered by intrapleural irrigation to the subject, and the subject is suffering from epithelial or biphasic mesothelioma. In some embodiments, the surgical site is associated with cytoreductive surgery. In some embodiments, the surgical site is associated with thoracic surgery.

[00188] In further embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered by esophageal lavage or esophageal washout to a subject undergoing esophageal resection.

[00189] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered by pleural lavage to a subject undergoing complete resection or pleural reductive surgery for thymoma.

[00190] In some embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered post-surgery as a post-operative rinse to a subject following primary functional endoscopic sinus surgery.

[00191] In other embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered to a surgical site by lavage to prevent surgical site infection (SSI) following a surgery. In certain embodiments, the surgery is a spinal surgery.

[00192] In further embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered during a surgery as a whole colon washout to prevent anastomotic recurrence after colonic resection for colorectal cancer.

[00193] In further embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered during a surgery as a whole or partial colon washout to prevent infections after surgery.

E. Uses on Ophthalmic Conditions

[00194] Another aspect of the invention relates to a method of treating or preventing an ophthalmic condition in a subject in need comprising administeringto the subject a therapeutically effective amount or a prophy lactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation at or proximate to a site of the ophthalmic condition.

[00195] In certain embodiments of the methods, examples of the ophthalmic conditions to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation include blepharitis (e.g, anterior blepharitis, posterior blepharitis, rosacea blepharitis, demodex blepharitis), blepharoconjunctivits, conjunctivitis (e.g., adenoviral conjunctivitis, bacterial conjunctivitis), molluscum contagiosum (e.g., eyelid molluscum contagiosum), corneal ulcer (e.g., bacterial corneal ulceration, fungal corneal ulceration, Acanthamoeba corneal ulceration), bacterial keratitis, viral keratitis (e.g., herpes simplex virus epithelial keratitis, herpes simplex virus stromal keratitis, herpes simplex virus endothelial keratitis, herpes zoster virus epithelial keratitis), postoperative endophthalmitis, endophthalmitis after intravitreal or intracameral injection, papilloma (e.g., conjunctival papilloma, comeal squamous papilloma, eyelid squamous papilloma), and verrucae (e.g., eyelid verrucae).

[00196] In certain embodiments, the ophthalmic condition to be treated or prevented by the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is an infection associated with one or more infectious agents. Examples of the agents include bacteria (e.g., Stapylococcus species, Corynebacterium species, Pripionibacterium species), demodex, fungus (e.g., yeast), and virus.

[00197] In certain embodiments of the methods, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered as an eyelid antisepsis prior to eye surgery (e.g., cataract surgery) or other procedures on or proximate to an eye (e.g., intravitreal injection, intracameral injection).

F. Administration of the High Molecular Iodine Concentration Compositions and Pharmaceutical Formulations, and the Quat-I? Compositions and Pharmaceutical Formulations

[00198] In certain embodiments of the methods, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is applied on a surface or in a space where the microorganism or parasite is at or in proximity. In certain embodiments of the methods, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered on or in proximity to a tissue where the microorganism, parasite, or condition or disease is located. In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered by applying the article to the subject. [00199] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered on or in is a mucosal tissue or a cutaneous tissue.

[00200] In certain embodiments, the mucosal tissue the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered on or in is in or surrounds a biological cavity. Examples of biological cavities include eye cavity, ear cavity, oral cavity, nasal cavity, vaginal cavity, rectal cavity, and urethral cavity.

[00201] In certain embodiments, the tissue the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered on or in is at a respiratory tract or at a gastrointestinal tract.

[00202] In one embodiment, the high molecular iodine concentration composition is formulated into a vaginal lubricant or gel to provide treatment for or prophylactic protection from viral, bacterial or fungal infections.

[00203] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation can be administered by one or more routes selected from the group consisting of topical, transscleral, transbuccal, transocular, transmeatal, transnasal, trasmucosal, transvaginal, transanal, transurethral, and inhalation.

[00204] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered every 10 min, 20 min, 30 min, 40 min, 50 min, 1 hr, 2 hr, 3 hr, 4 hr, 5 hr, 6 hr, 7 hr, 8 hr, 9 hr, 10 hr, 11 hr, 12 hr, 13 hr, 14 hr, 16 hr, 16 hr, 17 hr, 18 hr, 19 hr, 20 hr, 21 hr, 22 hr, 23 hr, 24 hr, 36 hr, or 48 hr.

[00205] In certain embodiments, the high molecular iodine concentration composition or pharmaceutical formulation or the quat-I ₂ composition or pharmaceutical formulation is administered four times a day, three times a day, twice a day, once a day, or once every other day. [00206] In certain embodiments, the high molecular iodine concentration composition may be applied to a surface of a biological tissue such that the biological tissue will absorb molecular iodine and release molecular iodine, and the release of molecular iodine may last for about 1 to 48 hours, or about l, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 2, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, or48 hours. In certain embodiments, the high molecular iodine concentration composition of formulation is administered to the subjectfor about 5 to about 6,000 seconds, about 5 sec to about 30 min, about 10, 20, 30, 40, 50, or 60 seconds, or about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, or 30 min, which may continuously provide a therapeutically effective and/or prophy lactically effective amount of 12 for about 12 to 36 hours, about 1 to 48 hours, or about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 2, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, or 48 hours. For example, as shown in Example 3, administration of an embodiment of high molecular iodine concentration composition disclosed herein to a pig skin inhibited yeast growth on the pig skin for at least 20 hours. IV. Preparation of High Molecular Iodine Concentration Compositions and Quat-f Compositions

[00207] Provided are also methods for preparing the high molecular iodine concentration compositions. In certain embodiments, the high molecular iodine concentration composition is prepared by dispersing iodine into the organic carrier. In certain embodiments, the preparation method comprises:

1) dispersing an iodine composition in a first organic solvent to prepare a first iodine dispersion; and

2) dispersing the first iodine dispersion into a second organic solvent to provide the high molecular iodine concentration composition as desired.

[00208] Provided herein are also methods for preparing the quat-I ₂ compositions. In certain embodiments, the quat-I ₂ composition is prepared by dispersing iodine and/or the one or more quaternary amines into the organic carrier. In certain embodiments, the preparation method comprises:

1) dispersing an iodine composition and a quaternary amine composition in a first organic solvent to prepare a first quat-iodine dispersion; and

2) dispersing the first quat-iodine dispersion into a second organic solvent to provide the quat-I ₂ composition as desired.

[00209] In certain embodiments, the iodine composition and the quaternary amine composition may be added to the first organic solvent substantially at the same time or at different time. When the quaternary amine composition includes more than one quaternary amine, the one or more quaternary amines may be added separately or added as any combination thereof. [00210] In certain embodiments, preparation of the quat-E composition comprising mixing one or more molecular iodine dispersions and one or more quaternary amine dispersions. In certain embodiments, preparation of the quat-12 composition comprising mixing one or more quat-iodine dispersions with one or more dispersions selected from the group consisting of quaternary amine dispersions and molecular iodine dispersions. The one or more molecular iodine dispersions and the one or more quaternary amine dispersions may be dispersions in the same or different organic carriers. For example, I2 and the one or more quats may be respectively dispersed in a first organic solvent (e.g., alcohol such as ethanol and isopropanol) before added simultaneously and/or separately into a second organic carrier (e.g., glycerin, propylene glycol).

[00211] In certain embodiments, all organic solvents are anhydrous.

[00212] In certain embodiments, the first and the second organic solvents are the same.

[00213] In certain embodiments, the first and the second organic solvents are different, and the first organic solvent has better solubility of iodine than the second organic solvent.

[00214] In certain embodiments, the first organic solvent has a viscosity less than 10 centipoise. [00215] In certain embodiments, the first iodine dispersion has a molecular iodine concentration at least ten times of that of the high molecular iodine concentration composition.

[00216] Examples of the first organic solvent include, without limitation, propylene glycol, alcohols (e.g., ethanol and propanols such as isopropanol and 1 -propanol), and dimethyl sulfoxide. Examples of the second organic solvent include, without limitation, glycols with molecular weight of less than 300 (e.g., glycerin, propylene glycol), and combinations thereof.

[00217] In certain embodiments, the preparation method comprises:

1) mixing elemental iodine in ethanol to prepare a first iodine ethanol concentrate that has

I2 concentration of about 5% to about 40%wt; and 2) mixing the first iodine ethanol concentrate into a glycol with molecular weight of less than 300 (e.g., glycerin, propylene glycol, and combinations thereof) to provide the high molecular iodine concentration composition as desired.

[00218] In certain embodiments, the preparation of the high molecular iodine concentration composition comprises mixing the first iodine ethanol concentrate with the glycol with molecular weight of less than 300 for at least twenty minutes.

[00219] In certain embodiments, the preparation of quat-b composition comprises:

1) mixing elemental iodine and one or more quaternary amines in ethanol to prepare a first quat-iodine ethanol concentrate that has I2 concentration of about 5% to about 40%wt; and

2) mixing the first quat-iodine ethanol concentrate into a glycol with molecular weight of less than 300 (e.g., glycerin, propylene glycol, and combinations thereof) to provide the quat-12 composition as desired.

[00220] In certain embodiments, the high molecular iodine concentration composition or quat-I ₂ composition may be further dispersed in a third organic carrier, e.g., petroleum jelly or other petrolatum-based compositions.

[00221] The above disclosure and the following examples are illustrative of the teachings of this application and are not meant to limit the scope and application of the invention. The examples and embodiments are for illustrative and will suggest modifications to persons skilled in the art which are included within the spirit and purview of this application and scope of the appended claims. EXAMPLES

EXAMPLE 1. Preparation of embodiments of the high molecular iodine concentration composition

A. Preparation of an -glycerin composition according to an embodiment of the disclosure

[00222] A total of 33.74 grams of analytical grade elemental iodine (United Chemicals, Wuxi, Jiangsu, China Lot# 2020-01-01) was placed in a 240 mL glass borosilicate jar that had a PTFE screw top. A total of 144.24 grams of glycerin (Spectrum Chemicals, New Brunswick, NJ 08901, Lot# 2IE0215) was weighed into the glass jar on top of the elemental iodine. A Circulus™ magnetic stir bar (VWR, Radnor, PA 19087, Cat# 58947-849) wasusedto vigorously disperse the elemental iodine with the glycerin at a spin rate of 300 rpm during the initial 23 days, 150 rpm for the next 30 days and then without agitation for the remaining time. At differenttime points the mixing was stopped and less than 1 mL of material was removed to measure the absorbance at 460 nm in a Cole Parmer 1100 Spectrophotometer. The absorbance values at the different time points are shown in Figure 1 . Even under vigorous agitation it took a longtime for the elemental iodine to dissolve in the glycerin such thatit was impractical to contemplate preparingbatches of material for commercial sales.

B. Another preparation of an -glycerin composition according to an embodiment of the disclosure

[00223] An alternate approach was undertaken to prepare a dispersion of elemental iodine of glycerin. Prior experiments had demonstrated that iodine was not stable in ethanol as there was a loss of over 15% of molecular iodine after 15 days at room temperature when stored at room temperature in the dark. A total of 15.15 grams of molecular iodine was dissolved in 80 mL of absolute ethanol (ThermoFisher Scientific, Fair Lawn, NJ, 07410, Lot#B0538618A) and the volume was brought to a total of 100 mL ethanol resulting in an ethanol-iodine solution having 150,000 ppm molecular iodine. A five-liter chamber was charged with 4 liters of glycerin and the glycerin was stirred using a rotary mixer. Once the glycerin reached steady state of agitation the iodine-ethanol mixture was added dropwise to the glycerin over a period of 20 minutes. The mixture was continuously mixed and every five minutes a 0.5 mL volume was removed and an absorbance reading at 460 nm was taken. The mixture was homogenous within 45 minutes as judged by identical values of three successive absorbance readings which indicated a total molecular iodine concentration of 1,500 ppm (wt/v). The iodine species of the I ₂ -glycerin composition prepared was substantially molecular iodine. The controlled addition of a concentrated ethanol-iodine solution into an organic carrier provides the ability to accurately prepare compositions that contain high concentration of molecular iodine. The stability of molecular iodine in this composition did not exhibit any loss at room temperature over the first monitoringperiod which was 113 daystotal and overthe second monitoringperiod which was 480 days total.

C Another preparation of an -glycerin composition according to an embodiment of the disclosure

[00224] Analytical grade molecular iodine (United Chemicals, Wuxi, Jiangsu, China Lot# 2020- 01-01) was dissolved in propylene glycol (Alfa Asear, Lot 10225033) to a concentration of 10 grams per 100 mL or 100,000 ppm (wt/v). This solution was used as an iodine concentrate and diluted to a final concentration of 1,500 ppm of molecular iodine in the following compositions: pure glycerin, pure propylene glycol, propylene glycol with 10% citric acid, propylene glycol with 5% citric acid, and propylene glycol with 1% citric acid. EXAMPLE 2. Vapor pressure measurement and absorbance in skin of an embodiment of the high molecular iodine concentration composition

A. Vapor pressure measurement and absorbance in pig skin

[00225] The vapor pressure of molecular iodine dissolvedin glycerin is significantly lower than the vapor pressure observed in an aqueous solution. This experiment was designed to determine if iodine dissolved in glycerin has any propensity to partition into mammalian skin. Pigskins were purchased from a local supermarketand cut into 2 by 5 cm pieces (total of 15). The pigskins had a thickness around 3 mm (2.5-3.5mm). An I ₂ -glycerin composition as prepared according to Example IB (1,500 ppm (wt/v)) was used.

[00226] Fifteen pieces of pigskins were washed with tap water and then dried with a paper towel and weighed. The squares of pigskin were randomly assigned to a control group and four different treatment groups. Each group of pigskins was placed in a 30-mL clear glass bottle with a PTFE lid before being submerged in a glycerin composition. The control group was submerged in pure glycerin. The treatment groups were submerged in the I ₂ -glycerin composition for 3, 6, 12 or 24 hours. The weight of pigskin used for each group and the total weight of glycerin composition added to each treatment is shown in Table 1 below.

Table 1. Amount of Material Used to Treat Each Group

[00227] The concentration of I ₂ absorbed into pigskin was measured by determining the concentration of I ₂ that remained in the glycerin for each treatment group. The I ₂ concentration was determined by measuringthe absorbance at460 nm in a Cole Parmer 1100 Spectrophotometer.

The initial absorbance of the I ₂ -glycerin material before contact with the pigskin was 0.429. As I ₂ diffused into pigskin the absorbance of the I ₂ -glycerin was reduced (see, e.g., Table 2).

Table 2. Iodine in Glycerin after Contact with Pigskin

[00228] The data demonstrates that iodine dissolved in glycerin was absorbed into mammalian skin despite the fact that the glycerin has an extremely strong affinity for molecular iodine as demonstrated by the dramatically reduced vapor pressure of molecular iodine in glycerin as compared to water. Figure 2 shows that by three to six hours the mammalian skin was saturated with iodine under the conditions used.

B. Uneven Distribution of I ₂ throughout epidermis, dermis, and subcutaneous tissues of pig skin

[00229] The vapor pressure of molecular iodine dissolved in glycerin is significantly lowered as compared to the vapor pressure observed in an aqueous solution. This experiment was designed to determine if iodine dissolved in glycerin has any propensity to partition into mammalian skin. Pigskins were purchased from a local supermarket, and cutinto 2 by 5 cm pieces (total of 15). The pigskins had a thickness around 3 mm (2.5-3.5mm). An I ₂ -glycerin composition as prepared according to Example IB for the various concentrations used. [00230] Iodine Tincture USP and povidone-iodine (PVP-I) were known to kill pathogens on the surface of skin. However, it is not known whether aqueous topical iodine compositions allow I ₂ to diffuse into the subcutaneous tissue of mammals. Various topical iodine compositions were compared to determine whether I ₂ applied to the epidermis results in accumulation of I ₂ into subcutaneous tissue. Subcutaneous tissue was also exposed to said different topical iodine compositions to determine if I ₂ can be absorbed upon direct exposure. The only composition that allowed I ₂ deposition in subcutaneous tissue was the glycerin-I ₂ compositions tested. PVP-I, Iodine Tincture USP andl ₂ in ethanol all stained the epidermis heavily but did provide meaningful penetration of I ₂ into the subcutaneous tissue.

[00231] Subcutaneous tissue is not homogenous as there are different types of biomolecules present, e.g. collagen fibers, elastin fibers, blood vessels, sebaceous glands, nerve endings and hair follicle roots. The I ₂ molecule is hydrophobic and highly polarizable. The results showed that I ₂ did not distribute evenly in subcutaneous tissue. Instead, I ₂ accumulated into regions of the subcutaneous tissue. This may be one reason why high concentrations of I ₂ were necessary to achieve some of the beneficial clinical outcomes reported in this application. That is, it is necessary to have highly concentrated areas of I ₂ in the subcutaneous tissue to provide a reservoir of I ₂ that can diffuse throughout the skin.

[00232] Pig skin was used for all experiments. Skin was hydrated by soaking in deionized water for 30 -minutes prior to experiments. All experiments were conducted at 20 °C. Exposure of the different topical iodine compositions was accomplished by repeatedly administering 10 pl to the epidermis of a 1 .77 square centimeter piece of skin in 10-minute intervals over the course of a 90- minute period; or alternately, 2 pl in 10-minute intervals for squarepieces of skin that were 0.5mm on a side. After application, the topical compositions were spread using an L-shaped spreader for 20 seconds to achieve full coverage of area. Applications were not removed after each 10-minute period, butinstead were cumulatively addeduntil the 90-minute periodhad ceased. A clean scalpel was used to achieve clean cross-sections for viewing. a. PVP-I

[00233] PVP-I (CVS Health Povidone-Iodine Solution 10% - lot A61689; 1% available iodine) was topically applied in 10 pl increments over 90 minutes to observe how concentrations of PVP- I administered to the epidermis (Figure 3 A) affected layers of the tissue. Iodine was observed within the top layer of skin, the epidermis (Figure 3 A), but was not be seen throughout the dermis (Figure 3C) or subcutaneous tissue (Figure 3B). The epidermis was clearly stained (Figure 3 A) but the dermis and subcutaneous tissue (Figure 4) remained unaffected. After removing the epidermis, B was not observed in dermal layer (Figure 4) indicating that staining only persisted into the top layer of the skin (Figure 3 A). Furthermore, a cross-section of a 0.5 mm piece of tissue halved after exposure to PVP-I showed no I2 staining (Figure 4). b. Iodine Tincture USP

[00234] Iodine Tincture USP (CVS Health Brand: Active ingredients: Iodine 2%, Sodium Iodide 2.4%, Alcohol 47%; Lot#A63340) was applied in 10 pl increments over the course of 90 minutes. Similar to PVP-I, the epidermis (Figure 5 A) was stained by I2 after epidermal administration of the Iodine Tincture USP. However, distribution of I ₂ into the subcutaneous tissue was not observed either (Figures 5B and 5C). c. I ₂ in Ethanol

[00235] A very high concentration of I2 in ethanol (150,000 ppm I ₂ -ethanol) was tested to determine if such an elevated concentration could deliver I ₂ into subcutaneous tissue. I ₂ -ethanol was applied over a course of 90 minutes when up to 100 pl in 10-minute increments. Again, the epidermis was stained (Figure 6A). However, no I2 was observed in the subcutaneous tissue as shown by the cross-section of the pig skin (Figure 6B). d. I in Glycerin

[00236] 66,000 ppm I ₂ -glycerin was applied epidermally to a pig skin. Surprisingly, I ₂ was not only observed on the epidermis (Figure 7A) but also was observed in multiple areas within 3 minutes after epidermally applying 30 pl of the I ₂ -glcerin. After removing the epidermis residual I ₂ can be clearly observed (Figure 7B). To confirm that the coloration was I ₂ , a SenSafe Iodine Check test strip (Industrial Test Systems, Inc., Rock Hill, S.C.) was applied to the subcutaneous tissue and the test strip indicated an I ₂ concentration of 3 ppm at the highest concentration. Nevertheless, I ₂ did not seem to be distributed evenly into the subcutaneous tissue (e.g., (Figure 7B)).

[00237] In another experiment, presence of I ₂ in subcutaneous tissue was measured from subcutaneous tissue treated with 15,200 ppm I ₂ -glycerin composition directly using a SenSafe Iodine Check test strip. Ten 5 mm x 5 mm square pieces of subcutaneous tissue from pig was submerged in 15,200 ppm I ₂ -glycerin composition for 15 minutes, then rinse with deionized water seven times and submerged in 1 mL of distilled water. Each piece of subcutaneoustissue was obtained by removing epidermis from a piece of pig skin. Afterwards, at 15, 30, 45, 60, 75 and 90 minutes and then every 30 minutes after that, a piece of subcutaneous tissue was removed from distilled water and tested for the presence of I ₂ using a SenSafe Iodine Check test strip. Each piece of subcutaneous tissue was maintained in contact with a test strip for up to 5 minutes or until the color no longer changed. The peak color for each piece can be seen in Figure 8 A-8 J. SenSafe Iodine Check test strip in contact with the treated subcutaneous tissue 2.5 hours after the I ₂ -gly cerin treatment or later did not change color. [00238] The color of the SenSafe Iodine Check test strip ranged from 0 ppm (yellow) to 5 ppm (teal-green color). Images of the SenSafe Iodine Check test strips used to test the subcutaneous tissue after incubation in 15,200 ppm l ₂ -glycerin are shown sequentially in Figures 8A-8J, and the I ₂ concentrations measured are summarized in Table 3. Surprisingly, a substantial amount of I ₂ diffused into subcutaneous tissue did not react with the biological matrix as reflected by the observation that outgassing of I ₂ from subcutaneous tissue lastedforup to 2.5 hours. This was the first demonstration that I ₂ remained stable in a biological tissue. Furthermore, I ₂ escaped from subcutaneous tissue that was not covered by dermis or epidermis in a shorter period of time (2.5 hr) than from a piece of skin with dermis and epidermis (e.g., at least 20 hrs shown in Example 3).

Table 3. I ₂ concentration of subcutaneous tissue after I ₂ -glycerin (15,200 ppm) treatment measured by SenSafe Iodine Check test strip

EXAMPLE 3. An embodiment of the high molecular iodine concentration compositions inhibited microorganism growth on pigskin for a long time after the administration.

[00239] Experiment2 demonstratedthatiodine in glycerin can be absorbed into mammalian skin. This experiment explored whether iodine absorbed into mammalian skin would exhibit residual biocidal activity. An I ₂ -glycerin composition as prepared according to Example IB (1,500 ppm (wt/v)) was used. A 2 cm x 5 cm piece of pigskin from a local supermarket was submerged in the 1 ,500 ppm (wt/v) I ₂ -glycerin material for 3 hours. Tap water was run overboth sides of the pigskin with rubbing to thoroughly wash both sides of the treated skin. Baker’s yeast (0.42 grams) from a local supermarket was dispersed in 800 mL of tap water to yield a suspension that contained > 0.5 mg/mL of Baker’s yeast. The washed I ₂ -glycerin treated pigskin was then submerged in 30 mL of the yeast suspension for 20 minutes. As a control, an identical piece of pigskin that was washed but not treated with the I ₂ -glycerin composition was also submerged in 30 mL of the yeast suspension for 20 minutes.

[00240] An Aquavial watertest kit (AquaBSsafe, Cambridge, ONN1R 8B5, Canada) was used to determine if the treated pig skin emitted a level of molecular iodine that would inhibitthe growth of yeast. The Aquavial water test kit relies upon the change in color of a pH sensitive dye to detect the growth of microbes. The growth media used in the Aquavial water test kit is colored; growth of microbes in the media will reduce this color. A Cole Parmer 1100 Spectrophotometer set to 550 nm was used to measure the concentration of the dye in the growth media. The initial absorbance of the dye in the growth media was 0.40. After 2.5 hours the absorbance in the sample from untreated pigskin was 0.214; this reduction in color indicates growth of yeast. In comparison the absorbance in the sample of the treated pigskin was 0.367 which indicates that the growth of yeast was inhibited. After 20 hours the absorbance in the sample from untreated pigskin was 0.008 as compared to an absorbance of 0.232 in the sample of the treated pigskin. These results indicate that I ₂ emitted from the treated pigskin and inhibited the growth of yeast for at least 20 hours.

EXAMPLE 4. Biocidal persistence embodiment of the high molecular iodine concentration composition [00241] A 1,500 ppm I ₂ -glycerin (wt/v) composition as prepared according to Example IB and used to demonstrate a biocidal persistence of treated skin for at least 6 hours. An experiment that was substantially more demanding than that defined by FDA based upon the test method known as ASTM E 2755-15 was designed for testing of the biocidal persistence of the 1,500 ppm I ₂ - glycerin (wt/v) composition. In essence, hands were first exposed to the 1,500 ppm I ₂ -glycerin (wt/v) composition andthen after a defmed time period, hands were contaminated with a high level of bacteria. After one minute of the bacteria exposure, the number of remaining bacteria were determined. The 1,500 ppm I ₂ -glycerin (wt/v) composition not only had biostatic persistence which only required maintaining a low level of residual bacteria on skin for at least 6 hours after the last administration of the I ₂ -glycerin composition, but also showed biocidal persistence when a high bacterial challenge up to 6 hours after the last administration of the 1,500 ppm I ₂ -glycerin (wt/v) composition was reduced by about 1 log.

A. -glycerin on Staphylococcus aureus

[00242] In one example, biocidal persistence of the 1,500 ppm I ₂ -glycerin (wt/v) composition was determined on human hands after application of a Staphylococcus aureus suspension at 1, 3 and 6 hours after the last administration of the 1 ,500 ppm I ₂ -glycerin (wt/v) composition.

[00243] Adult subj ects whose hands were determinedto be free from any damage were consented and told to refrain from using any antimicrobial for 24 hours prior to the test date. At the start of the test, the hands and fingers of the subjects were artificially contaminated using 0.2 mL of a high titer (> 10E8 cfu) S. aureus for at least 1 minute.

[00244] Control Group : The subject’ s hands were placed in a sterile bag and 200 mL Dey Engley neutralization broth was added and the bag was then secured with a tourniquet. The whole surface of the hands was massaged for 60 seconds to 120 seconds. A volume of 0.10 mL was removed from the broth and spread on a mannitol salt agar and incubated at 32.5°C at 24 hours.

[00245] Treatment Groups: Three mL of the 1,500 ppm I ₂ -glycerin (wt/v) composition was applied to each subjects’ hands and rubbed into the whole surface of the hands. After 1, 3 and 6 hours of the application of the 1,500 ppm I ₂ -glycerin (wt/v) composition, the hands were challenged by applying 0.2 mL of a high titer (> 10E8 cfu) S. aureus for at least 1 minute. Then, each hand was placed in a sterile bag, respectively, and 200 mL Dey Engley neutralization broth was added in the bag, and the bag was then secured with a tourniquet. The whole surface of the hands was massaged for 60 seconds to 120 seconds. A volume of 0. 10 mL was removed from the broth and spread on a mannitol salt agar and incubated at 32.5°C at 24 hours.

[00246] The control group demonstrated a bacterial count of 7.3 x 10E8 cfu/hand. The challenge to treated hands after 1 hour demonstrated a bacterial count of 6.6 x 10E6 cfu/hand which represents a 2 log inactivation or reduction of bacteria. The challenge to treated hands after 3 hours demonstrated a bacterial count of 4.5 x 10E7 cfu/hand which represents more than a 1 log inactivation or reduction of bacteria. The challenge to treated hands after 6 hours demonstrated a bacterial count of 6.9 x 10E7 cfu/hand whichrepresents more than a 1 log inactivation or reduction of bacteria.

B. I ₂ -glycerinonE. coli

[00247] Escherichia coli (ATCC11229; Manassas, VA) was purchased and grown on MacConkey Agar (Ward’s Science, Henrietta, NY; Cat. #WARD470180-742; various Lots). One experiment was conducted each day to allow I ₂ to out-gas from skin prior to conducting another experiment. On the day of an experiment, bacteria were harvested with a loop and suspended in water such that a 1/100 dilution of the E. coli yielded an optical density between 0.80 and 1 .2 optical density at 600 nm. Quantification of this stock solution of E. coli was performed each day and the number of bacteria contained is a 2 pL volume ranged between 1,000 and 5,000 cfu.

[00248] Prior to conducting the experiment hands were washed with bar soap and dried. A 5 pL volume of a 1,500 ppm I ₂ -glycerin (wt/v) composition as prepared according to Example IB was deposited on the finger pads of the pinky (P), ring finger(R), middle finger (M) and index finger (I) of a single hand. The I ₂ -glycerin was spread over the finger pad with a plastic loop. Different times, i.e. 30, 60, 120, 240 and 300 minutes, elapsed after the administration of the I ₂ -glycerin composition before challenging the treated finger pads with 2 pL of an E. coli suspension. The E COH WQVQ allowed to dry on the finger pads and then after 10 minutesthe finger pads were contacted to a plate of MacConkey Agar. The agar was incubated overnight at 37°C and the colony counts for each finger pad were recorded. For each experiment, the thumb was nottreated with I ₂ -glycerin and was used as a control.

[00249] A concentration above 1 , 100 ppm provided an antibacterial activity to kill dried E. coli about 30 minutes after application to human skin. Longer period for biocidal persistence were achieved as the concentration of I ₂ increased. At 15,000 ppm I ₂ provided complete kill of E. coli 2 hours after application.

Table 4. Biocidal Persistence of h-Glycerin Compositions at Various I2 Concentrations.

*tntc: too numerous to count.

C. PVP-I on E. coli

[00250] StockE. coli 1/500 was used on finger pads (the 1/100 dilutionhadan OD 600 of 1.12). a 10 pL 1/100,000 dilution was plated for quantification purposes. 5 pL 10% PVP-I solution was applied to the finger pads of the four fingers on the left, waited for 30 min; and then added 2 pL of the 1/500 E. coli finger pads of the left hand and thoroughly dried with hair dryer; waited for 10 minutes and then took an imprint of the left hand; place in incubator for overnight treatment. Data are shown in Table 4 and Figure 9N.

D. Lugol’s solution on E. coli

[00251] StockE coli 1/500 was used on finger pads (the 1/100 dilutionhadan OD 600 of 1.12). a 10 pL 1/100,000 dilution was plated for quantification purposes. 5 pL 10% Lugol’s solution was applied to the finger pads of the four fingers on the left, waited for 30 min; and then added 2 pL of the 1/500 E. coli on finger pads of the left hand and thoroughly dried with hair dryer; waited for 10 minutes and then took an imprint of the lefthand; place in incubator for overnighttreatment. Data are shown in Table 4 and Figure 90.

E. Biocidal embodiments of the high molecular iodine concentration composition were effective to neutralize significant bioburden. [00252] I ₂ -glycerin compositions with various I ₂ concentrations were tested against E. colt challenges with various bacteria amounts on human skin.

[00253] Bacterial suspensions were prepared fresh daily prior to use in experiment noting the OD600 1 :100 dilution and CFU/ml were calculated based on plating 1 : 100,000 dilutions after 24 hours. MacConkey agar plates were acquired from Ward’s Science through VWR (MacConkey Agar Cat#WARD470180-742; Lot #1382103) and directly through the supplier IPM Scientific (Cat #11066-024 Lot#1612104). Fingers and thumb were properly readied before experiments by thoroughly washing hands for 20 seconds and then wiping with an alcohol wipe to eliminate background bacteria.

[00254] Different amounts of bacteria were deposited on the finger pads of the pinky, ringfinger, middle finger, index finger and thumb of a hand. The finger pads of the pinky received 2 pL of the bacteria suspension; the ring finger received 4 pL (2 pL applied two times sequentially) total; the middle finger received 6 pL (2 pL applied three times sequentially); the index finger received 8 pL (2 pL applied four times sequentially) and 2 pL was applied to the thumb which served as a positive growth control. The 2 pL of bacterial suspension was allowed to dry completely between each successive loading. Control fingers were used to quantify the number of viable bacteria on each finger.

[00255] To treat the dried A. coli, 5 pL of an I ₂ -glycerin composition prepared according to the method described in Example IB was spread with a 10 pL virgin loop spreader. The I ₂ -glycerin remained in contact with the skin for 10 minutes and then 5 pL of 0. IN sodium thiosulfate was applied to each finger pad to neutralize any residual iodine. An additional 30 seconds was allotted forthis step. Control finger pads confirmed that the presence of thiosulfate did not preventthe growth of the bacteria. Fingertips were plated by contacting agar for 2 minutes continuously. I ₂ - glycerin compositions with various I2 concentrations ranging from 450 ppm to 15,200 ppm were tested. All experiments were designed and set-up with similar conditions.

[00256] Treatments using concentrations from 450 ppm - 1,100 ppm did not reduce the number of E. coll enumerated as compared to control finger pads. Therefore, bioburdens associated with high bacteria amount deposited on skin was material. A bioburden of 3,000 cfu/cm ² on human skin of upper extremities may be considered clinical elevated bacterial level although higher concentrations have been measured before. Other areas of skin or mammal (e.g., human) body can contain much higher concentrations of bacteria/bioburden. Therefore, the bioburden tested herein are not extreme. A 2 pl drop of the tested E. coll suspension dried down in a circle with a surface area of approximately 0.6283 cm ² to provide a bioburden concentration of about 1 million cfu/cm ² . The lowest I ₂ -glycerin concentration that the 5 pL high molecular iodine concentration compositions demonstrated meaningful bacterial kill for bioburdens of about 1 million cfu/cm ² was 7,803 ppm I ₂ (Figure 10B). The pinky finger treated with 2 pL of I ₂ -glycerin composition at 7,803 ppm concentration demonstrated over 99% bacterial kill for 2 pL of the bacteria suspension applied (620,000 cfu). With 4 pL of the bacteria suspension applied (1,240,000 cfu), 70% was reduced and a similar reduction was observed with 8 pL of the bacteria suspension applied (2,480,000 cfu) after 10 minutes. This was further confirmed with the treatment with I ₂ -glycerin composition at 15,200 ppm I ₂ concentration, which demonstrated a 100% reduction against 2 pL of bacteria suspension applied (580,000 cfu), 90% reduction in the 4 pL bacteria suspension applied (1,160,000 cfu) and 6 pL bacteria suspension applied (1,740,000 cfu), and 70% reduction in the 8 pL of bacteria suspension applied (2,320,000 cfu).

F. Prolonged biocidal effects of biocidal embodiments of the high molecular iodine concentration composition. [00257] 25 pL I ₂ -glycerin composition of various I ₂ concentrations (15k PPM) were deposited on the finger pads of the pinky (P), ring finger(R), middle finger (M) and index finger (I) of a human hand, respectively; the thumb was used as a positive control and was not treated with 12- glycerin composition or any other antimicrobial. The I ₂ -glycerin compositions were spread over the finger pads with a plastic loop, respectively. Residual glycerin was removed from the fingertips with an alcohol wipe. Escherichia coli (ATCC11229; Manassas, VA) was purchased and grown on MacConkey Agar (Ward’s Science, Henrietta, NY; Cat. # WARD470180-742). Bacteria were harvested with a loop and suspended in water such that a 1/100 dilution of the E. coli yielded an optical density between 0.80 and 1 .2 optical density at 600 nm; quantification of the bacterial stock solution of E. coli was performed. The human hand treated with I ₂ -glycerin compositions was washed with bar soap and dried before. The pinky (P), ring finger (R), index finger (I) and thumb were then treated with 2 pL of a 1/1000 dilution of the stock bacterial suspension twice, with 2.5 hours apartbetween the two bacterial applications. After eachbacteria application, the E. coli were allowed to dry on the finger pads and the finger pads contacted a plate of MacConkey gar 10 minutes after the bacteria application. The agar was incubated overnight at 37 °C and the colony counts for each finger pad were recorded. A total of 32 and 17 colonies grew under the thumb print made after the first and second bacterial applications, respectively. No colonies grew under the impressions made by individual fingers after the first or the second bacteria application. Therefore, the data showed that embodiments of the high molecular iodine concentration compositionshad prolonged biocidal effects. EXAMPLE 5. An embodiment of the high molecular iodine concentration composition effectively inhibited growth of various bacteria.

A. An embodiment of the high molecular iodine concentration composition effectively inhibited growth of various bacteria.

[00258] Suspension testing of an example of the high molecular iodine concentration compositions herein (1,500 ppm (wt/v) I ₂ -glycerin as prepared according to Example IB) was conducted. The biocidal activity of the iodine composition was tested against Escherichia coli, Shigella flexneri, Staphylococcus, aureus, Staphylococcus epidermidis, Serratia marcescens. Vibrio cholera, and Salmonella enterica. Bacteria were grown in culture and diluted in culture media to a concentration of 10 ⁷ colony forming units (CFU) per plate. One mL of each bacterial suspension was placed in a 1 mL test tube and 0. 10 mL of the I ₂ -glycerin composition was added. Timepoints were taken at 15, 30, 60 and 120 seconds. Controls for each bacterium were conducted, and growth media was added instead of the I ₂ -glycerin; controls were diluted in growth media and then plated. At 15 seconds there was a 4 log reduction for all bacteria treated with the I ₂ -glycerin compared with the controls. At 120 seconds there was a 6 log reduction for all bacteria treated with the I ₂ -glycerin composition compared with the controls.

B. An embodiment of the high molecular iodine concentration composition effectively killed various bacteria.

[00259] An example of the high molecular iodine concentration compositions (1 ,500 ppm (wt/v) I ₂ -glycerin as prepared according to Example IB) was tested on E. coli (ATCC 10536) and S. aureus (ATCC 6538). The test temperature was 22 degrees centigrade and the contact time was 30 seconds. Neutralization was performed using a solution of sodium thioglycollate 2.0 g/L, sodium thiosulfate 12.0 g/L, sodium bisulfite 5.0 g/L, Polysorbate 80 10.0 g/L and lecithin 14.0 g/L. The initial bacterial concentration was 2.2 x 10 ⁶ CFU/mL for //. coll and 2. 1 x 10 ⁶ CFU/mL S. aureus. Complete kill, i.e., a 5 log reduction, was observed for both bacterial specieswithin 30 seconds.

C. Embodiments of the high molecular iodine concentration composition effectively killed various bacteria.

[00260] Example of the high molecular iodine concentration compositions (1,500 ppm (wt/v) I ₂ as prepared according to Example IB) were tested against Staphylococcus, aureus, Escherichia coli, Staphylococcus epidermidis, Pseudomonas aeruginosa, and Salmonella enterica. Bacteria were grown in culture and diluted in culture media to a concentration of 10E6 colony forming units (CFU) per mL. One mL or each bacterial suspension was placedin a 5 mL test tube and 0.50 mL of each 1,500 ppm (wt/v) molecular iodine composition was added and immediately mixed for 15 seconds on a vortex mixer (American Scientific, Cat. No. S8223-1). After2 minutes the iodine was neutralized by adding 1 mL of 0.2N sodium thiosulfate and then 0.10 mL of the resulting mixture was spread on blood agar plates, grown for 24 hours at 37 degrees centigrade and the number of colonies were counted. Controls were preparedby addinggrowth media instead of the iodine containing solutions; controls were diluted (1/100, 1/1000 and l/10,000 in growth media and then plated. None of the bacteria survived by the two-minute time point. The positive controls all demonstrated growth at each dilution.

EXAMPLE 6. >5.17 log reduction of SARS COV-2 within 30 seconds without cytotoxicity of Vero E6 cells observed using with an embodiment of the high molecular iodine concentration composition

[00261] A 1,500 ppm I ₂ -glycerin (wt/v) composition as prepared accordingto Example IB was used for this example to demonstrate the ability of an embodiment of the high molecular iodine concentration composition to inactivate SARS-Related Coronavirus 2 (SARS COV-2). The

SARS-Related Coronavirus 2 used in this example was BEI Resources NR-52281 , strain isolate

USA-W 1/2020. Stock virus was preparedby collectingthe supernatant culture fluid from 75- 100% infected culture cells. The cells were disrupted, and cell debris removed by centrifugation at approximately 2,000 RPM for five minutes at approximately 4 °C. The supernatant was removed, aliquoted, and the high titer stock virus was stored at <-70°C until the day of use. On the day of use, two aliquots of stock virus were removed, thawed, combined and maintained at a refrigerated temperature until used in the assay. The test virus was used undiluted in the test. The stock virus tested demonstrated cytopathic effects (CPE) typical of Coronavirus on Vero E6 cells.

[00262] Vero E6 cells were used as indicator cells for this test. Cultures or Vero E6 cells were obtained from the American Type Culture Collection, Manassas, VA (ATCC CRL-1586). The cells were seeded into multiwell cell culture plates and maintained at 36-38°C in a humidified atmosphere of 5-7% CO ₂ . On the day of testing, the cells were observed as having proper cell integrity and confluency, and therefore, were acceptableforuse in this study. The cell maintenance medium and the test medium used was Minimum Essential Medium (MEM) supplemented with 2% (v/v) heat-inactivated fetal bovine serum (FBS), 10 pg/mL gentamicin, 100 units/mL penicillin, 2.5 pg/mL amphotericin B, 2.0 mM L-glutamine, 0.1 mM NEAA and 1 mM sodium pyruvate. The interfering substance used was bovine serum albumin (BSA) that was prepared by dissolving 0.3003 g of bovine serum albuminfraction V in a 100.0 mL aliquot of sterile distilled water (3% wt/v) and sterilized by membrane filtration through a 0.2 micron filter. The final concentration of bovine serum albumin (BSA) in the test was 0.3 gBSA per liter. [00263] The test article was allowed to equilibrate at 20°C prior to starting the test. A 200 pl aliquot of interfering substance was added to a sterile snap cap tube, a 200 pL aliquot of the test virus suspension was added to the tube, carefully avoiding the upper part of the sides of the tube, and mixed using a vortex type mixer. A 1,600 pL aliquot of the test solution was added and a timer was immediately started. The solution was mixed using a vortex mixer and placed in a water bath at 20°C for 30 seconds. Just before the end of the exposure time, the solution was mixed using a vortex type mixer. At the end of the exposure time, a 500 pL aliquot of the test mixture was transferred to a tube containing 4.5 mL ice-cold MEM + 2% FBS. A dilution series with a factor of ten was prepared within 30 minutes in sterile tubes and then assayed for the presence of virus using cell culture monolayers. Sterile water was substituted for the iodine-glycerin material for provide a virus control experimental arm.

[00264] To check for possible morphological alterations of cells by the 1,500 ppm 12 -glycerin (wt/v) composition, a 200 pL aliquot of sterile distilled water and a 200 pL aliquot of a 10-fold dilution of interfering substance were mixed with a 1,600 pL aliquot of the product test solution. The ratio of test substance volume used was the same as used in the virucidal test. A 500 pL aliquot of the mixture was transferred to a tube containing 4.5 mL ice-cold MEM + 2% FBS test medium. A 100 pL aliquot of a 100-fold through a 10,000-fold dilution was inoculated into the indicator cell culture using six wells per dilution. Any microscopic changes in the cells were recorded.

[00265] Virus suspensions were titered by 10-fold serial dilution and inoculatedinto cell cultures using six wells per dilution. The cultures were incubated at 36-38°C in a humidified atmosphere or 5-7% CO ₂ (6.0% CO ₂ ) in sterile disposable cell culture labware. The cultures were scored periodically for seven days for the absence or presence of CPE, cytotoxicity, and for viability. [00266] The virus control was tested at 0 and 30 seconds and demonstrated a titer of 6.67 log at each timepoint. Cytotoxicity of the 1,500 ppm I ₂ -glycerin (wt/v) composition was not observed and therefore did not affect the ability of the test method to detect a 4 log reduction of virus. At 30 seconds virus treated with the 1,500 ppm I ₂ -glycerin (wt/v) composition could not be detected and therefore the test method demonstrated greater than a 5.17 log reduction of SARS-Related Coronavirus 2 within 30 seconds.

EXAMPLE 7. Cytotoxicity evaluation of an embodiment of the high molecular iodine concentration composition

[00267] The potential cytotoxicity of a I ₂ -glycerin composition with 1,500 ppm I ₂ (wt/v) was evaluated. The cytotoxicity testing was conducted per ISO 10993-5: Part 5. The test was conducted per paragraph 8.3 by directly depositing the I ₂ -glycerin composition as prepared according to Example IB into the cells (direct contact testing). The morphological properties of the cells were evaluated after 24 hours of contact with the test article and graded per the standard where a score of 2 or higher is considered cytotoxic. The test results are shown below. The test article was determined to meet ISO requirements as the score after 24 hours was 1 . These results were dramatically different from those repeatedly reported for 10% PVP-I. The toxicity from PVP-I has repeatedly been ascribed to the low concentration of I ₂ present in this material. The data shown here demonstrate that unexpectedly, a high concentration of I ₂ showed only slight toxicity with a reactive grade of 1.

Table 5. Reactivity Grade for Direct Contact Test Table adopted from ISO 10993-5 :2009, Biological evaluation of medical devices - Part 5 : Tests for in vitro cytotoxicity.

A reactivity grade greater than 2 is considered to have a cytotoxic effect.

EXAMPLE 8. Various embodiments of the high molecular iodine concentration compositions showed different levels of stain on a subject’s skin.

[00268] A series of high molecular iodine concentration compositions with various molecular iodine concentrations (L concentrations) were prepared by the same method described to evaluate their respective levels of staining. High molecular iodine concentration compositions having I ₂ concentrationsup to 5,000 ppm were prepared by dispersing I ₂ in anhydrous ethanol to provide an iodine preparation (1 .515 x 10 ⁵ PPM) which was then diluted in anhydrous glycerin to provide high moleculariodine concentrationcompositionswith l ₂ concentrations of 1,025 ppm, 1,655 ppm, 2,000 ppm, 2,200 ppm, 4,100 ppm, and 4,400 ppm. High molecular iodine concentration compositions with higher I ₂ concentrations were prepared by dissolving I ₂ into anhydrous glycerin directly to reach the desired I ₂ concentration. The concentrations of molecular iodine in the I ₂ - glycerin composition tested for staining were: 1,025 ppm, 1,655 ppm, 2,000 ppm, 2,200 ppm, 4,100 ppm, 4,400 ppm, 8,200 ppm, 8,400 ppm, 12,250 ppm, 13,900 ppm, 15,000 ppm, 16,500 ppm, 17,000 ppm, 33,000 ppm, 66,000 ppm, and 68,000 ppm.

A. Staining effects of high molecular iodine concentration compositions having concentration of 1,025 ppm, 2,000 ppm, 4,100ppm, 8,200 ppm, 16,500ppm, 33,000ppm, and 66,000 ppm [00269] A drop (0. 15 mL to 0.2 mL) of the high molecular iodine concentration compositions of each concentration was administered to the forearm of a volunteer, remained pooled at the site of administration for one minute, and then the residue was wiped off after 1 minute. [00270] Figure 10A shows the initial administration of the I ₂ -glycerin compositions onto the forearm of the subject. From the left to the right were I ₂ -glycerin compositions with molecular iodine concentration of 1,025 ppm; 2,000 ppm; 4,100 ppm; 8,200 ppm; 16,500 ppm; 33,000 ppm; and 66,000 ppm, respectively. It appeared that the static viscosity of the I ₂ -glycerin compositions was influenced by the concentration of molecular iodine.

[00271] Figure 10B shows 1 min. after the I ₂ -glycerin compositions with different molecular iodine concentrations were administered on the forearm before the residue was wiped off. No observable stain was left for the I ₂ -glycerin compositions with molecular iodine concentration of 1,025 ppm (Figure 10B, compared to the left-most spot shown in Figure 10 A). In contrast, there was unabsorbed I ₂ -glycerin at higher molecular iodine concentrations.

[00272] Figure 10C below shows the skin of the subject at 5 minutes after the initial administration of thel ₂ -glycerin compositions with different molecular iodine concentrations. No observable stain was left with the I ₂ -glycerin compositions with molecular iodine concentrations of 1,025 ppm, 2,000 ppm, or 4,100 ppm (Figure 10C, compared to the three spots at the far left shown in Figure 10 A).

[00273] Figure 10D below shows the skin of the subject at 15 minutes after the initial administration of thel ₂ -glycerin compositions with different molecular iodine concentrations. No discoloration was observed for the I ₂ -glycerin compositions with molecular iodine concentrations of 1,025 ppm, 2,000 ppm, 4,100ppm, 8,200 ppm, or 16,500 ppm (Figure 10D, compared to the five spots at the far left shown in Figure 10 A).

[00274] Figure 10E below shows a visible stain on the skin of the subject at 30 minutes after the initial administration of the I ₂ -glycerin composition with a molecular iodine concentration of

66,000 ppm (Figure 10E, the spot at the right), while the stains from the I ₂ -glycerin composition with a molecular iodine concentration of 8,200 ppm, 16,500 ppm, and 33,000 ppm continued to fade away compared to Figure 10D.

[00275] Unexpectedly, these results demonstrate that it is possible to apply the high molecular iodine concentration compositions with high concentrations of I ₂ to a subject’s skin with little or no visible staining.

B. Staining effects of high molecular iodine concentration compositions having concentration of 1, 655 ppm, 15, 000 ppm, and 68, 000 ppm

[00276] Two to three drops of the high molecular iodine concentration compositions of I ₂ at concentrations of 1 ,655 ppm, 15,000 ppm, and 68,000ppm were administeredto a subject’ s hands, respectively. Immediately after administration, the drops were spread over the entire surface of bothhandsby rubbingbothhandstogether. The staining results are summarized in Table 6 below.

Table 6. Staining results for high molecular iodine concentration compositions with concentration of I ₂ of 1,655 ppm, 15,000 ppm, and 68,000 ppm

C. Staining effects of high molecular iodine concentration compositions having concentration of 2,200 ppm, 4,400ppm, 8,400ppm, 12,250ppm, 13,900 ppm, and 17,000 ppm

[00277] Two to three drops of the high molecular iodine concentration compositions of I ₂ at concentrations of 2,200 ppm, 4,400 ppm, 8,400 ppm, 12,250 ppm, 13,900 ppm, and 17,000 ppm were administered to a subject’s hands, respectively. Immediately after administration, the drops were spread over the entire surface of both hands by rubbing both hands together. The staining results are summarized in Table 7, Figures 11A (before application) & 11B (0 sec after application), Figures 12A(beforeapplication)& 12B (0 sec after application), Figures 13 A(before application) & 13B (0 sec after application), Figures 14A (before application) & 14B (0 sec after application), Figures 15A (before application) & 15B-15E (0 sec, 30 sec, 1 min, and 2 min after application, respectively), and Figures 16A&16B (before application, as two sets of experiments were run) & 16C-16F (0 min, 1 min, 5 min, and 9 min after application, respectively). No stain was observed immediately after administration of the high molecular iodine concentration compositions ofb concentrations of2,200 ppm (Figure 1 IB), 4,400 ppm (Figure 12B), 8,400 ppm (Figure 13B), and 12,250 ppm (Figure 14B); and although stain was observed immediately after administration but the stain disappeared within 2 minutes and 10 minutes after administration of thehigh molecular iodine concentration composition of 13, 900ppm (Figures 15B-15E)and 17,000 ppm (Figures 16C-16F), respectively.

Table 7. Staining effects of high molecular iodine concentration compositions with concentration of I2 of 2,200 ppm, 4,400 ppm, 8,400 ppm, 12,250 ppm, 13,900 ppm, and 17,000 ppm

EXAMPLE 9. Treatment effects of an embodiment of the high molecular iodine concentration composition

A. Treating plaque psoriasis with an embodiment of the high molecular iodine concentration composition [00278] The finger of a sixty-five-year-old Asian male with a diagnosis of plaque psoriasis is shown in Figure 17 A. The condition was chronic andnone of the available drugtherapies available had any effect on symptoms which included swelling, stiffness, discoloration and plaques. Twice a day 0.2 mL of an embodiment of the high molecular iodine concentration composition (1,500 ppm (wt/v) -gly cerin as prepared accordingto Example 1 B) was applied to each hand and rubbed into the skin. After one week there was tangible improvements in symptoms as can be observed in Figure 17B: swelling was reduced, plaques were reduced and skin coloration improved.

B. Treating hives with an embodiment of the high molecular iodine concentration composition

[00279] In another instance a young male who suffered severe breakouts of hives that prevented sleep for up to a week was treated by spraying the 1,500 ppm (wt/v) E-gly cerin composition as prepared accordingto Example IB onto the hives. The l,500ppm l2-gjycerin compositionbrought rapid relief as the subject was able to sleep without any itching.

C. Treating poison sumac rash with an embodiment of the high molecular iodine concentration composition

[00280] In another instance an adult female contacted poison oak of her left hand. Application of the 1,500 ppm (wt/v) E-gly cerin composition as prepared according to Example IB eliminated itching within an hour and resolved the poison sumac rash within two days. These clinical observations indicate that high level of molecular iodine was effective to remediate symptoms associated with immune mediated conditions.

D. Treating bee sting with an embodiment of the high molecular iodine concentration composition [00281] A 26-y ear-old Caucasian female who is highly allergic to insect bites was stung by a bee on her left ankle. The subject used her EpiPen® to control for anaphylaxis. Within 24 hours the area surrounding the sting site as well as the entire left foot and ankle (up to mid-calf) was extensively swollen (Figure 18 A). Blistering from the inflammation and swelling was observed (Figure 18B). Ice was applied to the ankle without any symptom relief . Cortisone cream was applied liberally to alleviate the itchingbut the itching and swelling continued. Finally, the subject applied two drops (0.3 to 0.4 mL) of the 1,500 ppm (wt/v) B-glycerin composition as prepared according to Example IB to the bite and within 10 minutes the swelling went down and there was no itchiness. Figure 18C shows reduced swelling post application of the 1,500 ppm (wt/v) I ₂ - glycerin composition in the left ankle of the subject after about 30 minutes. Figure 18D shows a dramatic reduction in blistering at the bite area 30 minutes after the 1,500 ppm (wt/v) I ₂ -glycerin composition was appliedtothe area of the bee sting. The 1,500 ppm (wt/v)I ₂ -glycerin composition was applied to the bee sting ten times over the next 72 hours at which point in time the bee string was largely resolved (Figure 18E).

E. Treating plantar wart with an embodiment of the high molecular iodine concentration composition

[00282] A 52-year old male of European descent was treated for a painful plantar wart on the bottom of his large right toe. Prior to treatment the wart was painful to walk on and interfered with his quality of life. The treating physician prescribed cryotherapy 4 times over a course of 21 daysbetween each treatment. After the firstfreezing and removal of tissue the individual was pain free. Treatment of the wart was interrupted due to the CO VID-19 pandemic and the wart grew back. Pain from the wart eventually equaled the pain level that induced the patient to initially seek medical help. [00283] In an evening of the first day, one drop (0.15 mL to 0.2 mL) of the 1,500 ppm (wt/v) I ₂ - glycerin composition as prepared according to Example IB was applied to the wart. By the next morning, the individual had no pain associated with walking on the toe. Areas of the wart became darkly stained overnight. Thereafter, the wart was treated twice a day, with one drop (0.15 mL to 0.2 mL) of the 1,500 ppm (wt/v) I ₂ -glycerin composition each morning and evening. Each morning prior to treatment an Emory board was run over the wart two times to remove the top layer of dead skin prior to administering the 1,500 ppm (wt/v) I ₂ -glycerin composition. After two days there was a significant change in the appearance of the wart and the areas of staining were coming to the surface of the epidermis (Figure 19A). By the morningofthe sixth day, there was a substantial improvement in the wart (Figure 19B). The thickened skin, or collar surrounding the wart was about 50% gone and the reduction in pain was associated with the reduction in skin thickening Figure 19C shows the wart after treatment of 2 months and 1 week.

[00284] It is known that foot warts lie below the skin surface and are challenging to treat. Without wishing to be bound by any theory, these results could indicate that the molecular iodine in the 1,500 ppm (wt/v) I ₂ -glycerin composition was absorbed into skin and was effective in the epidermis and dermis. The inactivation of human papilloma virus (HPV) was likely associated with the dark areas of staining observed during treatment. These observations also indicate that high concentrations of molecular iodine had favorable toxicological properties as there was clear evidence of growth of new skin.

F. Treating tinea with an embodiment of the high molecular iodine concentration composition

[00285] A patient was treated for tinea with 1,500 ppm (wt/v) I ₂ -glycerin composition as prepared according to Example IB twice a day. The 1,500 ppm (wt/v) I ₂ -glycerin composition was administered to cover the skin area to be treated. The patient’ s condition beforetreatment is shown in Figure 20 A; which appeared to be completely resolved after treatment of two weeks (Figure 20B).

[00286] Before the treatment, the patient was treated with Dettol which was chloroxylenol 4.8%wt/v as the active ingredient dispersed in pine oil, isopropyl alcohol, castor oil, caustic soda solution, caramel, and/or water. He had an allergic reaction to Dettol.

G. Treating seborrheic dermatitis with an embodiment of the high molecular iodine concentration composition

[00287] A sixty-five-year-old Caucasian male was diagnosed by his dermatologist with seborrheic dermatitis. Seborrheic dermatitis is believed to be an inflammatory reaction to yeast that lives on the skin’s surface. The yeast is believed to overgrow which causes the immune system to react which leads to an inflammatory response that results in skin changes. The patient was instructed to wash affected areas twice daily with a 2% zinc pyrithione solution and apply a moisturizer. The patient followed this routine for over a month without any benefit. The patient then initiated a treatment regime using a 1,500 ppm (wt/v) I ₂ -glycerin composition as prepared according to Example IB twice a day. The 1,500 ppm (wt/v) I ₂ -glycerin composition was administered to cover the skin area to be treated. A picture of the symptoms associated with this dermatitis at the time of diagnosis (baseline) is shown in 21 A. The patient applied the 1,500 ppm (wt/v) I ₂ -glycerin composition to the affected areas on his face in the morning and in the evening for 14 days. Symptoms showed a significant improvement by day 7 (results not shown) and by day 14 the condition was almost completely resolved (Figure 2 IB).

II. Treating fungal nails with an embodiment of the high molecular iodine concentration composition

[00288] A subject’ s fungal nails are shown in Figure 22 A. Twice a day 0.2 mL of an embodiment of the high molecular iodine concentration composition (1,500 ppm (wt/v) I ₂ -glycerin as prepared according to Example IB) was applied to the toes and rubbed into the skin. After thirty days improvements were observed as shown in Figure 22B, while conventional antifungal treatment of fungal nails may take several months to see results. See, e.g., https://www.mayoclinic.org/diseases-conditions/nail-fungus/d iagnosis-treatment/drc-20353300.

[00289] Fungal nail infections (also referred to as “onychomycosis”) are common infections of the fingernails or toenails that can cause the nail to become discolored, thick, and more likely to crack and break. Infections are more common in toenails than fingernails. See, e.g., Fungal nail infections may be caused by various types of fungi (e.g., yeasts or molds). Fungal nail infections could be difficultto cure and typically won’t go away without antifungal treatment that can take several months to be effective. This example showed unexpected effectiveness of the embodiment of the high molecular iodine concentration composition for treatment of fungal nails.

Example 10. Embodiments of Quat-h Compositions

[00290] Quat-I ₂ compositions were preparedby mixing I ₂ -glycerin compositions^ , 100 PPM and 400 PPM) with one of four quaternary amines, respectively: octyl decyl dimethyl ammonium chloride, dioctyl dimethyl ammonium chloride, didecyl dimethyl ammonium chloride and Cl 2- C14-alkyl(ethylbenzyl)dimethylammonium chloride. The final concentration of the quaternary amine in the quat-I ₂ compositions was l%by weight. The quat-I ₂ compositions tested showed the presence of quaternary amines did not impact the stability of molecular iodine in the quat-I ₂ compositions.

[00291] The stability studies of quat-I ₂ compositions tested were conducted at room temperature and 37 °C, respectively, with the control being I ₂ -glycerin compositions of the corresponding ^ concentration. No loss of molecular iodine was observed from the quat-I ₂ composition tested after 60 days at both room temperature or 37 °C. For the controls, no loss of molecular iodine was observed in the 1 , 100 ppm I ₂ -glycerin composition after 60 days at room temperature or at 37 °C. No loss of molecular iodine was observed in the 400 ppm I ₂ -glycerin composition after 60 days at room temperature. However, a 7% drop in molecular iodine concentration was detected for the 400 ppm I ₂ -gly cerine composition at 37 °C.

Example 11. Embodiments of high molecular iodine concentration compositions in petroleum jelly and Aquaphor

[00292] Embodiments of high molecular iodine concentration composition compositions in petroleum jelly were prepared by dispersing in petroleum jelly (2.181 g) and Aquaphor Healing Ointment (2.816 g) obtained from (CVS), respectively, a high molecular iodine concentration composition in propylene glycol (I ₂ -PG with I ₂ concentration of 100k ppm (wt/v), 100 pL) to yield compositions that contained approximately 3,500 ppm I ₂ . The obtained compositions were allowed to sit at room temperature (25 °C) in a PTFE-capped scintillation vial (20 mL) and periodically checked for color. No change in the color or appearance of either compositions was observed over weeks. See Figure 23A right after preparation (left: composition in petrolatum; and right: composition in Aquaphor); and Figure 23B on day 5 after preparation.

Example 12. Additional examples.

[00293] Example 1 ’ : A non-aqueous high molecular iodine concentration solution comprising: molecular iodine having a concentration of about 1 ,500 ppm by wt/v, glycerin having a concentration of about 99%wt of the total weight of the solution, and ethanol having a concentration of about 1% or less of the total weight of the solution.

[00294] Example 1 A’ : A quat-I ₂ solution comprising a quaternary amine composition and the non-aqueous high molecular iodine concentration solution of Example 1 ’, wherein the quaternary amine composition comprises one or more quaternary amines having a structure of RI(R ₂ )(R ₃ )N ⁺ R ₄ or its pharmaceutically acceptable salts, R R ₂ , R3, and R4 being respectively and independently selected from the group consisting of alkyl, aryl, arylalkyl, alkylaryl, and alkylarylalkyl groups.

[00295] Example 2’: The solution of Example 1 ’ or Example 1A’, wherein the ethanol concentration is 0.1%.

[00296] Example 3’ : The solution of Example 1 ’ or Example 1A’, wherein the solution is complexed iodine free.

[00297] Example 4’ : The solution of Example 1 ’ or Example 1A’, wherein the solution is substantially complexed iodine-free.

[00298] Example 5’: The solution of Example 1 ’ or Example 1 A’, wherein the molecular iodine concentration is at least 99% of all iodine species in the solution.

[00299] Example 6’: The solution of Example 1 ’ or Example 1 A’, wherein the solution does not exhibit any molecular iodine loss at room temperature for at least three months.

[00300] Example 7’: The solution of Example 1 ’ or Example 1 A’, wherein the solution does not exhibit molecular iodine loss at room temperature for at least a year.

[00301] Example 8’: The solution of Example 1 ’ or Example 1 A’, wherein the solution does not exhibit molecular iodine loss at room temperature for 480 days. [00302] Example 9’: The solution of Example 1 ’ or Example 1 A’, wherein the solution is not cytotoxic.

[00303] Example 10’: The solution of Example 1 ’ or Example 1A’, wherein the solution is biostatic persistent.

[00304] Example 11 ’: The solution of Example 1 ’ or Example 1A’, wherein the solution is biocidal persistent.

[00305] Example 12’ : The solution of Example 1 ’ or Example 1 A’, wherein the solution is nonstaining.

[00306] Example 13’ : A high molecular iodine concentration composition comprising: molecular iodine having a concentration of about 1 ,400 ppm to about 170,000 ppm, about 1,400 ppm to about 160,000 ppm, about 1,400 ppm to about 150,000 ppm, about 1,400 ppm to about 100,000 ppm, about 1,400 ppm to about 68,000 ppm, about 1,400 ppm to about 66,000 ppm, about 1,400 ppm to about 60,000 ppm, about 1,400 ppm to about 55,000 ppm, about 1,400 ppm to about 50,000 ppm, about 1,400 ppm to about 45,000 ppm, about 1,400 ppm to about 40,000 ppm, about 1,400 ppm to about 35,000 ppm, about 1,400 ppm to about 30,000 ppm, about 1,400 ppm to about 25,000 ppm, about 1,400 ppm to about 20,000 ppm, about 1,400 ppm to about 15,200 ppm, about 1,400 ppm to about 15,000 ppm, about 1,400 ppm to about 10,000 ppm, about 1,400 ppm to about 8,703 ppm, about 1,400 ppm to about 8,000 ppm, about 1,400 ppm to about 5,000 ppm, about 1,400 ppm to about 4,077 ppm, about 1,400 ppm to about 2,000 ppm, about 1,400 ppm to about 1,700 ppm, about l,274 ppm to about 170,000 ppm, about 1,274 ppm to about 160,000 ppm, about 1,274 ppm to about 150,000 ppm, about 1,274 ppm to about 100,000 ppm, about 1,274 ppm to about 68,000 ppm, about 1,274 ppm to about 66,000 ppm, about 1,274 ppm to about 60,000 ppm, about 1,274 ppm to about 55,000 ppm, about 1,274 ppm to about 50,000 ppm, about 1,274 ppm to about 45,000 ppm, about 1,274 ppm to about

40,000 ppm, about 1,274 ppm to about 35,000 ppm, about 1,274 ppm to about 30,000 ppm, about 1,274 ppm to about 25,000 ppm, about 1,274 ppm to about 20,000 ppm, about 1,274 ppm to about 15,200 ppm, about 1,274 ppm to about 15,000 ppm, about 1,274 ppm to about 10,000 ppm, about 1,274 ppm to about 8,703 ppm, about 1,274 ppm to about 8,000 ppm, about 1,274 ppm to about 5,000 ppm, about 1,400 ppm to about 4,077 ppm, about 1,274 ppm to about 2,000 ppm, about 1,274 ppm to about l,700 ppm, about l,500 ppm, about 2,000 ppm, about 4,077 ppm, about 4, 100 ppm, about 8,200 ppm, about 8,703 ppm, about 15,200 ppm, about 16,500 ppm, or about 33,000 ppm by wt/v; and an organic carrier having a concentration of no less than about 93 ,5%wt, no less than about 95%wt, no less than about 98%wt, or no less than about 99%wt of the total weight of the high molecular iodine concentration composition.

[00307] Example 13 A’ : A quat-I ₂ composition comprising a quaternary amine composition and the high molecular iodine concentration solution of Example 13 ’, wherein the quaternary amine composition comprises one or more quaternary amines having a structure of RI(R ₂ )(R ₃ )N ⁺ R4 or its pharmaceutically acceptable salts, Ri, R ₂ , R3, andR4 beingrespectively and independently selected from the group consisting of alkyl, aryl, arylalkyl, alkylaryl, and alkylarylalkyl groups.

[00308] Example 14’ : A high molecular iodine concentration composition comprising: molecular iodine having a concentration of about 1 ,025 ppm to about 66,000 ppm; and an organic carrier having a concentration of about 95%wt or higher, about 98%wt or higher, or about 99%wt or higher; and the high molecular iodine concentration composition being non-staining, stain free or substantially stain free.

[00309] Example 14 A’ : A quat-E composition comprising a quaternary amine composition and the high molecular iodine concentration solution of Example 14’, wherein the quaternary amine composition comprises one or more quaternary amines having a structure of RI(R ₂ )(R3)N ⁺ R4 or its pharmaceutically acceptable salts, R R ₂ , R3, andR ₄ beingrespectively and independently selected from the group consisting of alkyl, aryl, arylalkyl, alkylaryl, and alkylarylalkyl groups.

[00310] Example 15’ : The high molecular iodine concentration composition of Example 13’ or 14’ or the quat-I ₂ composition of Example 13 A’ or 14A’, the organic carrier being selected from the group consisting of glycols with molecular weight of less than 300 (e.g., propylene glycol, dipropylene glycol, and glycerin), propylene glycol monomethyl ether acetate, dimethyl sulfoxide, alcohols (e.g., ethanol, propanols such as isopropanol and 1 -propanol), and any mixtures of the foregoing.

[00311] Example 16’ : The high molecular iodine concentration composition of any one of Examples 13 ’-15’ orthe quat-E composition of any one of Example 13A’, 14A’ and 15’, being complexed iodine-free of substantially complexed iodine-free.

[00312] Example 17’ : The high molecular iodine concentration composition of any one of Examples 13 ’-16’ orthe quat-E composition of any one of Example 13A’, 14A’ and 15 ’-16’, at least about 95%, at least about 96%, at least about 97%, at least about 98%, at least about 99%, or at least about 99.9% of all iodine species in the high molecular iodine concentration composition being molecular iodine. [00313] Example 18’ : The high molecular iodine concentration composition of any one of Examples 13 ’-17’ orthe quat-l2 composition of any oneofExample 13A’, 14A’ and 15 ’-17’, being stable.

[00314] Example 19’ : The high molecular iodine concentration composition of any one of Examples 13 ’-18’ or the quat-E composition of any one of Example 13 A’, 14 A’ and 15 ’-18’, the concentration change of the molecular iodine in the high molecular iodine concentration composition being less than about 5%, less than about 4%, less than about 3%, less than about 2%, less than about 1%, or less than about 0.5% after 3, 6, 12, 24, or 36 months at room temperature.

[00315] Example 20’ : The high molecular iodine concentration composition of any one of Examples 13 ’-19’ orthe quat-E composition of any oneofExample 13A’, 14A’ and 15 ’-19’, being alcohol-free or substantially alcohol free.

[00316] Example 21 ’ : The high molecular iodine concentration composition of any one of Examples 13 ’-20’ orthe quat-E composition of any one of Example 13A’, 14A’ and 15’-20’, the alcohol content being less than 5%wt, less than about 4%wt, less than about 3%wt, less than about 2%wt, less than about 1 ,9%wt, less than 1 ,8%wt, less than 1 ,7%wt, less than 1 ,6%wt, less than about 1.5%wt, less than 1.4%wt, less than 1.3%wt, less than 1.2%wt, or less than l . l%wt, less than about l%wt, less than about 0.9%wt, less than 0.8%wt, less than 0.7%wt, less than 0.6%wt, less than about 0.5%wt, less than 0 ,4%wt, less than 0.3 %wt, less than 0 ,2%wt, or less than 0.1 %wt. [00317] Example 22’ : The high molecular iodine concentration composition of any one of Examples 13 ’-21 ’ orthe quat-E composition of any oneofExample 13 A’, 14 A’ and 15 ’-21 ’, being non-aqueous, substantially non-aqueous, water-free or substantially water-free.

[00318] Example 23 ’ : The high molecular iodine concentration composition of any one of

Examples 13 ’-22’ orthe quat-E composition of any one of Example 13 A’, 14 A’ and 15 ’-22’, the water content being less than about 2%wt, less than about 1 ,9%wt, less than 1 ,8%wt, less than 1 ,7%wt, less than 1 ,6%wt, less than about 1 ,5%wt, less than 1 .4%wt, less than 1 ,3%wt, less than

1 ,2%wt, orless than 1 . l%wt, lessthan about l%wt, less than about0.9%wt, less than 0.8%wt, less than 0.7%wt, less than 0.6%wt, less than about 0.5%wt, less than 0.4%wt, less than 0.3%wt, less than 0.2%wt, or less than 0. l%wt.

[00319] Example 24’ : The high molecular iodine concentration composition of any one of Examples 13 ’-23 ’ orthe quat-E composition of any oneof Example 13 A’, 14A’ and 15 ’-23 ’, being biostatic resistance, biocidal resistance, or has prolonged biocidal activity.

[00320] Example 25’ : The high molecular iodine concentration composition of any one of Examples 13 ’-24’ or the quat-E composition of any one of Example 13 A’, 14 A’ and 15 ’-24’, further comprising one or more additives selected from the group consisting of gelling agents, polymers, viscosity enhancing agents, unsaturated fatty acids, desiccants, and fragrances.

[00321] Example 26’ : The high molecular iodine concentration composition of Example 25’ or the quat-E composition of any one of Example 13 A’, 14A’ and 15 ’-25’, the gelling agents being selected from the group consisting of synthetic hydrocolloids, e.g., homopolymers of acrylic acid such as those offered by Lubrizol Advanced Materials, Inc., Cleveland, OH, including Ultrez 10®, Ultrez 20®, Ultrez 30® and the Carbopols including Carbopol® 934, Carbopol® 940, Carbopol® 980, Carbopol® SC-200; methyl glucoside derivatives; alcohol esters such as monohydric alcohol esters, polyhydric alcohol esters; polyethylene glycols (PEG) such as PEG- diisostearate, propoxylated PEG monolaurate, poly glyeryl-3 -laurate, natural hydrocolloids like carrageenan, locust bean gum, guar gum, acacia, tragacanth, alginic acid, or gelatin, and semisynthetic hydrocolloids like carboxymethyl cellulose, methyl cellulose and hydroxypropyl methyl cellulose. [00322] Example 27’: A pharmaceutical formulation comprising the high molecular iodine concentration composition, the quat-I ₂ composition, or the solution of any one of the previous Examples.

[00323] Example 28’: A method of killing or inhibiting the growth of a parasite and/or a microorganism on or in a subject comprising administering a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition or pharmaceutical formulation, or the solution of any one of the previous Examples to the subject.

[00324] Example 29’ : A method of treating or preventing a condition associated with a parasite and/or a microorganism of a subject comprising administering a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution of any one of the previous Examples to the subject.

[00325] Example 30’: The method of Example 28’ or Example 29’, the microorganism being selected from the group consisting of virus, bacteria, fungus, and protozoa.

[00326] Example 31 ’: The method of Example 30’, the virus being selected from the group consisting of adenoviruses (e.g., human adenovirus), Norovirus, Reovirus, Rotavirus, Aphthovirus, Parechovirus, papovaviruses (e.g, Polyoma virus and SV40),Erbovirus, Kobuvirus, Teschovirus, Reoviruses (e.g., rotavirus and human reovirus), Hepatovirus, Hepatitis E virus, Rubella virus, Lymphocytic choriomeningitis virus, retroviruses (e.g., HIV-1, HIV-2, rous sarcoma virus (rSV), and mouse leukemia viruses), HTLV-I, herpesviruses (e.g., Human herpes Simplex Virus 1 and 2,), Cardiovirus (e.g., Norwalk virus), Orthomyxovirus (e.g., Influenza Vims

A, B and C), Isavirus, Thogotovirus, Coxsackie Virus, virus and semliki forest virus and the flaviviruses (group b) (e.g., Dengue virus, yellow fever virus and the St. Louis encephalitis virus), Yellow fever virus, Hepatitis A virus, Hepatitis B virus, Hepatitis C virus, Measles virus, Mumps virus, Respiratory syncytial virus, Bunyaviruses, (e.g., bunyawere (encephalitis), California encephalitis virus), Hantavirus, filoviruses, (e.g., Ebola virus, Marburg virus), Corona virus, Astroviruses, Borna disease virus, Poxviruses, (Vaccinia virus and variola (Smallpox)), Parvoviruses (e.g., Adeno associated virus (aav)), Picornaviruses(e.g., Poliovirus), Togavi ruses (e.g., including the alpha viruses (group a), e.g., Sindbis), Rhabdovi viruses, (e.g., vesicular stomatitis virus (VSV) and rabies virus), Arena viruses (e.g., lassa virus), Coronaviruses (e.g, common cold (rhinovirus), GI distress viruses, SARS-Cov-2, SARS), Ebola, Human Papilloma virus (HPV), Herpes Simplex virus 1 or 2, Human Immunodeficiency Virus (HIV), Hepatitis A virus (HAV), Hepatitis B virus (HBV), Hepatitis C virus (HCV), and prions.

[00327] Example 32’ : The method of Example 31 , the condition associated with the virus being selected from the group consisting of CO VID-19, SARS, Ebola, HPV infection (e.g., plantar warts), herpes, AIDS, hepatitis A, hepatitis B, and Hepatitis C.

[00328] Example 33’: The method ofExample30’, thebacterium being selectedfrom the group consisting of Bacillus oleronius, Streptococcus pyogenes, Erysipelothrix rhusiopathiae, Mycobacterium tuberculosis, Mycobacterium bovis, Escherichia coli, Extended Spectrum Beta Lactamase resistant E. Coli (ESBL), Shigella flexneri, Staphylococcus aureus, Staphylococcus epidermidis, Serratia marcescens, Vibrio cholera, MRSA, Salmonella enterica, Gonorrhea, Syphilis, Shewanella algae, Shewanella putrefaciens, Chlamydia, Chlamydia trachomatis, Chlamydia pneumoniae, Chlamydia psittacci, Aeromonas hy drophila, Vibrio species, Pasteurella multocida, antibiotic resistant bacteria, and antibiotic resistant flesh eating bacteria. [00329] Example 34’ : The method of Example 33, the condition associated with the bacterium being selected from the group consisting of tuberculosis, periodontitis, acne (e.g., Propionibacterium acnes), rosacea, impetigo, cellulitis, folliculitis, and infections caused by the bacterium.

[00330] Example 35’ : The method of Example 30’, the fungus being selected from the group consisting of Aspergillus, Coccidioides, Histoplasma capsulatum, Trichophyton, Microsporum, Epidermophyton, yeast, Candida, and Candida albicans.

[00331] Example 36’: The method of Example 35’, the condition associated with the fungus being selected from the group consisting of ringworm, yeast infection, and seborrheic dermatitis. [00332] Example 37’ : The method of Example 30’, the protozoabeing selected from the group consisting of Acanthamoeba, Leishmania parasites, trypanosoma, Entamoeba histolytica, and Toxoplasma gondii.

[00333] Example 38’ : The method of Example 37’, the condition associated with the protozoa being selected from the group consisting of Acanthamoeba infections, Acanthamoeba keratitis, Leishmaniasis, trypanosomiases, Amebiasis, and Toxoplasmosis.

[00334] Example 39’ : The method of Example 30’, the parasite being selected from the group consisting of Scabies mite (Sarcoptes scabiei), Red mite (Dermanyssus gallinae), Cercarial Dermatitis (Swimmer's Itch), Tropical rat mite (Ornithonyssus bacoti), Spiny rat mite (Laelaps echidnina), Demodex species (e.g., Demodex mite), Loa, and Cryptosporidiosis.

[00335] Example 40’ : The method of Example 39’, the condition associated with the parasite being selected form the group consisting of mite dermatitis caused by the mites listed above, e.g, scabies, Red mite infestation, Cercarial Dermatitis, Tropical rat mite dermatitis, Spiny rat mite dermatitis, demodex folliculorum dermatitis, Loiasis, and Cryptosporidium infection. [00336] Example 41 ’: A method of killing microbes comprising administering a high concentration moleculariodine solution of about 1,500 ppm by wt/v molecular iodine, and glycerin having a concentration of about 99% wt of the total weight of the solution to a treatment area on a human subject.

[00337] Example 42’ : The method of any one of Examples 28 ’-41’, wherein the treatment area is on or under the skin.

[00338] Example43 ’ : Themethod of any one ofExamples28’-42’, wherein the moleculariodine is absorbed by the epidermis.

[00339] Example44’ : Themethod of any one ofExamples28’-42’, wherein the moleculariodine is absorbed by the subcutaneous tissue.

[00340] Example45’ : Themethod of any one ofExamples28’-42’, wherein the moleculariodine is absorbed by the dermal tissue.

[00341] Example 46’: The method of any one of Examples 28’-42’, where in the molecular iodine outgasses from the skin.

[00342] Example 47’: The method of any one of Examples 28’-42’ wherein the microbes or microorganism are bacteria, virus or yeast.

[00343] Example 48’ : The method of Example 47’, where in the bacteria is selected from the group consisting of Escherichia coli, Shigella flexneri, Staphylococcus, aureus, Staphylococcus epidermidis, Serratia marcescens, Vibrio cholera, Pseudomonas aeruginosa and Salmonella enterica.

[00344] Example 49’ : The method of anyone of Examples 33 ’, 34’, and 48’, wherein the outgassing of molecular iodine completely kills bacteria for 30 minutes after administration. [00345] Example 50’ : The method of anyone of Examples 33 ’, 34’, and 48’, wherein the outgassing of molecular iodine completely kills bacteria for 60 minutes, 90 minutes, 120 minutes, or 150 minutes after administration.

[00346] Example 51 ’ : A method of treating or preventing a skin condition of a subject comprising administering a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation, the quat-E composition, or the solution of any one of the previous Examples to the subject, the skin condition being selected from the group consisting of :

1) skin conditions associated with a biological reaction of a subject to an exogenously introduced irritant;

2) skin conditions associated with an autoimmune disease; and

3) acne and rosacea.

[00347] Example 52’ : The method of Example 51 ’, the exogenously introduced irritant being introduced to the subject by an animal (e.g., insect stings and bites, and jellyfish stings) or a plant (e.g., poison oak, poison sumac, or poison ivy).

[00348] Example 53’ : The method of Example 52’, the insects being selected from the group consisting of bee, wasp, hornet, scorpion, ant, spider, and mosquito; andthe j ellyfish being selected from the group consisting of Physalia sp. (Portuguese Man-o-War, Blue-bottle), Cubozoan jellyfish (e.g., Chironex fleckeri), Carybdeids (e.g., Carybdea arborifera and Alatina moseri), Linuche unguiculta (Thimble jellyfish), a jellyfish responsible for Irukandji syndrome (Carukia barnesi) and Pelagia noctiluca.

[00349] Example 54’ : The method of Example 53 ’, the exogenously introduced irritant being selected from the group consisting of apitoxin (bee venom), histamine, tyramine, serotonin, catecholamines, hydrolases (wasp venoms), anticoagulant (mosquito saliva), proteinaceous porins, neurotoxic peptides, and bioactive lipids.

[00350] Example 55’ : The method of Example 51’, the autoimmune disease being selected from the group consisting of diabetes, scleroderma, psoriasis, dermatomyositis, epidermolysis bullosa, and bullous pemphigoid.

[00351] Example 56’ : The method of Example 55’, the condition being diabetes, and the skin condition being selected from the group consisting of acanthosis nigricans, bullosis diabeticorum (diabetic blisters), digital sclerosis, disseminated granuloma annulare, eruptive xanthomatosis, and necrobiosis lipoidica diabeticorum.

[00352] Example 57’: The method of any one of Examples 51 ’ to 56’, the condition being associated with an immune response.

[00353] Example 58’: The method of any one of Examples 51 ’ to 57’, the condition being associated with an inflammatory response.

[00354] Example 59’ : A method of fostering wound-healing or preventing a wound of a subject comprising administering a therapeutically effective amount or prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation, the quat- E composition, or the solution of any one of Examples 1-27 to the subject.

[00355] Example 60’ : The method of Example 59’, the wound healed in presence of the high molecular iodine concentration composition or pharmaceutical formulation being healed with a scar less severe and/or in a shorter period of time than a similar wound healed without administration of the high molecular iodine concentration composition or pharmaceutical formulation. [00356] Example 61 ’ : The method of Example 59’ or 60’, the wound being inflicted by a cut, a friction, cold, heat, radiation (e.g., sunburn), a chemical, electricity, a microorganism and/or parasite infection, pressure, and/or a condition of the subject (e.g., diabetes).

[00357] Example 62’ : The method of Example 61 ’, the condition of the subject being diabetes, and the wound being selected from the group consisting of bullosis diabeticorum (diabetic blisters), eruptive xanthomatosis, and neuropathic ulcers (e.g., diabetic foot ulcers).

[00358] Example 63’ : The method of Example 59’, the wound being inflicted by pressure, and the wound being a decubitus ulcer (i.e., pressure ulcer, pressure sore, or bedsore).

[00359] Example 64’ : The method of any one of Examples 59’ to 63’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being applied before the wound being inflicted.

[00360] Example 65’ : The method of any one of Examples 28’ to 42’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being applied to a tissue where the condition being at or in proximity.

[00361] Example 66’ : The method of Example 65’, the tissue being a mucosal tissue or a cutaneous tissue.

[00362] Example 67’ : The method of Example 66’, the mucosal tissue beingin or surrounds a biological cavity selected from the group consisting of eye cavity, ear cavity, oral cavity, nasal cavity, vaginal cavity, rectal cavity, and urethral cavity.

[00363] Example 68’ : A method of treating a surgical site to foster healing, prevent infection, and/or inhibit tumor recurrence in a subject in need comprising administering to the subject a therapeutically effective amount or a prophylactically effective amount of the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution of any one of Examples 1-27 to the subject.

[00364] Example 69’: The method of Example 68’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being applied to a surgical site or tissue in proximity of the surgical site.

[00365] Example 70’ : The method of Example of 69’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being applied to a surgical site as a surgical lavage (pre-surgical, post-surgical, or during surgery).

[00366] Example 71 ’ : The method of Example 70’, the surgical lavage being applied as a liquid stream or as a spray.

[00367] Example 72’: The method of Example 68’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being applied to a surgical site comprising a chest cavity.

[00368] Example 73’ : The method ofExample 68’, the surgical site comprises a tumor.

[00369] Example 74’: The method of Example 73’, the tumor comprises a benign tumor, a premalignant tumor, or a malignant tumor.

[00370] Example 75’ : The method of Example 74’, the benign tumor being selected from the group consisting of adenomas, fibromas, hemangiomas, and lipomas.

[00371] Example 76’ : The method of Example 74’, the premalignant tumor being selected from the group consisting of actinic keratosis, cervical dysplasia, metaplasia of the lung, and leukoplakia.

[00372] Example 77’ : The method ofExample 74’, the malignant tumor being selected from the group consisting of carcinomas, sarcomas, germ cell tumors, blastomas, adenocarcinoma, melanoma, basal cell carcinoma, squamous cell carcinoma, NUT carcinoma, ductal carcinoma in situ (DCIS), invasive ductal carcinoma, malignant rhabdoid tumor, Wilms tumor, renal cell carcinoma, chondrosarcoma, Ewing sarcoma, osteosarcoma, Desmoid tumor, hepatoblastoma, hepatocellular carcinoma, alveolar soft-part sarcoma, angiosarcoma, fibrosarcoma, liposarcoma, neurofibrosarcoma, rhabdomyosarcoma, synovial sarcoma, adrenal tumor, carcinoid tumor, camey triad, multiple endocrine neoplasia (MEN), neuroendocrine tumors, paragangliomas, pheochromocytomas, thyroid carcinoma, pancreatic tumor, nasopharyngeal carcinoma, ovarian tumor, testicular tumor, thoracic tumor, and retinoblastoma.

[00373] Example 78’: The method of Example 74’, the malignant tumor being caused by a cancer.

[00374] Example 79’ : The method of Example 78’, the cancer being selected from the group consisting of breast cancer, cervical cancer, colon cancer, rectal cancer, colorectal cancer, endometrial cancer, kidney cancer, lip cancer, oral cancer, ovarian cancer, testicular cancer, melanoma, non-melanoma skin cancer, mesothelioma, non-small cell lung cancer, small cell lung cancer, pancreatic cancer, prostate cancer, bone cancer, liver cancer, and thyroid cancer.

[00375] Example 80’: The method of Example 78’, the high molecular iodine concentration composition or pharmaceutical formulation being administered by intrapleural irrigation to the subject, and the subjectbeing suffering from epithelial or biphasic mesothelioma.

[00376] Example 81 ’: The method of Example 78’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being administered by esophageal lavage or esophageal washout to a subject undergoing esophageal resection. [00377] Example 82’: The method of Example 70’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being administered by pleural lavage to a subject undergoing complete resection or pleural reductive surgery for thymoma.

[00378] Example 83 ’: The method of Example 68’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being administered post-surgery as a post-operative rinse to a subject following primary functional endoscopic sinus surgery.

[00379] Example 84’: The method of Example 68’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being administered to a surgical site by lavage to prevent surgical site infection (SSI) following a surgery. [00380] Example 85’ : The method ofExample 84’, the surgery being a spinal surgery.

[00381] Example 86’ : The method of any one of Examples 68’, 74’, 75’, 78’, and 79’, the high molecular iodine concentration composition or pharmaceutical formulation, the quat-I ₂ composition, or the solution being administered during a surgery as a whole colon washout to prevent anastomotic recurrence after colonic resection for colorectal cancer.

[00382] Example 87’ : A method of making a high molecular iodine concentration solution comprising: dissolving molecular iodine into an absolute ethanol to form an iodine-ethanol mixture, combiningthe molecular iodine-ethanol mixture with a glycerin to form an iodine-ethanol-gly cerin mixture having a final concentration of 1,500 ppm of molecular iodine, and mixing the iodine-ethanol-gly cerin mixture until the mixture becomes a homogenous solution.

[00383] Example 87A’ : A method of making a quat-I ₂ solution comprising: dissolving molecular iodine and the one or more quaternary amines into an absolute ethanol to form an iodine-ethanol mixture, combiningthe molecular iodine-ethanol mixture with a glycerin to form an iodine-ethanol-gly cerin mixture having a final concentration of 1 , 500 ppm of molecular iodine, and mixing the iodine-ethanol-gly cerin mixture until the mixture becomes a homogenous solution.

[00384] Example 88’: The method of Example 87’ or 87 A’, wherein the iodine-ethanol or quat- iodine-ethanol mixture has a concentration of about 0.19 gm/ml.

[00385] Example 89’: The method of Example 87’ or 87 A’, wherein the iodine-ethanol or quat- iodine-ethanol mixture is added dropwise into the glycerin.

[00386] Example 90’: The method of Example 89’, wherein the molecular iodine is added dropwise over a period of about twenty minutes.

[00387] Example 91’: The method of Example 87’ or 87A’, wherein the iodine-ethanol-gly cerin or quat-iodine-ethanol-gly cerin mixture is mixed for about forty-five minutes.

[00388] Example 92’: The method of Example 87’ or 87A’, wherein the high molecular iodine concentration solution or quat-I ₂ solution does not exhibit molecular iodine loss at room temperature for at least three months.

[00389] Example 93’: The method of Example 87’ or 87 A’, wherein the high molecular iodine concentration solution or quat-I ₂ solution does not exhibit molecular iodine loss at room temperature for at least a year

[00390] Example 94’: The method of Example 87’ or 87A’, wherein the high molecular iodine concentration solution or quat-I ₂ solution does not exhibit molecular iodine loss at room temperature for 480 days. [00391] Example 95’ : A method of making a high molecular iodine concentration solution comprising: dissolving molecular iodine into a propylene glycol to from an iodine concentrate having a molecular iodine concentration of about 100,000 ppm (wt/v), diluting the molecular iodine-propylene glycol mixture with an organic carrier selected from the group consisting pure glycerin, pure propylene glycol, propylene glycol with 10% citric acid, propylene glycol with 5% citric acid, and propylene glycol with 1% citric acid to form high molecular iodine concentration solution having a final concentration of 1,500 ppm of molecular iodine.

[00392] Example 95 A’ : A method of making a quat-I ₂ solution comprising: dissolving molecular iodine and one or more quaternary amines into a propylene glycol to from an iodine concentrate having a molecular iodine concentration of about 100,000 ppm (wt/v), diluting the quat-molecular iodine-propylene glycol mixture with an organic carrier selected from the group consisting pure glycerin, pure propylene glycol, propylene glycol with 10% citric acid, propylene glycol with 5% citric acid, and propylene glycol with 1% citric acid to form the quat-E solution having a final concentration of 1,500 ppm of molecular iodine.

[00393] Example 96’ : The method of Example 95’ or 95 A’, wherein the organic carrier is pure glycerin.