Field of the Invention The present invention relates to calcium lactate antibacterial complexes of quinolone or naphthyridine in parenterai dosage forms that are compatible (i.e., free or relatively free from tissue irritation) following injection .

Background of the Invention

The Journal of Parenterai Science and Technology, Vol. 40, No. 2, 1986, pp. 70-72, describes a method of increasing solubility of anti-infective drugs enoxacin (a naphthyridine) and norfloxacin (a quinoline) by means of salt formation. The four salts found to be best were the aspartate, galacturonate, gluconate, and glutamate .

German application 3635062 covers metal salts of 1-cyclopropylquinoline carboxylic acids used as antibacterials .

European application 191,451 covers 1-cyclo- propyl- 5 -substituted pyrrol idinyl-dihydro -oxo- naphthyridines useful as antibacterials with good water solubility .

United States Patent No. 4,359,578 covers the compound enoxacin (l-ethyl-6-f luoro-1, -dihydro-4-oxo-7- (1- piperazinyl) -1, 8-naphthyridine-3-carboxylic acid), methods of preparation, and the use thereof as an antibacterial agent. The patent is incorporated herein by reference.

United States Patent No. 4,795,751 covers the

compound 5-amino-l-cyclopropyl-6, 8-difluoro-7- (3, 5-methyl- 1-piperazinyl) -1, 4-dihydro-4-oxoquinoline-3-carboxylic acid (Compound A) methods of preparation, and the use thereof as an antibacterial agent. The patent is incorporated herein by reference.

United States Patent No. 4,771,054 covers the compound 7- (3-amino-l-pyrrolidinyl) -8-chloro-l-cyclopropyl- 6-fluoro-1, -dihydro-4-oxo-3-quinoline carboxylic acid, its preparation and use as an antibacterial. The patent is incorporated herein by reference .

United States Patent No. 4,851,418 covers the compound [S- (R*,R*) ] -7- [3- [ (2-amino-l-oxopropyl) amino] -1- pyrrolidinyl]-l-cyclopropyl-6-fluoro-1, 4-dihydro-4-oxo-l, 8- naphthyridine-3-carboxylic acid hydrochloride, its preparation and use as an antibacterial. The patent is incorporated herein by reference .

As a parenterai form, most quinolones and naphthyridines are used in the form of salts which provide acidic parenterai solutions. These formulations are associated with tissue irritation following injection, possibly because of the low pH of the solution.

For parenterai administration, calcium salts are relatively nontoxic compared to other divalent and trivalent salts (e.g., Zn, Mg, Al) . The latter salts can cause extreme systemic toxicity. Other di- and trivalent salts besides calcium may be useful for oral formulations of quinolones/naphthyridines .

Concurrent administration of antacids has been implicated as a cause in the decrease in bioavailability of quinolones (Package Insert Cipro® Tablets: Miles, Inc. Pharmaceutical Division; 400 Morgan Lane; West Haven, CT 06516) .

Salts frequently contained in the antacids are calcium carbonate, magnesium hydroxide, and aluminum hydroxide. Interaction between quinolones, chiefly nalidixic acid, and metal ions have been reported. (Nakano, Masahiro; Yamamoto, Masakazu; and Arita, Takaichi; "Interactions of Aluminum, Magnesium, and Calcium Ions with Nalidixic. Acid," Chem . Pharm . Bull . , 26 1505 (1978); Behrens, Barba Norah; and Diaz Guillermo Mendoza; "Metal Complexes of the Antibiotic Nalidixic Acid", Inorgani ca Chimica Acta , 125 21 (1986); and Vincent, W.R.; Schulman, S.G.; Midgley, J.M., van Oort, W.J.; and Sorel, R.H.A.; "Prototropic and Metal Complexation Equilibria of Nalidixic Acid in the Physiological pH Region" International Journal of Pharmaceutics, 9 191 (1981) .

Japanese Application 63-188626 discloses aluminum, zinc, and magnesium compounds for solubilizing amphoteric pyridine carboxylic acids or their salts . These metals have been reported to be toxic, especially when administered parenterally . The reference mentions the addition of sodium, potassium, and calcium chloride to pyridine carboxylic acids . It does not disclose the preparation of sodium, calcium and potassium salts of pyridine carboxylic acid.

Summary and Detailed Description In one aspect, the invention concerns a soluble calcium lactate antibacterial complex in parenterai dosage form, comprising lactic acid, calcium hydroxide, and an antibacterial compound. The antibacterial compound is selected from 1) a quinolone of formula

where A is aminomethyl, ethylaminomethyl or amino; 2) naphthyridine of formula

or an optical isomer thereof, where B is 2-amino-l- oxopropylamino, aminoacetylamino, ( 2-amino-l-oxo-3- phenylpropyl) amino, (2, 5-diamino-l, 5-dioxopentyl) amino, (2- amino-4-carboxy-l-oxobutyl) amino, (2, 6-diamino-l-oxohexyl) amino, or (aminophenylacetyl) amino; or 3) a naphthyridine of formula

or an optical isomer thereof, where C is [ (2-amino-l-oxo- 3-phenylpropyl ) amino] methyl, [ (2-amino-l- oxopropyl) amino ] methyl , [ ( aminoacet yl ) amino ] methyl , [ (aminophenylacetyl) amino] methyl, [ (2-amino-4-carboxy-l- oxobutyl ) amino ] methyl , [ ( 2 , 6-diamino- l- oxohexy 1 ) amino ] e thy 1 , or [ ( 2 , 5 -di amino- 1 , 5 - dioxopentyl) amino]methyl .

In one preferred embodiment, the antibacterial

compound is 7- (3-am:'.no-l-pyrrolidiny1) -8-chloro-l- cyclopropyl-6-fluoro-1, 4-dihydro-4-oxo-3- quinolinecarboxylic acid. In another preferred embodiment, the antibacterial compound is [S- (R*,R*) ] -7- [3- [ (2-amino-l- oxopropyl) amino]-1-pyrrolidinyl] -l-cyclopropyl-6-fluoro- 1, 4-dihydro-4-oxo-l, 8-naphthyridine-3-carboxylic acid.

The complex in a preferred embodiment is produced by dissolving an antibacterially effective quantity of the antibacterial compound in an aqueous lactic acid solution, preferably L-(+) -lactic acid solution, neutralizing the resulting solution with calcium hydroxide in a quantity that is selected so that any precipitation of the antibacterial compound from the solution is avoided and yet on intravenous injection, venous irritation by the neutralized solution is either absent or is minimized. The quantity of lactic acid preferably is from 1 to 3 moles and more preferably about 1.6 moles per mole of the carboxylic acid. The amount of calcium hydroxide is that amount sufficient to raise the pH of the injectable solution between about 4.0 to about 5.5. The resulting neutralized solution is then processed by sterile filtration to provide a sterile solution. The sterile solution is preferably lyophilized (freeze-dried) to provide a dry product that is stable for extended periods .

For use as an intravenous infusion, a liquid product is obtained by reconstitution of the dry product in an intravenous infusion fluid such as sa ..ne (0.9% NaCl) , 5% dextrose solution, Ringer's solution, lactated Ringer's solution, and the like. Upon reconstitution, the product preferably has a pH in the range from about 4 to about 5.5, more preferably about 4.8.

A formula for preparation of a dry product suitable for reconst itut ion in an infus ion f luid is the following :

Inσredients Amount

1 . Antibacterial 30 . 0 g*

2 . L- (+) -lactic acid 12 . 0 g

3. Calcium hydroxide, USP 1.9 g

4. Water for injection, USP 1000 ml

5. Nitrogen gas high purity q.s.

* Amount used should be corrected to 100% based on purity and moisture.

Procedure: Dissolve 2 in approximately 900 ml of 4 in a suitable container and mix well. Add 1 with mixing until all the drug particles are dissolved. Add 3 with mixing. Check pH (ca. 4.6-4.9); adjust pH with calcium hydroxide or lactic acid if necessary. Sterilize the solution by filtering through a previously sterilized 0.22 μm membrane or equivalent (Millipore 293 mm assembly or Millipack 100) using 5 for positive pressure. Discard 100 ml of solution to flush the system. Aseptically fill 10.05-10.1 ml of the solution into previously sterilized and depyrogenated vials. Stopper loosely with slotted closures and lyophilize. Stopper and cap the lyophilized vials.

The above product was prepared in 20 c.c. Type I, amber tubing vials with 20 mm neck. When reconstituted with 10 ml of sterile water for injection, the resultant solution contains 30 mg/ml of free base equivalent. The solution typically is greenish yellow with a pH of 4.8. The product prepared as above by aseptic filtration followed by lyophilization provides a suitable dissolution

rate for reconstitution. The product can be redissolved in 0.9% NaCl, 5% Dextrose solution, Ringer's solution and lactated Ringer's solution for use in the hospital.

Having described the invention, the embodiments thereof in which an exclusive property or privilege is claimed are defined as follows: