The present invention relates generally to the field of tannate chemistry and more specifically to methods for preparing tannate pharmaceutical solid dosage forms.

2. Description of The Prior Art.

The use of tannate salts for pharmaceutical use is well-known for sustained release applications and patient compliance. U. S. Patent 6,287, 597 describes tannate products containing pyrilamine tannate and phenylephrine tannate. There, the suspension is prepared in a conventional manner in that pyrilamine tannate and phenylephrine tannate salts are obtained as the active pharmaceutical ingredients (APIs) and are prepared as a suspension formulation by the addition of suitable pharmaceutical excipients. One teaspoon contains 30 mg pyrilamine tannate and 5 mg phenylephrine tannate with benzoic acid, coloring agent, natural and artificial flavors, glycerin, kaolin, magnesium aluminum silicate, methyl paraben, pectin, purified water, saccharin, sodium hydroxide and sucrose

or sorbitol. The January 1990 issue of Annals of Allergy, Volume 64, describes combinations of chlorpheniramine tannate, pyrilamine tannate and phenylephrine tannate. An article in Clinical Medicine, dated September 1965, pages 1475-1478 describes tablets of pyrilamine tannate, chlorpheniramine tannate and amphetamine tannate. Phenylephrine tannate compositions are disclosed in U. S. Patent 5,599, 846 and phenylephrine tannate and chlorpheniramine tannate compositions are disclosed in U. S.

Patent 6,037, 358. None of these references describe the problems with tannate pharmaceutical products caused by the large size of the tannate molecule. Because of its size, the percentage of active free-base within the tannate salt is significantly lower than that in other salt forms such as the hydrochloride or maleate. The presence of low active percentages and the variable purity of the commercially available tannate salts leads to the stoichiometry of the active free-base to tannic acid in the tannate salts to be different from batch to batch. This problem was noted in U. S. Patents 5,599, 846 and 5,663, 415. This causes significant processing problems during manufacture and increases the likelihood that commercially available pharmaceutical products contain variable and in some instances, sub-therapeutic levels of the active drug substances creating dosing problems. Therefore, it would be desirable if solid dosage form pharmaceutical compositions containing tannate salts of active ingredients could be prepared with reduced variability in active drug content and increased certainty that the active drug is delivered within the therapeutic range. Such a solid dosage form is needed to improve patient compliance with dosage requirements.

SUMMARY OF THE INVENTION The present invention provides a novel manufacturing process for the conversion of one or more active pharmaceutical ingredients ("API") into their tannate salt complexes while incorporating the complexes into a therapeutic solid-dosage form which also may include non-tannate APIs.

The process provides the addition of the active pharmaceutical ingredients to tannic acid in the presence of a pharmaceutically acceptable liquid which generates tannate salt complexes. Without further treatment, the tannate salt complex of one or more APIs may be combined with pharmaceutically acceptable excipients such as diluents, binders, lubricants, glidants, coloring, sweetening and flavoring agent and processed into suitable solid-dosage forms. The tannate salt complexes of the active ingredient are significantly larger and may afford absorption of the active over prolonged intervals of time. In addition, tannate salts have been found to have better organoleptic properties in comparison to other salts or freebase forms.

By forming the tannate salt complex of one or more active pharmaceutical ingredients, the invention also provides an efficient and reproducible method to manufacture solid-dosage forms that solves the problems referenced above in the prior art. The invention also may afford a prolonged release of active pharmaceutical ingredients over longer intervals of time, thereby reducing the frequency of drug administration and improving patient compliance.

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a novel manufacturing process for the conversion of one or more active pharmaceutical ingredients (API) into

their tannate salt complexes while incorporating the complexes into solid dosage forms, which also may include non-tannate APIs. The first step of this process is to create a tannic acid powder blend by combining an API with tannic acid in the presence of a pharmaceutically acceptable liquid. An anti-clumping agent also may be added to the mix. The presence of the anti-clumping agent prevents the aggregation of the tannate salt complex formed and promotes uniformity in the powder blend. The conversion process requires the presence of basic functional groups such as amines and sulfoxides in the molecular structure of the API. The source of the tannic acid is natural or synthetic. The formation of the tannate salt is by reaction of amine groups (in the 1 °, 2°, 3 °, 4°, or amphoteric functional states) or of the other basic functional groups with tannic acid. The amount and ratio of dispersing agent and tannic acid required for the completion of the reaction is determined by the molecular configuration and concentration of the API.

One or more API tannate salt complex obtained from the above conversion process is mixed with a diluent, binder (s), lubricants, sweetening, hardness increasing, coloring, flavoring and flow agents as necessary. The resulting granulate is processed into tablet, capsule or other solid-dosage forms as necessary.

By starting with a known amount of commonly available salt or the free base form of the API, which is subsequently converted and incorporated as a tannate salt complex into a solid dosage form, the invention provides an efficient and reproducible method to manufacture products containing tannate salt complexes as active ingredients. Since the tannate salt complex of the API is generated and incorporated into the dosage form during the manufacturing process, the need to isolate the

tannate salt is eliminated and the stoichiometry of the tannate salt is uniform from batch to batch.

The following is a non-exclusive list of active pharmaceutical ingredients that may be used in this process: (1) carbinoxamine (2) chlorpheniramine (3) pyrilamine (4) pheniramine (5) phenindamine (6) diphenhydramine (7) bromodiphenhydramine (8) triplennamine (9) brompheniramine (10) loratadine (11) desloratidine (12) fexofenadine (13) carbetapentane (14) dextromethorphan (15) phenylephrine (16) pseudoephedrine (17) ephedrine (18) oxycodone (19) morphine (20) physostigmine (21) cimetidine (22) amantidine

(23) fluvoxamine (24) sertraline (25) chlorpromazine (26) imipramine (27) amitryptyline (28) prochlorperazine (29) cetirizine (30) hydroxyzine (31) promethazine (32) acrivastine (33) triprolidine (34) meclizine (35) dimenhydrinate (36) dexchlorpheniramine (37) doxylamine (38) diphenylpyrilamine (39) trimeprazine (40) chlorcylizine (41) triphennamine (42) codeine (43) cyproheptadine (44) phenyltoloxamine (45) clemastine (46) famotidine (47) hydrocodone (48) methscopolamine (49) ncostigmine

(50) gabapentin (51) lithium compounds (52) dopamine (53) bromocriptine (54) carbamazepine (55) desipramine (56) nortriptyline (57) quinidine (58) procainamide (59) ranitidine (60) quinine The excipients commonly used in the formulations are as follows: Microcrystalline cellulose (Avicel), lactose, Mannitol and Di-Pac (compressible sugar) as diluents; magnesium aluminum silicate, xanthan gum, polyvinylpyrrolidone and cellulose compounds as anti-clumping agents; starch hydroxypropyl methylcellulose (HPMC E-10) and xanthan gum as binders; sweetening agents such as sucrose, saccharin sodium, Sucralose and Magnasweet; calcium phosphate as hardness enhancer; talc as a glidant and magnesium stearate as a lubricant. Active ingredients not present as tannate salt complexes also can be included in the formulation.

The salts of the active ingredients are preferably dissolved in purified water. However, other pharmaceutically acceptable liquids can be substituted for water such as isopropyl alcohol, ethanol, glycerin, propylene glycol, mineral oil or mixtures thereof. This leads to the dissociation of the salt into its free-base and conjugate acid forms.

The following EXAMPLES illustrate the conversion process and subsequent incorporation of the tannate salt complexes into suitable solid dosage forms.

EXAMPLE 1 Preparation Of A Dosage Form With One API: Ingredient Amount (g) diphenhydramine HC1 12.500 tannic acid 32. 813 purified water 12.5 MI The ingredients used in the conversion process to generate 25 g of diphenhydramine as the tannate salt complex are shown above.

Diphenhydramine hydrochloride and tannic acid are placed in a suitable planetary mixer or blender and the powders are mixed for a period of ten minutes to obtain a uniform powder blend of the ingredients. Once the powders are mixed and a uniform blend obtained, the water is sprayed onto the mixing powders and mixing is continued for ten to fifteen minutes to generate the tannate salt complex of diphenhydramine. The synthetic process yields diphenhydramine tannate salt complex as a uniformly distributed powder mass. The weight ratio of diphenhydramine to tannic acid used is 1: 3.

The powder mass of the tannate salt complex obtained from the conversion step is used as is for incorporation into capsules or subsequently can be dried and blended with more diluent, hardness increasing and

coloring agents as necessary to form a tablet. A typical tablet prepared by well known conventional manufacturing techniques is shown below.

Ingredient mg/tablet diphenhydramine tannate* 25.000 magnesium aluminum silicate, NF 6.750 Avicel PH 102 157.181 Sodium Saccharin 4.500 Methocel E-IOM'6. 750 corn starch 4.500 Di-Pac 244.175 calcium phosphate dibasic 13.500 xanthan gum 7.875 strawberry flavor 4.500 talc 2. 250 FD&C Blue No. 2 0.450 magnesium stearate 2.250 * equivalent to 12.5 mg diphenhydramine HC1 EXAMPLE 2 Preparation Of A Tablet Dosage Form With Two APIs : The conversion process used to synthesize the tannate salt complexes of two APIs can be performed using the following procedure.

For each active, carbetapentane citrate and pseudoephedrine hydrochloride, about 50 ml of purified water is placed in a suitable vessel and the active is added to the water and dissolved. Avicel, tannic acid and magnesium

aluminum silicate are placed in a suitable planetary mixer or blender and the powders are mixed for a period of ten minutes to obtain a uniform powder blend of the ingredients. Once the powders are mixed and a uniform blend is obtained, a solution of the actives are added on to the mixing powders and mixing is continued for ten to fifteen minutes to generate the tannate salt complex of carbetapentane and pseudoephedrine.

Each API solution also can be added to individual powder blends and the two powder blends can be subsequently mixed. The powder mass containing tannate salt complexes of the API is directly wet granulated by the addition of an aqueous solution of binder. The granulation is subsequently dried and dry blended with more diluent, such as Di-Pac, sweetening, hardness increasing and coloring agents as necessary to form a chewable tablet. A typical tablet composition is shown below.

Ingredient mg/tablet carbetapentane tannate* 25.00 pseudoephedrine tannate** 75.000 magnesium aluminum silicate, NF 24. 750 Avicel PH 102 111.810 Sucralose 7.500 citric acid 1.500 Sodium Saccharin 9.000 Methocel E-1OM 6.00 Di-Pac 258.000 Magnasweet-MM100 21.00 calcium phosphate dibasic 18.000 xanthan gum 13.500 talc 2.100

magnesium stearate 2.100 artificial cherry flavor 12.000 * equivalent to 20 mg carbetapentane citrate ** equivalent to 75 mg of pseudoephedrine HCL The ratio of carbetapentane to tannic acid in the tannate salt complex is 1: 1 and pseudoephedrine to tannic acid is 1: 2, by weight.

EXAMPLE 3 Preparation Of A Tablet Dosage Form With Three Or More APIs : The conversion process used to synthesize the tannate salt complex of carbetapentane, phenylephrine and chlorpheniramine are performed with aqueous solutions of carbetapentane citrate, chlorpheniramine maleate and pseudoephedrine hydrochloride, using the procedure as set forth in EXAMPLE 2. Each API solution can be added to the same powder blend or to individual powder blends and can be subsequently mixed. The powder mass containing the tannate salt complexes is directly wet granulated by the addition of a solution of corn starch. The granulation is subsequently dried to remove the water and dry blended with more diluent, hardness increasing and coloring agents as shown to make the tablets. A typical tablet composition is shown below.

Ingredi mg/table carbetapentane tannate* 60.000 chlorpheniramine tannate** 4.000 phenylephrine tannate*** 10.000 magnesium aluminum silicate, NF 30.000 Avicel PH 102 459.642

Methocel E-1OM 5.000 corn starch 3.000 calcium phosphate dibasic 10.133 xanthan gum 7.875 talc 2.250 FD&C Red #40 0.850 magnesium stearate 2.250 * equivalent to 30 mg carbetapentane citrate ** equivalent to 2.5 mg chlorpheniramine maleate *** equivalent to 5 mg phenylephrine hydrochloride The ratios of carbetapentane, chlorpheniramine and phenylephrine to tannic acid, in the tannate salt complexes, is 1: 3, by weight.

EXAMPLE 4 Preparation Of A Tablet Dosage Containing Tannate And Non- Tannate APIs : The conversion process used to synthesize the tannate salt complex of pyrilamine is performed with an aqueous solution of pyrilamine maleate using the procedure as outlined in EXAMPLE 2. The tannate salt complex obtained is then directly wet granulated by the addition of suitable polymers and by spraying an aqueous solution of a binder. The granulation can subsequently be dried and mixed with dextromethorphan HBr, more diluent, hardness increasing and coloring agents as necessary.

Dextromethorphan HBr can also be mixed with the tannate salt complex at the wet granulation stage, if required. A typical tablet composition prepared by well known conventional manufacturing techniques is shown below.

Ingredient mg/tablet pyrilamine tannate* 30.000 dextromethorphan HBr 10.000 magnesium aluminum silicate, NF 20.000 Mannitol 403.642 Methocel E-1OM 5.000 corn starch 3.000 calcium phosphate dibasic 10.133 xanthan gum 7.875 talc 2.250 FD&C Red #40 0.850 magnesium stearate 2.250 * equivalent to 16 mg of pyrilamine maleate The ratio of pyrilamine to tannic acid in the tannate salt complex is 1: 1.5, by weight.

EXAMPLE 5 Preparation Of a Capsule Dosage Form With One API: The powder mass of the tannate salt complex from the conversion step can be mixed with a diluent, flow agents and lubricants. The powder mixture subsequently can be filled into size 2 capsules. A typical capsule formulation prepared by well known conventional encapsulation techniques is shown below.

Ingredient mg/capsule brompheniramine tannate* 12.000 magnesium aluminum silicate, NF 30.000

Avicel PH 102 353.500 talc 2.250 magnesium stearate 2.250 * equivalent to 6 mg brompheniramine maleate The ratio of brompheniramine to tannic acid in the tannate salt complex is 1: 1.7, by weight.

EXAMPLE 6 Preparation Of A Capsule Dosage Form With Two APIs : The powder mass of the tannate salt complexes of the two APIs obtained from the conversion step can be processed in a similar fashion as in EXAMPLE 5. The tannate salt complexes are mixed with a diluent, flow agents and lubricants. The powder mixture can subsequently be filled into size 1 capsules. A typical capsule formulation prepared by well known conventional encapsulation techniques is shown below.

Ingredient mg/capsule diphenhydramine tannate* 25.000 phenylephrine tannate** 12.500 PVP 20.000 Mannitol 528. 000 talc 2.250 magnesium stearate 2.50 * equivalent to 12.5 mg of diphenhydramine HC1 ** equivalent to 2.5 mg phenylephrine HC1 The ratio of diphenhydramine to tannic acid in the tannate salt complex is 1: 1.3 and phenylephrine to tannic acid is 1: 2, by weight.

EXAMPLE 7 Preparation Of A Capsule Dosage Form With Three Or More APIs : The conversion process to generate the tannate salt complexes can be performed by using a powder blend to which the solutions of all three APIs are added, or each API solution is individually added to its own blend.

The tannate salt complexes are mixed with a diluent, flow agents and lubricants. The powder mixture subsequently can be filled into size 1 capsules. A typical capsule formulation prepared by well known conventional encapsulation techniques is shown below.

Ingredient mg/tablet carbetapentane tannate* 60.000 chlorpheniramine tannate** 4.000 diphenhydramine tannate*** 25.000 magnesium aluminum silicate, NF 30.000 Avicel PH 102 506.500 Di-Pac (compressible sugar) 70.000 talc 2.250 magnesium stearate 2.250 * equivalent to 40 mg carbetapentane citrate ** equivalent to 2.5 mg chlorpheniramine maleate *** equivalent to 12.5 mg diphenhydramine HC1 The ratio of carbetapentane to tannic acid in the tannate salt complex is 1: 1.4, chlorpheniramine to tannic acid is 1: 1.3 and diphenhydramine to tannic acid is 1: 1, by weight.

The foregoing is considered as illustrative only of the principles of the invention. Various equivalents to the ingredients may be substituted without departing from the scope thereof. Only such limitations shall be placed thereon as are imposed by the prior art and which are set forth in the appended claims.