US2661315A - Prolonged-effectiveness injectable therapeutic preparation - Google Patents
Prolonged-effectiveness injectable therapeutic preparation Download PDFInfo
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- US2661315A US2661315A US792856A US79285647A US2661315A US 2661315 A US2661315 A US 2661315A US 792856 A US792856 A US 792856A US 79285647 A US79285647 A US 79285647A US 2661315 A US2661315 A US 2661315A
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- soap
- penicillin
- oil
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- oily medium
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K31/00—Medicinal preparations containing organic active ingredients
- A61K31/33—Heterocyclic compounds
- A61K31/395—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins
- A61K31/41—Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having five-membered rings with two or more ring hetero atoms, at least one of which being nitrogen, e.g. tetrazole
- A61K31/425—Thiazoles
- A61K31/429—Thiazoles condensed with heterocyclic ring systems
- A61K31/43—Compounds containing 4-thia-1-azabicyclo [3.2.0] heptane ring systems, i.e. compounds containing a ring system of the formula, e.g. penicillins, penems
Definitions
- penicillin In the administration of" penicillin, it is desirable from a therapeutic: standpoint to. maintain an efiective concentration of penicillin in the blood stream for a prolonged period (say,. 24. hours).
- Onsubcutaneous or intramuscular injection of an aqueous solution of penicillin the penicillin is; rapidly absorbed into the blood stream (reaching a. maximum concentration therein in about a quarter hour); and rapidly excreted from the body (excretion being practically complete in about three hours); accordingly, injections must be repeated at aboutthreehour intervals or the solution. administered by continuous infusion, which obviously may be inconvenient under many circumstances. Because of the high Water-solubility of penicillin, normaterial improvement in this respect is obtained; by administering the penicillin oil suspension.
- beeswax may contain pollen, which may produce allergic reactions; and because. it is not: metabolized by the body, the, beeswax remains. at the site of the injection long after the. penicillin and oil areabsorbed, resulting in local. pain, irritation, and frequently abscesses- Although penicillin and other readilyabsorbed drugs have been. incorporated into depot-forming carriers other than. oil and beeswax prior to 2. this: invention, none of these depot preparations hasbeen satisfactory from all of the standpoints indicated hereinbefore, as well as from such other standpoints as: ad'ministrability by means of a glass-plunger syringe.
- the depot preparations of this invention are preformed, filled into containers, and distributed in. a form ready for use.
- substantially water-insoluble soap a substantially water-insoluble salt of an acid capable of forming an ordinary soap.
- the substantially. water-insoluble soaps comprise the substantially water-insoluble salts ofhigher fatty acids (long-chain, saturated or unsaturated acids, which may be hydroxylated), resinic acids (e. g., abietic, pin-relic, or primaric acid), and acids obtained bysaponi'fying resins of natural origin (:e. g-., col'ophonium or shellac).
- the depotforming carriers and depot preparations of this invention may include components capable of forming the soap. component in situ, i. e., after administration of the depot preparation.
- a retardation and extension of the period of drugabsorption of the same order may be obtained by substituting for the soap component, physiologically-acceptable components which, oncontact with the aqueous tissue fluids, interact to form a physiologicallya'cceptable, substantially water-insoluble soap.
- an advantageous depot-forming carrier for readily-absorbed drugs may be composed of an administrable oily medium, a soap-forming acid and a physiologically-acceptable, substantially water-soluble salt capable of reacting therewith in the presence of water to provide a physiologically-acceptable substantially water-insoluble soap.
- the substantially water-insoluble salts of higher fatty acids especially the calcium and aluminum salts of higher fatty acids-are preferred for the purposes of this invention.
- These comprise, inter alia: calcium palmitate, calcium stearate, aluminum stearate, magnesium stearate, calcium oleate, zinc stearate, calcium linoleate, calcium laurate, aluminum palmitate, and mixtures thereof; and other calcium, magnesium, zinc, iron, or aluminum salts of such higher fatty acids (or mixtures thereof) as palmitic, stearic, oleic, linoleic, lauric, myristic, ricinoleic, arachidic, linolic, and margaric acid, and cocoanutoil fatty acids.
- the components capable of forming the preferred soaps in situ comprise the higher fatty acids (or mixtures thereof) listed in the preceding paragraph, inter alia; and (as the salt for reaction therewith) substantially water-soluble salts of the metals listed in the preceding paragraph with such physiologically-acceptableanion-containing acids as hydrochloric, sulfuric, acetic, phosphoric, gluconic, lactic, and tartaric, inter alia; e. g., calcium lactate, tricalcium phosphate, and calcium gluconate. A substantial stoichiometric excess of either the acid or the salt component should preferably be avoided.
- the administrable oily media essentially comprise fatty, non-drying oils of animal or vegetable origin or their synthetic equivalents; inter alia, peanut oil, sesame oil, cottonseed oil, corn oil, soybean oil, synthetic glycerol esters of longchain fatty acids, and mixtures of these and other ils.
- the consistency and/ or other physical properties of these oils may be modified by inclusion of oil-miscible, physiologically acceptable substances, such as cetyl alcohol, hydrogenated oils (or fats), and ethyl oleate; and by regulation of the consistency of the oily medium and/or proportion of the soap, the rate of absorption of the drug may be controlled.
- the depot-forming carriers of this invention may be employed for the administration of any readily-absorbed drug capable of administration by intramuscular or subcutaneous injection whose action it is desired to prolong.
- readily-absorbed drugs thus administrable are those of the following types, inter alia: anesthetics, such as sodium 5-ethyl-5(l-methylbutyl)thiobarbiturate, procaine hydrochloride, and p-diethylaminoethyl p-ethoxy-benzoate hydrochloride; anti-infectives, especially antibiotics, such as the penicillins (exemplified by the sodium, potassium, and calcium salts of penicillins G, F, K, X, and dihydro-F) the streptomycins, and therapeutically-effective derivatives thereof (exemplified by the following salts and therapeutically-effective derivatives; sulfate; phosphate; hydrochloride; calcium chloride double salt; interaction product with pectin; salt-type 4 combination with a higher fatty acid,
- hormones and synthetic substitutes such as testosterone and its esters, progesterone, crystalline and noncrystalline estrone, insulin, anterior-pituitary hormones, and desoxy-corticosterone acetate
- vitamins and substitutes such as vitamin A, vitamin D, menadione, thiamine hydrochloride, riboflavin, ascorbic acid, pyridoxine hydrochloride, folic acid, tocopherols, and niacinamide
- sympathomimetic agents such as epinephrin, amphetamine sulfate, and d-desoxyephedrine hydrochloride
- sedatives and hypnotics such as pentobarbital sodium
- antihistaminics such as p-dimethylaminoethyl benzhydryl ether hydrochloride and N'pyrid
- the depot-forming carriers and depot prepara tions of this invention may include components in addition to the soap (or soap-forming components), oily medium (including modifiers), and drug (in the case of depot preparations).
- the depot preparations may include additional drugs (for multiple drug effect); and both the depot-forming carriers and depot preparations may include drugs for local action in connection with the injection (e. g., anesthetic), a sterilizing agent (to maintain the sterility of multipledose preparations, for example), pectin (or other hydrophilic, readily-absorbable polysaccharide forming a gel on contact with aqueous tissue fluids, and thus further retarding and extending the period of absorption of the drug), and/or other substances.
- the amount of the soap (or soap-forming components) used in the depot-forming carriers and depot preparations of this invention may be varied within wide limits.
- the amount should be enough to provide undissolved (suspended) soap, absorption-retardation being primarily attributable to that portion of the soap undissolved in the oily medium; and the amount should, of course, not be so great as to make the preparation too viscous for administration.
- the amount of readily-absorbed drug in the depot preparations of this invention may be varied, within obvious limits.
- the amount must, of course, be enough to give the desired therapeutic effect for the desired period; and the upper limit is imposed, of course, by pharmacological considerations (effect and toxicity) as well as by the physical character of the preparation (e. g., viscosity).
- the depot-forming carriers of this invention are produced by suspending the soap (or incorporating the soap-forming components) in the oily medium; and the depot preparations of this invention are produced by incorporating (i. e., dissolving and/or suspending) the drug and suspending the soap in the oily medium (the sequence of these operations being variable) preferably by first suspending the soap in the oily medium and then incorporating the drug in the suspension.
- any modification of the oil by inclusion of an oil-miscible, physiologically-acceptable substance should be effected first, especially if heating is required (as when incorporating a hydrogenated oil).
- Those compone ts susp nded in th ily medium should desirably be in finely-divided form; but further retardation and extension of the period of absorption of the drug may be ob tained, in some cases (e. .g., that of penicillin), by having the drug particles of larger size, compatible, however, with passage of the preparation through a hypodermic needle.
- the finely-divided form of the soap may be effected, for example, by suitable grinding (after chilling, where necessary) and screening, or by other mechanical means for reducing particle size; e. g., micronizing or micropulverizing.
- An especially-fine subdivision of the soap is effected by heating a mixture of the soap and the oily medium until the soap desolidifies (i. e., dissolves or flows in the oily medium), and agitating the mixture during cooling until the soap forms a highly dispersed solid phase in the oily medium.
- the finely-divided state of the drug may be effected, for example, by freeze-drying an aqueous solution thereof (i. e., freezing the solution, and subjecting the solid to a high vacuum to sublime oil the water)
- the soap may be so incorporated as to facilitate association of the soap particles with the drug particles.
- the associated drug and soap particles may be formed by incorporating both in the oily medium and grinding them therein to the desired particle size; or the soap may be precipitated (by chemical or physical means) in the oily medium containing the drug particles.
- Precipitation may be effected in the following ways, inter alia: by heating a mixture of the soap with a suspension of the drug in the oily medium until the soap desolidifies, and agitating the mixture during cooling until the soap forms a highly dispersed solid phase in the oily medium; and (where the presence of a small amount of water is not deleterious) by adding to the suspension of the drug in the oily medium the soap-forming components described hereinbefore, adding an amount of water sumcient to enable interaction between these soap-forming components, and thoroughly mixing to cause soapformation and precipitation of the soap in the presence of the suspended drug.
- solution e. e., of the modifier in the oil to provide the oily medium
- suspension e. g., of the soap, or soap-forming components, in the oily medium
- thorough mixing is effected in a high-speed mechanical mixer, or a homogenizer.
- Example 1 On administration of each of these preparations (subcutaneously, or preferably, by intramuscular injection), the particular drug is slowly absorbed, and its eifect is maintained over an adequately prolonged period (thus, a single daily intramuscular injection of 1 ml. of the preparation described in Example 3. containing 300,000 units/ml, maintains a therapeutically-effective blood concentration of penicillin for about 24 hours or more, and hence is usually adequate to effect the required penicillin therapy) the incidence of undesirable reactions is so low that the preparations are capable of general use; and the preparations are suiiiciently stable to withstand the effect of time, temperature variation, and other factors involved in modern large-scale distribution]
- Example 1 3.5 g. hydrogenated peanut oil is dissolved in 82.5 ml. peanut oil; 10 g. zinc stearate is suspended in the solution; and 24 g. crystalline sodium-penicillin G is thoroughly mixed with the suspension.
- Example 2 12 g. stearic acid is dissolved in 82.5 ml. peanut oil; and 12 g. calcium lactate (screened through a 200-mesh screen) and 24 g. crystalline sodiumpenicillin G are added to the solution, and thoroughly mixed therewith.
- Example 3 2.5 g. hydrogenated peanut oil is dissolved in $2.5 m1. peanut oil; 15 e. calcium stearate (about 40- mesh) mixed with the oily medium; the mixture is heated until the calcium stearate flows in the oily medium; the mixture is then stirred during cooling (the calcium stearate forming a highly-dispersed solid phase in the oily medium) and, while continuing the stirring (and after the temperature of the mixture has fallen to 140 C. or lower), 24 g. crystalline sodium-penicillin G is added and thoroughly mixed therewith.
- Example 4 26 g. calcium stearate is added to 325 ml. peanut oil, and the mixture is (heat) treated as described in Example 3; and after the calcium stearate has formed a highly-dispersed solid phase in the oil and the temperature has fallen to 140 C. or lower, g. crystalline sodium-penicillin G is added and thoroughly mixed therewith.
- the calcium stearate in this preparation may be replaced by an equal weight of calcium oleate, calcium palmitate, magnesium stearate or zinc stearate,
- the magnesium stearate, and zinc stearate (unlike the calcium stearate, calcium oleate and calcium palmitate) dissolve in the oily medium on heating (at about C. and C., respectively), but when stirred during cooling also form a highly dispersed solid phase in the oily medium.
- Example 5 2.5 g. hydrogenated peanut oil is dissolved in 90 ml. peanut oil; 7.5 g. calcium stearate is added to the oily medium, and the mixture is (heat) treated as described in Example 3; and after the calcium stearate has formed a highly-dispersed solid phase in the oily medium and the tempera ture has fallen to C. or lower, 24 g. crystalline sodium-penicillin G is added and thoroughly mixed therewith.
- Example 6 1.0 g. hydrogenated peanut oil is dissolved in 30.6 ml. peanut oil; 4.35 g. calcium stearate is incorporated in the solution by warming (the apparent solution resulting containing, on cooling, at least part of the calcium stearate in finelydivided suspended form); and 15 g. commercial streptomycin hydrochloride (having a potency of 533 units/mg.) is thoroughly mixed therewith.
- Example 8 3.4 g. hydrogenated peanut oil is dissolved in 53 ml. peanut oil; 9.3 g. calcium stearate is incorporated in the solution by warming; and 3.1 g. of a dry mixture obtained by freeze-drying a dilute aqueous solution of equal parts d-tubocurarine chloride and calcium lactate (cf. Burke and Jurist application Serial No. 700,370, filed October 1, 1936, now Patent No. 2,476,082, dated July 12, 1949) is thoroughly mixed therewith.
- Example 9 g. hydrogenated peanut oil is dissolved in 100 ml. peanut oil; 15 g. aluminum palmitate is incorporated in the oily medium in the manner described in Example 3; and 6 g. fi-diethyl-amino ethyl p-ethoxy-benzoate is dissolved therein.
- Example 10 2.0 g. hydrogenated peanut oil is dissolved in 70 ml. peanut oil; g. aluminum stearate is incorporated in the oily medium in the manner described in Example 3; and g. sodium heparin is thoroughly mixed therewith.
- Example 11 5.0 g. hydrogenated peanut oil is dissolved in 80 ml. peanut oil; 15 g. calcium stearate is incorporated in the solution by Warming; and 0.800
- a substantially anhydrous non-gelled injectable therapeutic preparation comprising a therapeutically-effective salt of penicillin dispersed in a suspension of a calcium salt of a physiologicallyacceptable soap-forming acid in an injectable, fatty, non-drying oil, the quantity of such salt being sufficient to provide a solid phase thereof in the oil and thereby maintain prolonged effective blood levels of penicillin upon injection of said preparation compared with the blood levels obtained upon injection of a similar preparation not containing such salt.
- a substantially anhydrous non-gelled injectable therapeutic preparation comprising a therapeutically-ellective salt of penicillin carried by a suspension of calcium stearate in an injectable, fatty, non-drying oil, the quantity of calcium stearate being sufficient to provide a solid phase thereof in the oil and thereby maintain prolonged effective blood levels of penicillin upon injection of said preparation compared with the blood levels obtained upon injection of a similar preparation not containing calcium stearate.
Description
Patented Dec. 1, 1953 UNITED STATES PATENT OFFICE:
BROLONGED-EFFECTIVENES'S: INJECTABLE THERAPEUTIC PREPARATION No Drawing. Application December 19;19'4J7;. SerialNo. 7921856 2 Claims; (01.1.67fi-65g),
- general applicability.
In the administration of" penicillin, it is desirable from a therapeutic: standpoint to. maintain an efiective concentration of penicillin in the blood stream for a prolonged period (say,. 24. hours). Onsubcutaneous or intramuscular injection of an aqueous solution of penicillin; the penicillin is; rapidly absorbed into the blood stream (reaching a. maximum concentration therein in about a quarter hour); and rapidly excreted from the body (excretion being practically complete in about three hours); accordingly, injections must be repeated at aboutthreehour intervals or the solution. administered by continuous infusion, which obviously may be inconvenient under many circumstances. Because of the high Water-solubility of penicillin, normaterial improvement in this respect is obtained; by administering the penicillin oil suspension.
By a variety of expedients, most successtully by incorporating beeswaxr in an' oil suspension of penicillin, it is possible to prolong the effective-blood-level period obtained from a single injection. The oil and beeswax constitute a depot-forming carrier from which the penicillin is gradually released into the aqueous tissue fluids, thus retarding (and extending the period of) absorption of the penicillin to such extent that a single daily injection is usually adequate to effect the required penicillin therapy;
Although such oil: and" wax depot preparations. (which are: in current and widespread use) are satisfactory from the standpoint of prol'ongation of the eifective-blood-level period, they have a number of disadvantages. Thus, beeswax: may contain pollen, which may produce allergic reactions; and because. it is not: metabolized by the body, the, beeswax remains. at the site of the injection long after the. penicillin and oil areabsorbed, resulting in local. pain, irritation, and frequently abscesses- Although penicillin and other readilyabsorbed drugs have been. incorporated into depot-forming carriers other than. oil and beeswax prior to 2. this: invention, none of these depot preparations hasbeen satisfactory from all of the standpoints indicated hereinbefore, as well as from such other standpoints as: ad'ministrability by means of a glass-plunger syringe.
It is the object of this: invention to providelimproved depot-forming carriers. for readily-absorbed drugs, improved; depot preparations. of readily-absorbed drugs, and methods. of obtaining such depot-forming carriersand. depot preparations;
It'has been. found. that asuspension of: a physiologically-acceptable, substantially water-insoluble soapin an; oily medium suitable for intramuscular orsubcutaneous administration (here?- inafter referred toas an administrable oilyme.- dium) constitutes an advantageous. depot for the: administration: of readily-absorbed drugs to humansandi other warm-blooded animals, in that the soap adequately retards (and extends the period of) absorption of the drug from the. oily medium, produces littie or no undesirable re.- actions, and gives promise of being non-antigenic and of being ultimately completely assimilated by the body; The depot-forming carriers of this invention maybe produced, filled into. conti'aners, and distributed as such-the depot preparations or this: invention being produced when needed, by incorporation of a readily-absorbed. drug therein; alternatively ("and preferably), the depot preparations of this invention are preformed, filled into containers, and distributed in. a form ready for use.
By substantially water-insoluble soap is meant a substantially water-insoluble salt of an acid capable of forming an ordinary soap. The substantially. water-insoluble soaps comprise the substantially water-insoluble salts ofhigher fatty acids (long-chain, saturated or unsaturated acids, which may be hydroxylated), resinic acids (e. g., abietic, pin-relic, or primaric acid), and acids obtained bysaponi'fying resins of natural origin (:e. g-., col'ophonium or shellac).
In place of the soap component, the depotforming carriers and depot preparations of this invention may include components capable of forming the soap. component in situ, i. e., after administration of the depot preparation. Thus, a retardation and extension of the period of drugabsorption of the same order (with minimum of reactions) may be obtained by substituting for the soap component, physiologically-acceptable components which, oncontact with the aqueous tissue fluids, interact to form a physiologicallya'cceptable, substantially water-insoluble soap.
These components are (I) a soap-forming acid, and (II) a physiologicallyacceptable, substantially water-soluble salt the combination of whose cation with the anion of the soap-forming acid constitutes a physiologically-acceptable, substantially water-insoluble soap. In other words, an advantageous depot-forming carrier for readily-absorbed drugs may be composed of an administrable oily medium, a soap-forming acid and a physiologically-acceptable, substantially water-soluble salt capable of reacting therewith in the presence of water to provide a physiologically-acceptable substantially water-insoluble soap.
The substantially water-insoluble salts of higher fatty acids (or components capable of forming them in situ) especially the calcium and aluminum salts of higher fatty acids-are preferred for the purposes of this invention. These comprise, inter alia: calcium palmitate, calcium stearate, aluminum stearate, magnesium stearate, calcium oleate, zinc stearate, calcium linoleate, calcium laurate, aluminum palmitate, and mixtures thereof; and other calcium, magnesium, zinc, iron, or aluminum salts of such higher fatty acids (or mixtures thereof) as palmitic, stearic, oleic, linoleic, lauric, myristic, ricinoleic, arachidic, linolic, and margaric acid, and cocoanutoil fatty acids.
The components capable of forming the preferred soaps in situ comprise the higher fatty acids (or mixtures thereof) listed in the preceding paragraph, inter alia; and (as the salt for reaction therewith) substantially water-soluble salts of the metals listed in the preceding paragraph with such physiologically-acceptableanion-containing acids as hydrochloric, sulfuric, acetic, phosphoric, gluconic, lactic, and tartaric, inter alia; e. g., calcium lactate, tricalcium phosphate, and calcium gluconate. A substantial stoichiometric excess of either the acid or the salt component should preferably be avoided.
The administrable oily media essentially comprise fatty, non-drying oils of animal or vegetable origin or their synthetic equivalents; inter alia, peanut oil, sesame oil, cottonseed oil, corn oil, soybean oil, synthetic glycerol esters of longchain fatty acids, and mixtures of these and other ils. The consistency and/ or other physical properties of these oils may be modified by inclusion of oil-miscible, physiologically acceptable substances, such as cetyl alcohol, hydrogenated oils (or fats), and ethyl oleate; and by regulation of the consistency of the oily medium and/or proportion of the soap, the rate of absorption of the drug may be controlled.
The depot-forming carriers of this invention may be employed for the administration of any readily-absorbed drug capable of administration by intramuscular or subcutaneous injection whose action it is desired to prolong. Among the readily-absorbed drugs thus administrable are those of the following types, inter alia: anesthetics, such as sodium 5-ethyl-5(l-methylbutyl)thiobarbiturate, procaine hydrochloride, and p-diethylaminoethyl p-ethoxy-benzoate hydrochloride; anti-infectives, especially antibiotics, such as the penicillins (exemplified by the sodium, potassium, and calcium salts of penicillins G, F, K, X, and dihydro-F) the streptomycins, and therapeutically-effective derivatives thereof (exemplified by the following salts and therapeutically-effective derivatives; sulfate; phosphate; hydrochloride; calcium chloride double salt; interaction product with pectin; salt-type 4 combination with a higher fatty acid, such as described in application Serial No 762,205, filed July 19, 1947; and salt-type combination with a surface-active agent of the organically-substituted polybasic inorganic acid type, such as described in application Serial No. 767,852, filed August 9, 1947, now Patent No. 2,537,934, issued January 9, 1951), and bacitracin; hormones and synthetic substitutes, such as testosterone and its esters, progesterone, crystalline and noncrystalline estrone, insulin, anterior-pituitary hormones, and desoxy-corticosterone acetate; vitamins and substitutes, such as vitamin A, vitamin D, menadione, thiamine hydrochloride, riboflavin, ascorbic acid, pyridoxine hydrochloride, folic acid, tocopherols, and niacinamide; sympathomimetic agents, such as epinephrin, amphetamine sulfate, and d-desoxyephedrine hydrochloride; sedatives and hypnotics, such as pentobarbital sodium; antihistaminics, such as p-dimethylaminoethyl benzhydryl ether hydrochloride and N'pyridyl-N'benzyl-N-dimethylethylenediamine monohydrochloride; antispasmodics, such as curare and d-tubocurarine chloride; and anticoagulants, such as sodium heparin.
The depot-forming carriers and depot prepara tions of this invention may include components in addition to the soap (or soap-forming components), oily medium (including modifiers), and drug (in the case of depot preparations). Thus, the depot preparations may include additional drugs (for multiple drug effect); and both the depot-forming carriers and depot preparations may include drugs for local action in connection with the injection (e. g., anesthetic), a sterilizing agent (to maintain the sterility of multipledose preparations, for example), pectin (or other hydrophilic, readily-absorbable polysaccharide forming a gel on contact with aqueous tissue fluids, and thus further retarding and extending the period of absorption of the drug), and/or other substances.
The amount of the soap (or soap-forming components) used in the depot-forming carriers and depot preparations of this invention may be varied Within wide limits. Thus, the amount should be enough to provide undissolved (suspended) soap, absorption-retardation being primarily attributable to that portion of the soap undissolved in the oily medium; and the amount should, of course, not be so great as to make the preparation too viscous for administration. Also, the amount of readily-absorbed drug in the depot preparations of this invention may be varied, within obvious limits. Thus, the amount must, of course, be enough to give the desired therapeutic effect for the desired period; and the upper limit is imposed, of course, by pharmacological considerations (effect and toxicity) as well as by the physical character of the preparation (e. g., viscosity).
The depot-forming carriers of this invention are produced by suspending the soap (or incorporating the soap-forming components) in the oily medium; and the depot preparations of this invention are produced by incorporating (i. e., dissolving and/or suspending) the drug and suspending the soap in the oily medium (the sequence of these operations being variable) preferably by first suspending the soap in the oily medium and then incorporating the drug in the suspension. Preferably, also, any modification of the oil by inclusion of an oil-miscible, physiologically-acceptable substance should be effected first, especially if heating is required (as when incorporating a hydrogenated oil). Those compone ts susp nded in th ily medium (the s ap and, in some cases, the readily-absorbable drug, inter alia) should desirably be in finely-divided form; but further retardation and extension of the period of absorption of the drug may be ob tained, in some cases (e. .g., that of penicillin), by having the drug particles of larger size, compatible, however, with passage of the preparation through a hypodermic needle.
The finely-divided form of the soap may be effected, for example, by suitable grinding (after chilling, where necessary) and screening, or by other mechanical means for reducing particle size; e. g., micronizing or micropulverizing. An especially-fine subdivision of the soap (and a highly advantageous form in that it materially increases the retardant effect of the soap and/or enables use of a materially smaller amount thereof) is effected by heating a mixture of the soap and the oily medium until the soap desolidifies (i. e., dissolves or flows in the oily medium), and agitating the mixture during cooling until the soap forms a highly dispersed solid phase in the oily medium. The finely-divided state of the drug (if a suspension thereof is to be formed) may be effected, for example, by freeze-drying an aqueous solution thereof (i. e., freezing the solution, and subjecting the solid to a high vacuum to sublime oil the water) Alternatively, where a suspension of the drug is to be formed, the soap may be so incorporated as to facilitate association of the soap particles with the drug particles. Thus, the associated drug and soap particles may be formed by incorporating both in the oily medium and grinding them therein to the desired particle size; or the soap may be precipitated (by chemical or physical means) in the oily medium containing the drug particles. Precipitation may be effected in the following ways, inter alia: by heating a mixture of the soap with a suspension of the drug in the oily medium until the soap desolidifies, and agitating the mixture during cooling until the soap forms a highly dispersed solid phase in the oily medium; and (where the presence of a small amount of water is not deleterious) by adding to the suspension of the drug in the oily medium the soap-forming components described hereinbefore, adding an amount of water sumcient to enable interaction between these soap-forming components, and thoroughly mixing to cause soapformation and precipitation of the soap in the presence of the suspended drug.
The examples following are illustrative of the invention. [Certain conditions, techniques, results, etc. of general applicability are mentioned here to avoid repetition in each of the examples: Unless other means are specified, solution (e. e., of the modifier in the oil to provide the oily medium) is eifected by Warming, and/or stirring; and suspension (e. g., of the soap, or soap-forming components, in the oily medium) or thorough mixing, is effected in a high-speed mechanical mixer, or a homogenizer. Those preparations containing no components deleteriously affected thereby are heat-sterilized; otherwise, the necessary sterility is obtained by pro-sterilizing the components, and combining them, subdividing the preparation, and filling it into pro-sterilized containers, all under aseptic conditions. Any component not dissolved in the oily medium should be of such particle size as to permit of its ready passage through a hypodermic needle. Containers of the type heretofore employed for penicillin-oil-wax preparations (e. g., cartridges and vials) are employable for the preparations described the examples. On administration of each of these preparations (subcutaneously, or preferably, by intramuscular injection), the particular drug is slowly absorbed, and its eifect is maintained over an adequately prolonged period (thus, a single daily intramuscular injection of 1 ml. of the preparation described in Example 3. containing 300,000 units/ml, maintains a therapeutically-effective blood concentration of penicillin for about 24 hours or more, and hence is usually adequate to effect the required penicillin therapy) the incidence of undesirable reactions is so low that the preparations are capable of general use; and the preparations are suiiiciently stable to withstand the effect of time, temperature variation, and other factors involved in modern large-scale distribution] Example 1 3.5 g. hydrogenated peanut oil is dissolved in 82.5 ml. peanut oil; 10 g. zinc stearate is suspended in the solution; and 24 g. crystalline sodium-penicillin G is thoroughly mixed with the suspension.
Example 2 12 g. stearic acid is dissolved in 82.5 ml. peanut oil; and 12 g. calcium lactate (screened through a 200-mesh screen) and 24 g. crystalline sodiumpenicillin G are added to the solution, and thoroughly mixed therewith.
Example 3 2.5 g. hydrogenated peanut oil is dissolved in $2.5 m1. peanut oil; 15 e. calcium stearate (about 40- mesh) mixed with the oily medium; the mixture is heated until the calcium stearate flows in the oily medium; the mixture is then stirred during cooling (the calcium stearate forming a highly-dispersed solid phase in the oily medium) and, while continuing the stirring (and after the temperature of the mixture has fallen to 140 C. or lower), 24 g. crystalline sodium-penicillin G is added and thoroughly mixed therewith.
Example 4 26 g. calcium stearate is added to 325 ml. peanut oil, and the mixture is (heat) treated as described in Example 3; and after the calcium stearate has formed a highly-dispersed solid phase in the oil and the temperature has fallen to 140 C. or lower, g. crystalline sodium-penicillin G is added and thoroughly mixed therewith.
The calcium stearate in this preparation may be replaced by an equal weight of calcium oleate, calcium palmitate, magnesium stearate or zinc stearate, The magnesium stearate, and zinc stearate (unlike the calcium stearate, calcium oleate and calcium palmitate) dissolve in the oily medium on heating (at about C. and C., respectively), but when stirred during cooling also form a highly dispersed solid phase in the oily medium.
Example 5 2.5 g. hydrogenated peanut oil is dissolved in 90 ml. peanut oil; 7.5 g. calcium stearate is added to the oily medium, and the mixture is (heat) treated as described in Example 3; and after the calcium stearate has formed a highly-dispersed solid phase in the oily medium and the tempera ture has fallen to C. or lower, 24 g. crystalline sodium-penicillin G is added and thoroughly mixed therewith.
Example 6 Example 7 1.0 g. hydrogenated peanut oil is dissolved in 30.6 ml. peanut oil; 4.35 g. calcium stearate is incorporated in the solution by warming (the apparent solution resulting containing, on cooling, at least part of the calcium stearate in finelydivided suspended form); and 15 g. commercial streptomycin hydrochloride (having a potency of 533 units/mg.) is thoroughly mixed therewith.
Example 8 3.4 g. hydrogenated peanut oil is dissolved in 53 ml. peanut oil; 9.3 g. calcium stearate is incorporated in the solution by warming; and 3.1 g. of a dry mixture obtained by freeze-drying a dilute aqueous solution of equal parts d-tubocurarine chloride and calcium lactate (cf. Burke and Jurist application Serial No. 700,370, filed October 1, 1936, now Patent No. 2,476,082, dated July 12, 1949) is thoroughly mixed therewith.
Example 9 g. hydrogenated peanut oil is dissolved in 100 ml. peanut oil; 15 g. aluminum palmitate is incorporated in the oily medium in the manner described in Example 3; and 6 g. fi-diethyl-amino ethyl p-ethoxy-benzoate is dissolved therein.
Example 10 2.0 g. hydrogenated peanut oil is dissolved in 70 ml. peanut oil; g. aluminum stearate is incorporated in the oily medium in the manner described in Example 3; and g. sodium heparin is thoroughly mixed therewith.
Example 11 5.0 g. hydrogenated peanut oil is dissolved in 80 ml. peanut oil; 15 g. calcium stearate is incorporated in the solution by Warming; and 0.800
8 g. crystalline insulin is thoroughly mixed therewith.
The invention may be variously otherwise embodied within the scope of the appended claims.
We claim:
1. A substantially anhydrous non-gelled injectable therapeutic preparation comprising a therapeutically-effective salt of penicillin dispersed in a suspension of a calcium salt of a physiologicallyacceptable soap-forming acid in an injectable, fatty, non-drying oil, the quantity of such salt being sufficient to provide a solid phase thereof in the oil and thereby maintain prolonged effective blood levels of penicillin upon injection of said preparation compared with the blood levels obtained upon injection of a similar preparation not containing such salt.
2. A substantially anhydrous non-gelled injectable therapeutic preparation comprising a therapeutically-ellective salt of penicillin carried by a suspension of calcium stearate in an injectable, fatty, non-drying oil, the quantity of calcium stearate being sufficient to provide a solid phase thereof in the oil and thereby maintain prolonged effective blood levels of penicillin upon injection of said preparation compared with the blood levels obtained upon injection of a similar preparation not containing calcium stearate.
ALFRED E. JURIST. JOHN C. BURKE. W. E. GAUNT.
References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,925,745 Klopfer Sept. 12, 1933 2,163,588 Cornish June 27, 1939 2,327,564 Scherer Aug. 24, 1943 2,476,082 Burke July 12, 1949 2,507,193 Buckwalter May 9, 1950 FOREIGN PATENTS Number Country Date 417,715 Great Britain Oct. 1, 1934 590,818 Germany Jan. 11, 1934 OTHER REFERENCES Ohio State Medical Journal, August 1942, page 756.
Claims (1)
1. A SUBSTANTIALLY ANHYDROUS NON-GELLED INJECTABLE THERAPEUTIC PREPARATION COMPRISING A THERAPEUTICALLY-EFFECTIVE SALT OF PENICILLIN DISPERSED IN A SUSPENSION OF A CALCIUM SALT OF A PHYSIOLOGICALLYACCETPABLE SOAP-FORMING ACID IN AN INJECTABLE, FATTY, NON-DRYING OIL, THE QUANTITY OF SUCH SALT BEING SUFFICIENT TO PROVIDE A SOLID PHASE THEREOF IN THE OIL AND THEREBY MAINTAIN PROLONGED EFFECTIVE BLOOD LEVELS OF PENICILLIN UPON INJECTION OF SAID PREPARATION COMPARED WITH THE BLOOD LEVELS OBTAINED UPON INJECTION OF A SIMILAR PREPARATION NOT CONTAINING SUCH SALT.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US792856A US2661315A (en) | 1947-12-19 | 1947-12-19 | Prolonged-effectiveness injectable therapeutic preparation |
US394864A US2719103A (en) | 1947-12-19 | 1953-11-20 | D-tubo-curarine chloride in suspension of water-insoluble soap in injectable oil |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US792856A US2661315A (en) | 1947-12-19 | 1947-12-19 | Prolonged-effectiveness injectable therapeutic preparation |
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US2661315A true US2661315A (en) | 1953-12-01 |
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US792856A Expired - Lifetime US2661315A (en) | 1947-12-19 | 1947-12-19 | Prolonged-effectiveness injectable therapeutic preparation |
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Cited By (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2719103A (en) * | 1947-12-19 | 1955-09-27 | Olin Mathieson | D-tubo-curarine chloride in suspension of water-insoluble soap in injectable oil |
US2805977A (en) * | 1955-01-04 | 1957-09-10 | Smith Kline French Lab | Sustained release pharmaceutical preparation |
US2822316A (en) * | 1954-10-19 | 1958-02-04 | Schering Ag | Estrone solutions containing ethyl lactate and castor oil |
US2902408A (en) * | 1957-09-12 | 1959-09-01 | Organon | Suspensions of drugs destined for injection and process for the preparation thereof |
US2928769A (en) * | 1957-07-22 | 1960-03-15 | Strong Cobb And Company Inc | Production of controlled release medicaments |
US2928771A (en) * | 1957-07-22 | 1960-03-15 | Strong Cobb And Company Inc | Production of orally administrable controlled release medicaments |
US2983649A (en) * | 1957-10-15 | 1961-05-09 | Francesco Vismara Societa Per | Ricinoleic acid ester solutions of adreno-cortical hormones |
US3016330A (en) * | 1955-11-10 | 1962-01-09 | Novo Terapeutisk Labor As | Therapeutical antibiotic composition |
US3077438A (en) * | 1960-12-02 | 1963-02-12 | Warner Lambert Pharmaceutical | Stabilization of orally administrable methenamine mandelate sesame oil suspensions containing 12-hydroxy stearic acid triglyceride |
US3105793A (en) * | 1956-11-28 | 1963-10-01 | Lobel Mervyn Joseph | Injectable medicinal composition |
US3172816A (en) * | 1963-01-28 | 1965-03-09 | Smith Kline French Lab | Method of increasing the oil solubility of compounds and products thereof |
US3531565A (en) * | 1969-09-25 | 1970-09-29 | American Cyanamid Co | Stable adjuvant emulsion compositions comprising hydrated salts of a polyvalent metallic cation and a higher fatty acid |
US3985871A (en) * | 1974-04-04 | 1976-10-12 | Crinos Industria Farmacobiologica S.P.A. | Pharmaceutical heparinoidic factor-containing composition and therapeutic use thereof |
US5411951A (en) * | 1984-10-04 | 1995-05-02 | Monsanto Company | Prolonged release of biologically active somatotropin |
US5474980A (en) * | 1984-10-04 | 1995-12-12 | Monsanto Company | Prolonged release of biologically active somatotropins |
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US2327564A (en) * | 1941-05-24 | 1943-08-24 | Robert P Scherer | Anthelmintic composition |
US2476082A (en) * | 1946-10-01 | 1949-07-12 | Squibb & Sons Inc | Prolonged-action preparations of d-tubocurarine salts and methods of preparing same |
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US1926745A (en) * | 1931-05-27 | 1933-09-12 | Klopler Volkmar | Production of colloidal solutions of metal iodides |
DE590818C (en) * | 1931-10-11 | 1934-01-11 | Draegerwerk Heinr U Bernh Drae | Skin protection products |
GB417715A (en) * | 1932-12-29 | 1934-10-01 | Ig Farbenindustrie Ag | Improvements in the manufacture and production of pharmaceutical preparations |
US2163588A (en) * | 1935-11-23 | 1939-06-27 | Robert E Cornish | Hemorrhage arrester |
US2327564A (en) * | 1941-05-24 | 1943-08-24 | Robert P Scherer | Anthelmintic composition |
US2476082A (en) * | 1946-10-01 | 1949-07-12 | Squibb & Sons Inc | Prolonged-action preparations of d-tubocurarine salts and methods of preparing same |
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Cited By (16)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2719103A (en) * | 1947-12-19 | 1955-09-27 | Olin Mathieson | D-tubo-curarine chloride in suspension of water-insoluble soap in injectable oil |
US2822316A (en) * | 1954-10-19 | 1958-02-04 | Schering Ag | Estrone solutions containing ethyl lactate and castor oil |
US2805977A (en) * | 1955-01-04 | 1957-09-10 | Smith Kline French Lab | Sustained release pharmaceutical preparation |
US3016330A (en) * | 1955-11-10 | 1962-01-09 | Novo Terapeutisk Labor As | Therapeutical antibiotic composition |
US3105793A (en) * | 1956-11-28 | 1963-10-01 | Lobel Mervyn Joseph | Injectable medicinal composition |
US2928769A (en) * | 1957-07-22 | 1960-03-15 | Strong Cobb And Company Inc | Production of controlled release medicaments |
US2928771A (en) * | 1957-07-22 | 1960-03-15 | Strong Cobb And Company Inc | Production of orally administrable controlled release medicaments |
US2902408A (en) * | 1957-09-12 | 1959-09-01 | Organon | Suspensions of drugs destined for injection and process for the preparation thereof |
US2983649A (en) * | 1957-10-15 | 1961-05-09 | Francesco Vismara Societa Per | Ricinoleic acid ester solutions of adreno-cortical hormones |
US3077438A (en) * | 1960-12-02 | 1963-02-12 | Warner Lambert Pharmaceutical | Stabilization of orally administrable methenamine mandelate sesame oil suspensions containing 12-hydroxy stearic acid triglyceride |
US3172816A (en) * | 1963-01-28 | 1965-03-09 | Smith Kline French Lab | Method of increasing the oil solubility of compounds and products thereof |
US3531565A (en) * | 1969-09-25 | 1970-09-29 | American Cyanamid Co | Stable adjuvant emulsion compositions comprising hydrated salts of a polyvalent metallic cation and a higher fatty acid |
US3985871A (en) * | 1974-04-04 | 1976-10-12 | Crinos Industria Farmacobiologica S.P.A. | Pharmaceutical heparinoidic factor-containing composition and therapeutic use thereof |
US5411951A (en) * | 1984-10-04 | 1995-05-02 | Monsanto Company | Prolonged release of biologically active somatotropin |
US5474980A (en) * | 1984-10-04 | 1995-12-12 | Monsanto Company | Prolonged release of biologically active somatotropins |
US5595971A (en) * | 1984-10-04 | 1997-01-21 | Monsanto Company | Prolonged release of biologically active polypeptides |
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