Abstract:
Injectable aqueous compositions comprising folic acid and leucovorin and their salts, optionally including benzyl alcohol, sodium chloride and agents for adjusting pH are stabilized and buffered in the range of 6 to 10 by adding a combination of tromethamine and monothioglycerol. Such compositions remain stable for prolonged periods even when exposed to sunlight.

Description:
This is a continuation of copending application Ser. No. 07/396,573 filed on Aug. 21, 1989, now abandoned. 
    
    
     The present invention relates to new improved injectable compositions comprising folic acid salts and leucovorin salts. More particularly, it relates to compositions comprising folic acid salts and leucovorin salts that remain stable for prolonged periods under normal storage conditions because they include tromethamine and monothioglycerol as a buffering agent/antioxidant combination. 
     BACKGROUND OF THE INVENTION 
     Folic acid and its salts and leucovorin and its salts are known to be pharmaceutically effective. See, Remington&#39;s Pharmaceutical Sciences, Seventeenth Edition, Mack Publishing Co., Easton, PA 1985 (Remington&#39;s 17th Ed.) p. 1023. Folic acid is used to treat vitamin deficiencies. Cosulich, U.S. Pat. No. 2,688,018 describes the preparation of such compounds and their clinical use for controlling the toxicity of aminopterin and other antifolic acid compounds and as hematopoietic drugs. Active derivatives of such compounds are described in Shive, U.S. Pat. No. 2,741,608. In U.S. Pat. No. 4,500,711, Wisowaty et al., describe the purification of leucovorin and its salts. Kerwar et al., U.S. Pat. No. 4,746,662 disclose that the antiarthritic efficacy of methotrexate can be potentiated by injection of an aqueous solution of leucovorin or its salts. EPO Patent Publication No. 0,266,042, May 4, 1988, describes using pure leucovorin isomers to manufacture medicaments for methotrexate rescue, for treatment of colorectal cancer in combination with 5-fluorouracil, and for treating folate deficiency. 
     Both folic acid and leucovorin are only sparingly soluble in water. Therefore they are administered in the form of salts such as alkaline metal and alkaline earth metal salts, such as the sodium salt of folic acid and the calcium salt of leucovorin, the 1-isomer of the latter being preferred. 
     The compound N-4-((2-Amino -1,4-Dihydro-4-oxo-6-pteridinyl)methyl) -amino)(benzoyl)-L-glutamic acid, sodium salt (Sodium Folate) having the formula ##STR1## is used principally to stimulate specifically the production of red blood cells, white blood cells and platelets in persons suffering from certain megaloblastic anemias. 
     The compound N-(4-((2-Amino-5-formyl -1,4,5,6,7,8-hexahydro-4-oxo-6-pteridinyl)methyl)amino)benzoyl)-L-glutamic acid, calcium salt (1:1), pentahydrate, (Leucovorin Calcium USP) having the formula: ##STR2## is used principally as an antidote for folic acid antagonists such as methotrexate, which block the conversion of folic acid into folinic acid. Merck Index, Tenth Edition, p. 603. Both folic acid and leucovorin salts are formulated in water for injection and may contain suitable preservatives, as described under Folvite® Injection and Leucovorin Calcium Injection in the Physician&#39;s Desk Reference, Medical Economics Company, Oradell, NJ 1989 (PDR) pp. 1120 and 1124, respectively. 
     Both compounds, but especially Leucovorin Calcium, require an alkaline pH of 7.7-8.2 for maximum stability. They are also light sensitive and prone to oxidative degradation in aqueous solution, thus requiring the use of amber glass for protection against photosensitivity and the use of nitrogen gas as a protectant throughout the bulk liquid manufacturing process and as a package headspace gas. 
     In the past, methyl and propyl parabens (p-hydroxy benzoates) were used as a preservative for such salts, especially Leucovorin Calcium Injection. However, the parabens were later found to have short term effectiveness at the alkaline pH required for maximum folic acid and/or leucovorin stability. Subsequently, benzyl alcohol was approved and widely used as the new preservative for the products. See &#34;Folvite® Folic Acid Solution&#34; and &#34;Leucovorin Calcium Injection&#34;, PDR, pp. 1120 and 1124 respectively. Although benzyl alcohol is effective as a preservative, it lacks the mild buffering activity afforded by the parabens. As a consequence the pH of the products tend to be somewhat unstable, slowly drifting downward with time toward pH 6.5-7.0. This is below the above-mentioned optimum range and may require expiration dating to be very short term. 
     It has now been found that the factors of pH drift, nitrogen headspace variability and short term expiry dating can be overcome in accordance with this invention by using a buffer/antioxidant combination. The buffer comprises 2-Amino-2-(hydroxymethyl)-1, 3-propanediol, also known as tromethamine. The antioxidant comprises 3-Mercapto-1,2-propanediol, also known as monothioglycerol. 
     Both compounds, tromethamine and monothioglycerol, are toxicologically acceptable, and are described in U.S. Pharmacopeia XXI, U.S. Pharmacopeial Convention, Rockville, MD 1985 (U.S.P. XXI) at pages 1102 and 1580, respectively. 
     Surprisingly, the new buffer/antioxidant compositions of the present invention, for tromethamine and monothioglycerol, have been found to be superior to the presently used formulations, in terms of ability to control pH in the desired region of folic acid and leucovorin stability, and in their ability to retard oxidation, and therefore degradation, in sealed dosage forms. These new buffer/antioxidant compositions make it possible to extend the expiry dating of the product and provide the potential for development of a broader dosage line for such products, e.g. single or multi-dose vials containing greater volumes and higher concentrations of either folic acid or leucovorin salts than the present single dose (3-5 mg/ml) ampuls, such as a 10 mg/ml, 100 mg/vial dosage preparation. Unexpectedly also, benzyl alcohol becomes an optional ingredient and this is desirable expecially in cases where large doses are needed in emergencies and too much benzyl alcohol is not recommended. 
     SUMMARY OF THE INVENTION 
     According to the present invention there are provided stable, injectable aqueous compositions comprising 
     (i) an effective amount of water-soluble pharmaceutically-acceptable salt of folic acid or leucovorin; optionally, 
     (ii) a small, effective preservative amount of benzyl alcohol; and 
     (iii) an effective amount of a buffer/antioxidant combination comprising (a) tromethamine and (b) monothioglycerol, said combination (iii) being present in an amount at least sufficient to maintain the pH of said composition in a predetermined range of from about 6 to about 10 and to protect the composition against degradation induced by oxygen or light. 
     In preferred embodiments, the compositions comprise those wherein said salt comprises a salt of dl-leucovorin; those wherein the compositions also include (iv) sodium chloride in an amount sufficient to render said composition isotonic; those which also include (v) a pH adjustor comprising an acid or a base in amount sufficient to adjust the pH to any value within said range; those wherein said pH adjustor comprises hydrochloric acid or sodium hydroxide. Especially preferred are compositions wherein said 1-leucovorin salt comprises calcium leucovorin. Special mention is made of a formulation comprising from 3 mg/ml to 25 mg/ml of calcium leucovorin in an isotonic solution at a pH of from 6.5 to 8.5, with or without benzyl alcohol at a concentration of from 0.0% w/v to 0.909% w/v, TRIS (tromethamine) at a concentration of from 0.10% w/v to 0.30% w/v, monothioglycerol at a concentration of from 0.10% w/v to 0.30% w/v; sodium chloride at a concentration from 0.45% to 0.65% w/v, with hydrochloric acid at a concentration of from 5.0 v/v% to 10.0 v/v% and sodium hydroxide at a concentration of from 1.0 w/v% to 5.0 w/v% added as required to adjust the pH; and particularly those in which the concentration of calcium leucovorin on the one hand is 3.0 mg to 3.54 mg/ml and 10 mg to 11 mg/ml, on the other, and the concentrations of benzyl alcohol, TRIS (tromethamine), monothioglycerol and sodium chloride are from 0.765% w/v to 1.035% w/v, 0.150% w/v, 0.200% w/v and 0.560% w/v, respectively. 
     The present invention also contemplates a method for stabilizing compositions as above defined comprising adding thereto an effective amount of the buffer/antioxidant combination comprising tromethamine and monothioglycerol. 
     DETAILED DESCRIPTION OF THE INVENTION 
     The injectable composition of this invention can be prepared by techniques well known to those skilled in the art of pharmaceutical formulation. The substantially pure salts may be prepared, mixed with the other components, filtered, filled into containers, and sealed under aseptic conditions. 
     Folic acid and its salts can be prepared by any convenient method, for example 2,3-dibromopropionaldehyde, dissolved in a water miscible organic solvent (alcohol, dioxane), is added to a solution of equal molecular quantities of 2,4,5-triamino-6-hydroxypyrimidine and p-aminobenzylglutamic acid, maintaining a pH of about 4 by the controlled addition of alkali as the reaction progresses. If sodium hydroxide is used as the alkali, sodium folate is obtained. To make calcium leucovorin, folic acid is, for example simultaneously hydrogenated and formulated in 90 to 100% formic acid under the influence of platinum oxide catalyst to yield leucovorin. Conversion to the calcium salt may be accomplished by dissolving the leucovorin in sodium hydroxide solution, treating the calcium chloride, and precipitating with ethanol. 
     Benzyl alcohol is an item of commerce and, if used, is widely available from a number of sources (Remington&#39;s 17th Ed. p. 1057). 
     1,3-Propanediol, 2-amino-(2-hydroxymethyl) -(tromethamine) is available commercially (Remington&#39;s 17th Ed. p. 836). It can be made by additively reacting nitromethane with formaldehyde to yield tris (hydroxymethyl) nitromethane, and the nitro compound is then hydrogenated with Raney nickel in accordance with U.S. Pat. No. 2,174,242. 
     3-Mercapto-1,2-propanediol (monothioglycerol) is readily made, for example, by heating an ethanolic solution of 3-chloro-1,2-propanediol with potassium bisulfite (Remington&#39;s 17th Ed. p. 1279). 
     The amounts of the respective components can vary fairly broadly, within conventional limits well known to those skilled in this art. Preferred embodiments will be exemplified hereinafter. Typically the folic acid salt or leucovorin salt will comprise from about 0.5 to 50 mg/ml, preferably from about 1 to about 35 mg/ml and especially preferably from about 3 to about 25 mg/ml. With folic acid sodium salt, special mention is made of 5 mg/ml and for calcium leucovorin, 3 mg/ml. 
     Benzyl alcohol can be omitted, but if present, can comprise up to about 2.5 percent w/v, preferably up to 1.5 percent w/v with sodium folate and up to about 0.909 percent w/v with calcium leucovorin. 
     The amounts of tromethamine and monothioglycerol relative to each other can vary broadly, e.g., from about 1 to 99 parts by weight, preferably from about 20 to about 80 parts by weight of the former to from about 99 to 1 parts by weight, preferably from about 80 to about 20 parts of the latter. Preferably the tromethamine and monothioglycerol each will comprise from about 0.05 percent w/v to about 0.6 percent, preferably from about 0.1 to about 0.3 percent w/v of the composition. If sodium chloride is present, it can range from 0.1 to about 1.0 percent, preferably from about 0.45 to about 0.65 percent w/v. The pH adjustors can vary widely in type and amount. Typically hydrochloric acid, 5.0 percent v/v and sodium hydroxide 4.0% w/v will be conveniently employed. 
     The injectable solutions prepared as described above and more fully exemplified hereinafter are used in conventional dosages. A typical daily dose is generally up to about 150 mg, e.g., in the range of from about 25 to 150 mg which is conveniently administered in divided doses, for example 2, 3 or 4 doses in a 24 hour period (methotrexate rescue with calcium leucovorin injectable). For treating folate deficiency lower doses of leucovorin are generally administered. For example, a typical daily dose for an adult human is generally in the range of 2 to 25 mg which may be conveniently administered as a single dose (leucovorin calcium) or up to 1.0 mg daily (sodium folate). 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     The following examples illustrate the invention but are not intended to limit the claims in any manner whatsoever. 
     In the data tables, the following abbreviations have the following meanings: 
     RT=room temperature p0 M=month 
     PABG=N-(p/10-aminobenzoyl)glutamic acid 
     FFA=folic acid) 
     Leucovorin Potency=leucovorin calcium (as free acid) 
     % LP=percent of label potency 
     % L.=based on label potency of leucovorin 
     NMT=not more than 
     RHC=37° C. and 75% relative humidity in closed containers 
     SUN=exposure to sunlight 
     ND=none detected 
     RH=relative humidity 
     LCAB=light cabinet having 1,000 footcandle intensity 
     EXAMPLE 1 
     Leucovorin calcium salt is used as the active ingredient in a composition for injection having the formula set forth in Table 1: 
     
                       TABLE 1______________________________________COMPOSITION FOR INJECTION COMPRISINGLEUCOVORIN CALCIUM                       Function inIngredient        % W/V     Composition______________________________________Leucovorin Calcium U.S.P.             0.330*    Active IngredientBenzyl Alcohol-Reagent Grade             0.909     Antimicrobial                       PreservativeTromethamine-Reagent Grade             0.150     BufferMonothioglycerol N.F.             0.200     AntioxidantSodium Chloride-Reagent Grade             0.560     Tonicity AdjusterHydrochloric Acid-Reagent             pH 8.0-8.2                       pH AdjusterGrade qs adSodium Hydroxide USP qs ad             pH 8.0-8.2                       pH AdjusterWater for Injection U.S.P. qs ad             100.0 (v/v)                       VehicleNitrogen N.F., Prepurified             --        Protectant**______________________________________ *Based on Leucovorin Anhydrous Free Acid at 100% **Used as a protective gas to retard oxidation of the product during manufacture, and as a headspace gas in the final sealed package. 
    
     The formulation is prepared as follows: 
     A. Production of Bulk Solution 
     Water for Injection, representing approximately 75% of final batch volume, is added to a stainless steel mixing tank. The Water for Injection is sparged with nitrogen until the water temperature has reached 25°-30° C. (The product is continuously sparged or blanketed with nitrogen throughout the remaining process to protect against oxidation). The ingredients are sequentially added, mixed and dissolved in the following order: benzyl alcohol; sodium chloride; tromethamine; monothioglycerol; and calcium leucovorin. The pH is then adjusted to 8.1±0.1 with 5% hydrochloric acid and/or 1% sodium hydroxide. The batch is brought to a final volume of 20-30 liters with Water for Injection sparged with nitrogen. The pH is re-checked and re-adjusted to 8.1±0.1 with hydrochloric acid or sodium hydroxide if necessary. 
     B. Production of Sterile Filtrate 
     Prior to the sterile filtration, a 0.2 micrometer filtration cartridge is tested for integrity by Bubble Point testing at a pressure of 30 psig. The bulk solution is then passed through a first stage pre-filtration unit containing an AW19/0.45 micrometer cartridge to an in-series sterile 0.2 micrometer second stage cartridge. Pump and Nitrogen gas pressure feed the solution through the filtration units to a tared sterile stainless steel collection drum. At the completion of filtration the 0.2 micrometer filtration unit is again tested for integrity by Bubble Point testing at 35 psig. Elastomeric silicone tubing is used for all product transfer. 
     C. Production of Filled Product 
     The bulk sterile solution is taken to a class 100 filling area where it is pumped from the collection drum through a sterile 5 micrometer filter to a filling line surge bottle. It is fed from the surge bottle to filling needles which eject measured doses to conveyor fed ampuls and vials. (Two filling lines, one for each package style, are used). 
     1 cc Amber glass ampuls are filled at 1.15±0.05 ml (1.0±0.15±0.05 ml USP overage). 10 cc Type 1 amber glass vials are filled at 10.5 ml (10.0±0.5 ml USP overage). All ampul and vial fills receive a nitrogen headspace blanket prior to sealing. Ampuls are heat sealed in a gas flame, and vials are sealed with butyl closures and aluminum crimp seals. 
     EXAMPLES 2 AND 3 
     A second batch (Example 2) corresponding to Example 1 is prepared by the method described in Example 1 as in Table 1. A third batch (Example 3) is prepared, but this is 30 liters in size instead of 20 liters, as shown in Table 1. 
     COMPARATIVE EXAMPLE 1A 
     A formulation like Example 1 without tromethamine and monothioglycerol having the formula set forth in Table 2 is included for comparison purposes: 
     
                       TABLE 2______________________________________COMPOSITION FOR INJECTION COMPRISINGCALCIUM-LEUCOVORIN                         Function inIngredient          % W/V     Composition______________________________________Leucovorin Calcium U.S.P.               0.270-0.330*                         Active In-                         gredientBenzyl Alcohol-Reagent Grade               0.90      PreservativeSodium Chloride-Reagent Grade               0.0-0.560 Tonicity Ad-                         justerSodium Hydroxide-N.F. qs ad               pH 7.7 ± 0.2                         pH AdjusterHydrochloric Acid-Reagent Grade               pH 7.7 ± 0.2                         pH Adjusterqs adWater for Injection U.S.P. qs ad               100.0 (v/v)                         VehicleNitrogen N.F., Prepurified               --        Protectant**______________________________________ *Based on Leucovorin Anhydrous Free Acid at 100%. **Used as a protective gas to retard oxidation of the product during manufacture, and as a headspace gas in the final sealed package. 
    
     The general procedure of Example 1 is used to make filled dosage forms comprising the following: 
     
         ______________________________________      Batch        1A       2A       3A     4AIngredient   % w/v    % w/v    % w/v  % w/v______________________________________Calcium      0.30     0.27     0.27   0.33Leucovorin(As Free Acid)Benzyl Alcohol        0.90     0.90     0.90   0.90RegeantSodium Chloride        --       --       0.56   0.56Sodium Hydroxide        q.s.     q.s.     q.s.   q.s.1.0% SolutionHydrochloric q.s.     q.s.     q.s.   q.s.Acid 1.0%Solution-Adjustto pH 7.7Water for    100      100      100    100Injection qs ad______________________________________ 
    
     Amber glass ampules are the containers selected for filling. 
     COMPARATIVE EXAMPLES 2A, 3A and 4A 
     A second, third, and fourth batch of formulae without tromethamine and monothioglycerol are prepared for comparative testing using the general procedure for Example 1. 
     The filled dosage forms from Examples 1-3 are placed on an accelerated stability test. The analytical methodolgy is as follows: 
     
         ______________________________________Analytical Methodology used for Examples 1-3Test              Method______________________________________Description       visualLeucovorin potency             High pressure liquid             chromatography (HPLC)Leucovorin related             (HPLC)compounds potenciesBenzyl Alcohol    Gas ChromatographypH                pH meterUSP Particulate Matter             USP XXI Particulate             Matter, Injections, light             obscurationMonothioglycerol  Gas Chromotography(Identification)Microbiological evaluation             Antimicrobial Preservativeof preservative system             Effectiveness test USP XXI             pp 1151-1156.______________________________________ 
    
     The results of the test performed on he packaged formulations of Examples 1-3 are reported in Tables 3, 4 and 5, respectively: 
     
                                           TABLE 3__________________________________________________________________________Three Month Accelerated and Six Month Room Temperature Stability Data onLeucovorin Calcium Injection Solutions 3 mg/ml (Example 1)Amber Ampul Packaging                         Other Leucovorin       Benzyl            Folic        RelatedStorage Potency       Alcohol            Acid                PABG FFA CompoundsCondition % L.P.       % L.P.            % L.                % L. % L.                         % L.  pH  Description__________________________________________________________________________Specifi- 100-118%       85-115%            NMT NMT  NMT NMT   6.5-8.5                                   Clear Lightcation           1.0%                1.3% (1)                     1.0%                         2.5% (2)  Yellow SolutionInitial 109   99   0.25                0.72 0.35                         1.35  7.93                                   Clear Light                                   Yellow SolutionRT, 3M 104   97   ND  1.16 ND  1.91  7.92                                   Clear Light                                   Yellow SolutionRT, 6M 105   97   0.36                1.56 0.23                         2.18  7.97                                   Clear Light                                   Yellow SolutionRHC-1M 105   95   0.39                1.50 0.37                         1.82  7.74                                   Clear Light                                   Yellow SolutionRHC-2M 104   97   0.45                2.24 0.39                         2.80  7.77                                   Clear Light                                   Yellow SolutionRHC-3M 102   94   ND  2.36 ND  2.21  7.90                                   Clear Light                                   Yellow SolutionSUN-1M 103   96   0.39                1.12 0.23                         2.98  7.78                                   Clear Light                                   Yellow SolutionSpecifi- 100-118%       85-115%            NMT NMT  NMT NMT   6.5-8.5                                   Clear Lightcation           1.0%                1.3% (1)                     1.0%                         2.5% (2)  Yellow SolutionInitial 109   99   0.25                0.72 0.35                         1.35  7.93                                   Clear Light                                   Yellow SolutionRT, 3M 104   100  ND  1.22 ND  1.49  7.90                                   Clear Light                                   Yellow SolutionRT, 6M 105   97   ND  1.64 0.34                         2.05  7.92                                   Clear Light                                   Yellow SolutionRHC-1M 105   98   0.36                1.54 0.30                         2.26  7.75                                   Clear Light                                   Yellow SolutionRHC-2M 103   99   ND  2.34 ND  1.75  7.86                                   Clear Light                                   Yellow SolutionRHC-3M 102   100  ND  2.59 ND  1.81  7.88                                   Clear Light                                   Yellow SolutionSUN-1M 106   99   0.35                1.13 0.38                         2.14  7.77                                   Clear Light                                   Yellow Solution__________________________________________________________________________ (1) Not more than 1.3% for initial release and not more than 3.5% for shelf life based on the label claim of leucovorin. (2) Not more than a sum of 2.5% for initial release and not more than 3.5 for shelf life as PABG based on the label claim of leucovorin. 
    
     
                                           TABLE 4__________________________________________________________________________Three Month Accelerated and Six Month Room Temperature Stability Data onLeucovorin Calcium Injection Solutions 3 mg/ml (Example 2)Amber Ampul Packaging                         Other Leucovorin       Benzyl            Folic        RelatedStorage Potency       Alcohol            Acid                PABG FFA CompoundsCondition % L.P.       % L.P.            % L.                % L. % L.                         % L.  pH  Description__________________________________________________________________________Specifi- 100-118%       85-115%            NMT NMT  NMT NMT   6.5-8.5                                   Clear Lightcation           1.0%                1.3% (1)                     1.0%                         2.5% (2)  Yellow SolutionInitial 104   97   0.20                0.52 0.22                         1.30  7.94                                   Clear Light                                   Yellow SolutionRT, 3M 103   95   ND  0.80 0.18                         1.49  7.90                                   Clear Light                                   Yellow SolutionRT, 6M 101   96   0.27                1.36 0.25                         1.74  7.97                                   Clear Light                                   Yellow SolutionRHC-1M 102   94   0.05                1.44 0.31                         2.01  7.76                                   Clear Light                                   Yellow SolutionRHC-2M 100   96   0.40                2.04 0.28                         2.32  7.91                                   Clear Light                                   Yellow SolutionRHC-3M 101   96   ND  1.70 0.22                         1.84  7.90                                   Clear Light                                   Yellow SolutionSUN-1M 103   94   0.05                1.01 0.14                         2.09  7.78                                   Clear Light                                   Yellow SolutionSpecifi- 100-118%       85-115%            NMT NMT  NMT NMT   6.5-8.5                                   Clear Lightcation           1.0%                1.3% (1)                     1.0%                         2.5% (2)  Yellow SolutionInitial 104   97   0.20                0.52 0.22                         1.30  7.94                                   Clear Light                                   Yellow SolutionRT, 3M 102   97   ND  0.93 0.26                         1.91  7.91                                   Clear Light                                   Yellow SolutionRT, 6M 102   97   ND  1.43 0.28                         1.98  7.89                                   Clear Light                                   Yellow SolutionRHC-1M 102   96   0.35                1.47 0.23                         1.79  7.74                                   Clear Light                                   Yellow SolutionRHC-2M 100   97   ND  2.12 ND  1.63  7.87                                   Clear Light                                   Yellow SolutionRHC-3M 101   98   0.25                2.03 0.32                         2.21  7.86                                   Clear Light                                   Yellow SolutionSUN-1M 103   96   0.36                1.05 0.28                         2.00  7.76                                   Clear Light                                   Yellow Solution__________________________________________________________________________ (1) Not more than 1.3% for initial release and not more than 3.5% for shelf life based on the label claim of leucovorin. (2) Not more than a sum of 2.5% for initial release and not more than 3.5 for shelf life as PABG based on the label claim of leucovorin. 
    
     
                                           TABLE 5__________________________________________________________________________Three Month Accelerated and Six Month Room Temperature Stability Data onLeucovorin Calcium Injection Solutions 3 mg/ml (Example 3)Amber Ampul Packaging                         Other Leucovorin       Benzyl            Folic        RelatedStorage Potency       Alcohol            Acid                PABG FFA CompoundsCondition % L.P.       % L.P.            % L.                % L. % L.                         % L.  pH  Description__________________________________________________________________________Specifi- 100-118%       85-115%            NMT NMT  NMT NMT   6.5-8.5                                   Clear Lightcation           1.0%                1.3% (1)                     1.0%                         2.5% (2)  Yellow SolutionInitial 108   100  0.46                0.68 0.27                         1.04  8.09                                   Clear Light                                   Yellow SolutionRT, 3M 108   101  0.44                1.02 0.08                         1.47  7.98                                   Clear Light                                   Yellow SolutionRT, 6M 103   99   0.66                1.36 ND  1.78  8.00                                   Clear Light                                   Yellow SolutionRHC-1M 107   98   0.49                0.89 0.15                         1.81  7.95                                   Clear Light                                   Yellow SolutionRHC-2M 105   101  0.54                0.96 0.26                         2.24  7.96                                   Clear Light                                   Yellow SolutionRHC-3M 108   99   0.52                1.08 0.10                         1.55  8.00                                   Clear Light                                   Yellow SolutionSUN-1M 107   98   0.49                0.88 0.15                         1.80  7.96                                   Clear Light                                   Yellow SolutionSpecifi- 100-118%       85-115%            NMT NMT  NMT NMT   6.5-8.5                                   Clear Lightcation           1.0%                1.3% (1)                     1.0%                         2.5% (2)  Yellow SolutionInitial 108   100  0.46                0.68 0.27                         1.04  8.09                                   Clear Light                                   Yellow SolutionRT, 3M 107   98   0.54                1.16 0.12                         1.51  7.96                                   Clear Light                                   Yellow SolutionRT, 6M 103   98   0.92                1.41 0.34                         1.88  8.00                                   Clear Light                                   Yellow SolutionRHC-1M 107   98   0.48                0.96 0.24                         1.41  7.95                                   Clear Light                                   Yellow SolutionRHC-2M 106   100  0.52                1.01 0.23                         1.94  7.96                                   Clear Light                                   Yellow SolutionRHC-3M 108   101  0.47                1.10 0.10                         1.50  7.98                                   Clear Light                                   Yellow SolutionSUN-1M 105   99   0.51                0.98 0.17                         1.48  7.96                                   Clear Light                                   Yellow Solution__________________________________________________________________________ (1) Not more than 1.3% for initial release and not more than 3.5% for shelf life based on the label claim of leucovorin. (2) Not more than a sum of 2.5% for initial release and not more than 3.5 for shelf life as PABG based on the label claim of leucovorin. 
    
     The effectiveness of the preservative system of this invention for Leucovorin Calcium Injectable Solutions, Examples 1-3, is tested in accordance with the Antimicrobial Preservatives Effectiveness Test outlined in U.S. Phamacopeia XXI, pages 1151-1156. This provides a measure of the capacity of the solutions to decrease microbial growth when individually challenged with Staphylococcus aureus, Escherichia coli, Psuedomonas aeruginusa, Candida albicans and Aspergillus niger at a dose level of 100,000 to 1,000,000 microorganisms per ml. The contaminated solutions are stored and sampled at a series of time intervals in order to obtain microorganism counts. The results of these tests, set forth in Tables 6, 7 and 8, indicate that the benzyl alcohol prevents the growth of microorganisms, and provides qualities necessary to pass the anti-microbial preservative effectiveness test. 
     
                       TABLE 6______________________________________Microbiological Evaluation of Preservative System -U.S.P. XXI MethodExample 1      Inoculation                1       2     3     4Organism   Count     Week    Weeks Weeks Weeks______________________________________Staphylococcus      108,500   &lt;10     &lt;10   &lt;10   &lt;10aureusEscherichia coli      108,500   &lt;10     &lt;10   &lt;10   &lt;10Psuedomonas      105,500   &lt;10     &lt;10   &lt;10   &lt;10aeruginosaCandida albicans      285,000   5,800   &lt;10   &lt;10   &lt;10Aspergillus niger      610,000   1,900   &lt;10   &lt;10   &lt;10______________________________________ 
    
     
                       TABLE 7______________________________________Microbiological Evaluation of Preservative System -U.S.P. XXI MethodExample 2      Inoculation                1       2     3     4Organism   Count     Week    Weeks Weeks Weeks______________________________________Staphylococcus      108,500   &lt;10      &lt;5   &lt;10   &lt;10aureusEscherichia coli      108,500      5    &lt;10   &lt;10   &lt;10Psuedomonas      105,500   &lt;10     &lt;10   &lt;10   &lt;10aeruginosaCandida albicans      285,000   9,300   &lt;10   &lt;10   &lt;10Aspergillus niger      610,000   2,000   &lt;10   &lt;10   &lt;10______________________________________ 
    
     
                       TABLE 8______________________________________Microbiological Evaluation of Preservative System -U.S.P. XXI MethodExample 3      Inoculation                1       2     3     4Organism   Count     Week    Weeks Weeks Weeks______________________________________Staphylococcus      108,500   &lt;10     &lt;10     5   &lt;10aureusEscherichia coli      108,500   &lt;10     &lt;10   &lt;10   &lt;10Psuedomonas      105,500   &lt;10     &lt;10   &lt;10   &lt;10aeruginosaCandida albicans      285,000   9,550   &lt;10   &lt;10   &lt;10Aspergillus niger      610,000     190   &lt;10   &lt;10   &lt;10______________________________________ 
    
     The storage stability and microbiological testing of the injectable leucovorin calcium preparations set forth under Comparative Examples 1A, 1B, 1C and 1D using standard test methods are determiend by the following procedures: 
     
         ______________________________________Test              Method______________________________________Description       VisualLeucovorin potency             Thin layer ChromatographyBenzyl Alcohol    Spectrophotometric Gas             Liquid ChromatographypH                pH meterMicrobiological evaluation             Antimicrobial Effectivenessof preservative system             Test USP XIX page 587______________________________________ 
    
     Stability data for the comparison calcium injection compositions are set forth in Tables 9, 10 and 11: 
     
                       TABLE 9______________________________________MEAN ASSAY YIELDS, EXPRESSED AS PERCENTLABEL POTENCY FOR LEUCOVORIN CALCIUM (ASFREE ACID)      Example      1A    2A        3A      4A      % LP  % LP      % LP    % LP______________________________________Label Potency        3.0     2.7       2.7   3.0(In mg) ofLeucovorinTheory       100     100       100   110Initial      99      97        105   10770° C., 1W        89      --        --    10370° C., 2W        84      --        --     9956° C., 2W        92      --        --    10556° C., 1M        89      --        --    10156° C., 2M        86      --        --     9942° C., 1M        94      --        --    10642° C., 2M        94      92        94    10742° C., 4M        --      89        83     9842° C., 5M        92      --        --    --RT, 3M       --      97        98    --RT, 4M       --      --        102   --RT, 6M       97      95        97    --RT, 7M       96      --        --    106RT, 9M       --      --        --    107RT, 10M      96      --        96    --RT, 11M      --      98        --    --RT, 13M      --      97        99    --RT, 16M      --      --        --     99RT, 22M      94      --        --    --RT, 29M      --      91        --    --RT, 30M      --      --        96    --Sun 1M       --      --        97    100______________________________________ 
    
     
                       TABLE 10______________________________________MEAN ASSAY YIELDS, EXPRESSED AS PERCENTLABEL POTENCY FOR BENZYL ALCOHOL      Example      1A     2A       3A      4A      % LP   % LP     % LP    % LP______________________________________Label Potency        9.0      9.0      9.0   9.0(In mg)Theory       100      100      100   100Initial      101       98      101   10170° C., 1W        126      --       --    10970° C., 2W         94      --       --    10056° C., 2W        106      --       --    10256° C., 1M        --       --       --    10256° C., 2M        --       --       --     9942° C., 1M         97      --       --     9542° C., 2M         99      101      102    9942° C., 4M        --        83      --     98RT, 3M       --       100      --    --RT, 4M       --       --       --     99RT, 6M        98       87      --    --RT, 7M        99       93      --     99RT, 8M       --       --       101    98RT, 9M       101      --       --    --RT, 10M       82      --       102   --RT, 11M      101       97      --    --RT, 13M      --       --       102   --RT, 14M      --       101      --    --RT, 16M      --       --       --    106RT, 21M      --        97 (a)  --    --RT, 24M      101      --       --    --RT, 25M      101 (a)  --       --    --RT, 27M      --       113 (a)  --    --RT, 29M      --       105 (a)  --    --RT, 30M      --       --       105 (a)                                --Sun, 1M      --       --       101   100______________________________________ (a) Gasliquid chromatography is used for these assays and for all the assays in Example 4A. All the other assay data are derived using spectrophotometric method of analysis. The assay results using the spectrophotometric method of analysis are quite variable due to analytica interferences. 
    
     
                       TABLE 11______________________________________ELECTROMETRIC pH DETERMINATIONSAT AMBIENT TEMPERATURE      pH Value      Example      1A  2A          3A    4A______________________________________Initial      7.7   7.7         7.7 7.7RT, 2M       --    6.6         --  6.5RT, 4M       --    7.0         --  --RT, 6M       6.8   --          --  6.6RT, 9M       6.4   --          6.8 --RT, 12M      --    --          --  6.5RT, 24M      --    6.7         --  --RT, 28M      --    --          7.0 --RT, 29M      --    6.5         --  --RT, 32M      --    --          --  6.4RT, 34M      6.6   --          --  --RT, 36M      --    --          --  6.2______________________________________ 
    
     The effectiveness of the preservative system of Leucovorin Calcium Injectable Solutions, for Comparative Examples 1A, 2A, 3A, and 4A is tested in accordance with the Antimicrobial Preservatives Effectiveness Test outlined measure of the capacity of the solutions to decrease microbial growth when individually challenged with Staphylococcus aureus, Escherichia coli, Psuedomonas aeruginusa, Candid albicans and Aspergillus niger at a dose level of 100,000 to 1,000,000 microorganisms per ml. The contaminated solutions are stored and sampled at a series of time intervals in order to obtain microorganism counts. The results of these tests are set forth in Table 12. 
     
                                           TABLE 12__________________________________________________________________________Microbiological Evaluation of Preservative System - U.S.P. XIX Method       Inoculation       Count 0.5 Hour                  24 Hours                       1 Week                            2 Weeks                                 4 Weeks__________________________________________________________________________Example 1AStaphylococcus aureus       270,000             202,000                  &lt;1,000                       &lt;100 &lt;100 &lt;100Escherichia coli       245,000             32,000                  &lt;1,000                       &lt;100 &lt;100 &lt;100Psuedomonas aeruginosa 410,000       59,000             &lt;1,000                  &lt;100 &lt;100 &lt;100Candida albicans       330,000             130,000                  &lt;4,000                       &lt;100 &lt;100 &lt;100Aspergillus niger       120,000             340,000                  230,000                       57,000                            1,000                                 &lt;100Example 2AStaphylococcus aureus       205,000             63,000                  &lt;1,000                       &lt;100 &lt;100 &lt;100Escherichia coli       180,000             55,000                  &lt;1,000                       &lt;100 &lt;100 &lt;100Psuedomonas aeruginosa       210,000             21,000                    &lt;100                       &lt;100 &lt;100 &lt;100Candida albicans       154,000             61,000                   48,500                       &lt;100 &lt;100 &lt;100Aspergillus niger       280,000             26,000                  270,000                       29,000                            1,800                                 &lt;100Example 3AStaphylococcus aureus       270,000             &lt;1,000                  &lt;1,000                       &lt;100 &lt; 100                                 &lt;100Escherichia coli       200,000             &lt;1,000                  &lt;1,000                       &lt;100 &lt;100 &lt;100Psuedomonas aeruginosa       314,000             &lt;1,000                  &lt;1,000                       &lt;100 &lt;100 &lt;100Candida albicans        78,000             &lt;1,000                  &lt;1,000                       &lt;100 &lt;100 &lt;100Aspergillus niger       210,000               &lt;200                  100,000                        &lt;50 &lt;100 &lt;100Example 4AStaphylococcus aureus       257,000             160,000                    &lt;100                       &lt;100 &lt;100 &lt;100Escherichia coli       238,000             194,000                   20,000                       &lt;100 &lt;100 &lt;100Psuedomonas aeruginosa       340,000             97,000                    &lt;100                       &lt;100 &lt;100 &lt;100Candida albicans       114,000             92,000                    &lt;100                       &lt;100 &lt;100 &lt;100Aspergillus niger       380,000             330,000                  440,000                       160,000                              950                                 &lt;100__________________________________________________________________________ 
    
     EXAMPLES 4, 5 AND 6 
     Three batches are prepared with leucovorin calcium salt as the active ingredient in a composition for injection having the formula set forth in Table 13: 
     
                       TABLE 13______________________________________COMPOSITION FOR INJECTION COMPRISINGLEUCOVORIN CALCIUM                       Function inIngredient        % W/V     Composition______________________________________Leucovorin Calcium U.S.P.             1.100     Active IngredientTromethamine-Reagent Grade             0.150     BufferMonothioglycerol N.F.             0.200     AntioxidantSodium Chloride-Reagent Grade             0.560     Tonicity AdjusterHydrochloric Acid-Reagent             pH 7.9-8.3                       pH AdjusterGrade qs adSodium Hydroxide USP qs ad             pH 7.9-8.3                       pH AdjusterWater for Injection U.S.P. qs ad             100.0 (v/v)                       VehicleNitrogen N.F., Prepurified             --        Protectant**______________________________________ *Based on Leucovorin Anhydrous Free Acid at 100% **Used as a protective gas to retard oxidation of the product during manufacture, and as a headspace gas in the final sealed package. 
    
     The resulting composition is a clear light yellow solution. Each batch is 40 liters. The solutions are then distributed to 50 ml amber tubing vials with 50 mg/vial label potency. Grey butyl plug closures are used with aluminum seals. 
     The filled dosage forms from Examples 4, 5 and 6 are placed on accelerated stability tests, consisting of storing the solution at 23° C. for up to 9 months, storing the solution at 40° C. and at 75% relative humidity for up to three months, and storing the solution for one month in a light cabinet. 
     The solutions are assayed by high performance liquid chromatography. The mean assay results of the tests performed on the packaged formulations of Examples 4, 5 and 6 are reported in Table 14: 
     
                       TABLE 14______________________________________Mean Assay Results For Leucovorin CalciumInjection Solutions 500 mg/vial (Examples 4, 5 and 6)          Example No.Storage              4         5     6Condition    Time    % L.P.    % L.P.                                % L.P.______________________________________Initial              110       106   10923° C.        3M      106       104   10623° C.        6M      107       105   10623° C.        9M      106       104   10523° C.        12M     103       102   10440° C./75% RH        1M      102       101   10140° C./75% RH        2M       99        98   10040° C./75% RH        3M       98        97    99LCAB*        1M      107       105   106______________________________________ 
    
     The packaged formulations of Examples 4, 5 and 6 did not change in appearance after being stored at 23° C. for up to 9 months, 40° C. and 75% relative humidity for up to three months, and in a light cabinet for one month. The compositions remained clear light yellow solutions. 
     The solutions of Examples 4, 5 and 6 are measured electrometrically for pH. The results of these tests, showing that the pH remained essentially unchanged at all storage conditions, are reported in Table 15: 
     
                       TABLE 15______________________________________pH Measurement Data For LeucovorinCalcium Injection Solutions 500 mg/vial(Examples 4, 5 and 6)          Example No.Storage              4         5    6Condition    Time    pH        pH   pH______________________________________Initial              8.2       8.4  8.423° C.        3M      8.1       8.2  8.323° C.        6M      8.0       8.1  8.223° C.        9M      8.1       8.3  8.423° C.        12M     8.1       8.2  8.340° C./75% RH        1M      8.2       8.4  8.440° C./75% RH        2M      8.0       7.9  8.140° C./75% RH        3M      8.0       8.0  8.1______________________________________ 
    
     EXAMPLE 5 
     If the procedure of Example 1 is repeated substituting sodium folate for the calcium leucovorin, using the following ingredients: sodium folate equivalent to 5 mg of folic acid; disodium edetate 0.2%; Water for Injection; q.s. 100%; sodium hydroxide to approximately pH 9; benzyl alcohol; 1.5%; tromethamine, 0.15%; and monothioglycerol, 0.200%, all percentages by weight over volume, a stable injectable composition in accordance with this invention will be obtained. 
     The foregoing data indicate that a unique blend of a buffer and an antioxidant endows leucovorin with more stability than the present standard formulation of leucovorin (Comparative Examples). More particularly, the composition of this invention is shown to be: 
     (1) a formulation which is more stable than the present standard product system in terms of pH: with variations of no more than 0.4 pH units from an adjusted pH of 8.1, and thus provides a stabilized alkaline pH to insure maximum stability of leucovorin calcium; 
     (2) a formulation with better leucovorin potency photostability after one month exposure to sunlight when compared to the standard product formulation; 
     (3) a formulation which has equivalent or better leucovorin potency stability overall; 
     (4) a formulation with equivalent benzyl alcohol potency stability, as compared to the standard product formulation. 
     (5) a formulation where the generation of related compounds does not exceed the specified limits for the standard product formulation; 
     (6) a formulation which meets the present Antimicrobial Preservatives Effectiveness test as outlined in U.S.P. XXI; and 
     (7) a formulation which has a projected expiration dating of at least eighteen months. 
     The above-mentioned patents, publications and test methods are incorporated herein by reference. 
     The foregoing detailed description will suggest many obvious variations to those skilled in this art. For example, instead of calcium leucovorin, strontium leucovorin and sodium leucovorin can be used. Racemic and enantiomeric 1-leucovorin can be used. Benzyl alcohol can be omitted. Instead of sodium folate, calcium folate can be used. Derivatives, such as polyglutamyl folates and leucovorin can be used. The injectable compositions can contain conventional additives such as chelating agents, inert gases, and the like. All such obvious modifications are within the full intended scope of the appended claims.