WO1993024154A1 - Biodegradable controlled release melt-spun delivery system - Google Patents
Biodegradable controlled release melt-spun delivery system Download PDFInfo
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- WO1993024154A1 WO1993024154A1 PCT/US1993/005307 US9305307W WO9324154A1 WO 1993024154 A1 WO1993024154 A1 WO 1993024154A1 US 9305307 W US9305307 W US 9305307W WO 9324154 A1 WO9324154 A1 WO 9324154A1
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/70—Web, sheet or filament bases ; Films; Fibres of the matrix type containing drug
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L17/00—Materials for surgical sutures or for ligaturing blood vessels ; Materials for prostheses or catheters
- A61L17/005—Materials for surgical sutures or for ligaturing blood vessels ; Materials for prostheses or catheters containing a biologically active substance, e.g. a medicament or a biocide
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L2300/00—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices
- A61L2300/40—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices characterised by a specific therapeutic activity or mode of action
- A61L2300/404—Biocides, antimicrobial agents, antiseptic agents
- A61L2300/406—Antibiotics
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L2300/00—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices
- A61L2300/40—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices characterised by a specific therapeutic activity or mode of action
- A61L2300/43—Hormones, e.g. dexamethasone
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L2300/00—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices
- A61L2300/60—Biologically active materials used in bandages, wound dressings, absorbent pads or medical devices characterised by a special physical form
- A61L2300/602—Type of release, e.g. controlled, sustained, slow
- A61L2300/604—Biodegradation
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S424/00—Drug, bio-affecting and body treating compositions
- Y10S424/13—Burn treatment
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S424/00—Drug, bio-affecting and body treating compositions
- Y10S424/15—Suppositories
Definitions
- the present invention relates to a new controlled release delivery system using melt spun biodegradable polymers as a carrier or host material for a bio- effecting agent such as a pharmaceutical active or a hormonal compound.
- sustained release drug delivery has many important non-therapeutic ramifications as well, including a financial saving to the patient in terms of less lost work days, less hospitalization and fewer visits to the physician.
- Controlled release of actives has conventionally focused on oral dosage forms such as tablets and capsules, where release of the active was accomplished by diffusion through or erosion of the matrix.
- Conventional formulations use waxes or hydrophilic gums as the primary drug carriers to prolong the release of the active.
- wax formulations the drug is dispersed in the wax matrix in a molten state. This method has the disadvantage of possible decomposition and/or crystalline formation of the drug, rendering it less active or effective as a therapeutic agent.
- Other systems using polymeric coatings or laminates on the tablets to delay tablet disintegration and protect the active from prematurely releasing in the stomach where gastric secretions would destroy its activity.
- Still other systems use water- swellable hydrogel matrices to control the release of the agent by surface-to-center swelling of the matrix and subsequent diffusion of the agent.
- water- swellable hydrogel matrices to control the release of the agent by surface-to-center swelling of the matrix and subsequent diffusion of the agent.
- biodegradable polymers as matrices or carriers for drugs has become more prevalent.
- biodegradable articles such as dispensing vehicles, which are implanted in the animal, are intended to be broken down or degraded by the animal body into residues or moieties which are absorbed, metabolized or otherwise naturally removed by the body.
- melt-spinning techniques involve the use of melt-spinning techniques.
- U.S. Patent No 4,335,232 to Irwin discloses melt-spinning aromatic copolyesters
- U.S. Patent No. 4,072,658 to Okamato, et al. discloses melt-spinning of polystyrene.
- These conventional melt-spinning techniques involve subjecting a feedstock to sustained heat treatment and are described in F. Billmeyer, Jr., Textbook Of Polymer Science. 518-522 (Wiley International Edition 2d) .
- melt-spinning procedures require melting the polymer or dissolving the polymer in solution (an exception is the aqueous dispersion of a polymer, such as polytetrafluoroethylene) , followed by removal of the liquid and sintering.
- molten polymer is pumped at a constant rate under high pressure through a plate having a number of small holes, which is referred to as a spinneret.
- Polymer is melted, usually by contacting it with a hot grid or by use of an extrusion-type screw, and passed directly to a meter pump. Filaments emerge from the spinneret into air where it begins to cool. As the fibers solidify, they are brought together and drawn to orient the fibers.
- the polymer or polymer derivative is put into solution prior to forming the fiber.
- thermoplastic processing techniques when applied to drugs and other active agents suffer from a number of obvious drawbacks. Processing temperatures encountered in the polymeric melt stage vary with the type of polymer and are often too high to retain stability of the drug. Drug/polymer interactions or degradation of the drug may occur, rendering the drug inactive or less effective for its intended purpose. Biodegradable polymers such as polyanhydrides require higher molecular weights in order to avoid brittleness during solvent casting and maintain their structural integrity in the resultant products.
- the present invention has distinct advantages with respect to the use of crystalline polymers as compared to conventional biodegradable systems.
- the compositions of the present invention allow for greater amorphous character in the final product which results in a faster rate of polymer degradation and consequently a faster release of drug or active from the polymer matrix.
- the ability of the present invention to provide a higher degree of amphorous character to the spun matrix allows for the use of polymers which before would have been considered as having too high degree of crystallinity to be able to release in many applications.
- the conversion of crystalline polymers to a more amorphous state also allows for a more predictable degradation rate.
- the present invention thus provides compositions having a higher ratio of amorphous polymer to crystalline polymer, which provides an important advantage over conventional polymer processing.
- Amorphous polymers also tend to provide more uniform release characteristics as compared to crystalline polymers and enhance the bioavailability of the active.
- U.S. Patent No. 4,855,326 discloses combining sugar with a medicament and spinning the combination into a readily water-soluble floss or fiber.
- U.S. Patent No. 5,011,532 the disclosure deals with oleaginous substances such as vegetable oil, baby oil, margarine, lanolin, cocoa butter and the like, and how their lack of affinity for water is altered by mixing the oleaginous substance with sugar and melt-spinning the mixture in cotton candy spinning machines or the equivalent. As so modified, the products disperse in water forming a colloidal or pseudocolloidal dispersion.
- the products described in the above-mentioned patents and applications are all produced by processing in a cotton candy machine. Illustrative of a cotton candy machine is the Econo Floss Model 3017 manufactured by Gold Medal Products Co. of Cincinnati, Ohio.
- the process described in the above- identified disclosures involve the use of sugar(s) as a feedstock material which is spun to produce a material such as a floss, fiber, and the like. Accordingly, the technology described in the above-identified disclosures relies on the physical characteristics of sugar.
- Figure 1 is a graph showing the amount of vancomycin drug released from the polyglycolide polymer matrix.
- Figure 2 is an enlargement of a portion of the graph in Figure 1 to better show the release profile in days 6- 14.
- the present invention relates to unique controlled release compositions and their methods of preparation. More particularly, the present invention relates to biodegradable controlled release compositions formed by melt-spinning a non-saccharide biodegradable polymer and a bio-effecting agent.
- biodegradable shall mean the ability to be degraded by processes involving biological conditions, such as those present in the bodies of humans or other animals. More specifically, this term indicates the physical or chemical breaking down of the polymer into smaller units which are preferably innocuous, non-toxic and are readily eliminated or metabolized by the body.
- the term includes the concepts of erosion and diffusion. Erosion is generally classified either as heterogeneous or homogeneous. The former refers to surface erosion of the polymer matrix containing the active, and the latter refers to erosion beneath the surface into the body of the matrix containing the active. Biodegradation is the principle allowing for release of the active material and absorption of the degradation products.
- pH-sensitive polymers may be chosen if the purpose is to bypass release in the stomach and deliver sustained levels in the small intestine.
- the composition is to be implanted in the body, such as in a closed wound, the polymer should be sufficiently stable without hydrolysis of the polymer for a desired period.
- controlled release is intended to mean the release of active at a pre-selected or desired rate. This rate will vary depending upon the application. Desirable rates include fast or immediate release profiles as well as delayed, sustained or sequential release. Combinations of release patterns, such as initial spiked release followed by lower levels of sustained release of active are contemplated.
- bio-effecting active includes therapeutic agents such as pharmaceutical or pharmacological active agents, e.g., drugs and medicaments, as well as prophylactic agents, diagnostic agents and other chemicals or materials useful in treating or preventing conditions, infections and disease found in animals.
- therapeutic agents such as pharmaceutical or pharmacological active agents, e.g., drugs and medicaments, as well as prophylactic agents, diagnostic agents and other chemicals or materials useful in treating or preventing conditions, infections and disease found in animals.
- compositions of the present invention are particularly effective in humans and other mammals, but are intended for use in other animals such as fish and birds, or plants, insects and other organisms.
- water-soluble and water-insoluble drugs have been found to be useful in the delivery systems covered by the invention.
- water-soluble and water-insoluble drug will have the following definitions.
- Water-soluble will mean that up to 30 parts of solvent are required to completely dissolve 1 part of drug.
- water- insoluble will mean greater than 30 parts of solvent are required to dissolve 1 part of the drug.
- USP XXII page 1807 incorporated herein by reference.
- the compositions can be used to obtain specific controlled release profiles, combining aspects of immediate release, intermediate release, and sustained release in one formulation.
- melt-spinning has been used in the claims. However, in the context of the present invention "melt-spinning” means subjecting solid feedstock i.e. biodegradable polymer/bio-effecting active combinations to the combination of temperature, thermal gradients, mechanical forces, flow, and flow rates during processing which is comparable to that applied to the feedstock during operation of a machine for producing cotton candy. This is in contrast to the use of the term melt-spinning in the polymer-processing art.
- melt-spinning is used by the polymer technician to describe processes for extruding polymers which are held under liquid or melted conditions for comparatively long periods of time before being extruded under direct pressure through an orifice.
- Flash flow is referred to in the present process as a phenomena which occurs when a solid carrier material (e.g., thermoplastic material) is subjected to conditions of temperature and shear sufficient to provide internal flow at a subparticle level. This condition produces a transformation of physical and/or chemical structure without degradation of the material.
- Internal flow occurs when the infrastructure of the material breaks down sufficiently to permit movement of the material at a subparticle level, and probably at a molecular level. At a molecular level, internal flow contemplates the movement of molecules relative to each other.
- Flash-flow processing can be accomplished several ways. Flash heat and flash shear are two such processes which can be used.
- the feedstock material is heated sufficiently to create an internal flow condition which permits part of the feedstock to move at a subparticle level with respect to the rest of the mass and exit openings provided in the perimeter of the spinning head.
- the centrifugal force created in the spinning head flings the flowing feedstock material outwardly from the head so that it reforms with a changed structure.
- the force required to separate and discharge flowable feedstock is only centrifugal force which results from the spinning head.
- the flash heat process is one process for producing an amorphous matrix such as the sugar floss used in this invention.
- a shearform matrix is formed by raising the temperature of the feedstock material which includes a non-solubilized carrier to a point where the carrier such as a saccharide-based material undergoes internal flow upon application of a fluid shear force.
- the feedstock is advanced and ejected while in internal flow condition, and subjected to disruptive fluid shear forces to form multiple parts or masses which have morphology different from that of the original feedstock.
- the multiple masses are cooled substantially immediately after contact with the fluid shear force and are permitted to continue in a free-flow condition until solidified.
- the flash shear process can be carried out in an apparatus which has means for increasing the temperature of a non-solubilized feedstock and means for simultaneously advancing it for ejection.
- a multiple heating zone twin screw extruder can be used for increasing the temperature and advancing feedstock.
- the second element of the apparatus is a means for ejecting the feedstock in a condition for shearing it to provide the shearform matrix.
- the means for ejecting is in fluid communication with the means for increasing the temperature and is arranged at the point to receive the feedstock while it is in the internal flow conditions.
- the means for ejecting the feedstock is preferably a nozzle which provides high pressure ejection of the feedstock material.
- thermoplastic material is subjected to flash flow sufficiently to deform and pass through an opening under minimum amount of force.
- the force used in the present preferred embodiments of the invention is centrifugal force provided by a spinning head from which the deformed flowable material is thrown at high speed. No external force is imposed on the flowable thermoplastic material after it is flung out of the spinning head.
- the thermoplastic material instantaneously reforms as a solid having altered physical and/or chemical structure. The altered structure results from the forces acting on the material as it exits the head and is hurled outwardly during the brief period during which it experiences flash flow.
- the flash flow phenomena of the present invention occurs in not more than one second, preferably on the order of tenth of seconds, e.g., not more than about 0.4 seconds, and most preferably on the order of milliseconds and certainly not more than 0.1 seconds.
- This unique phenomena can be produced by relatively high speed distribution of the thermoplastic material to an environment of elevated temperature under a constant force, such as centrifugal force, caused by high speed rotation of a continuous-wall spinning head.
- a mechanism for producing such a combination is a cotton candy making machine. Variations of such an apparatus are contemplated for use in the present invention.
- the important aspect is that the flash flow phenomena be induced in a solid feedstock for rapid transition to solid thermoplastic material having an altered structure from that of the feedstock.
- Those polymers useful as carrier materials for the bio-affecting actives include non-saccharide polymers and copolymers which are substantially biocompatible and biodegradable. Mixtures of polymers as well as layers of polymers are contemplated.
- the polymers must be capable of undergoing melt-spin processing as defined herein. These polymers should have a balance of hydrophobic/hydrophilic characteristics to resist attack by body fluids, e.g., hydrolysis, for a desired time, yet be degradable to allow for controlled release. Biocompatability, low toxicity and a high degree of amorphous characteristics are important. In applications involving tissue implants, a low glass transition temperature is desirable for pliability and comfort. Hydrolytic labile backbone or side chains contribute to the degradative process.
- the present invention also relates to unique methods of preparing controlled release melt-spun delivery systems for actives including subjecting a biodegradable non-saccharide polymeric carrier and a bio-affecting active to melt-spinning to unite said polymer and active under conditions which produce a solid capable of releasing said active under conditions found in the body of an animal.
- a method of treatment for diseases and other conditions found in the body is also disclosed. Such a treatment involves the administration of an effective amount of a biodegradable controlled release composition comprising a non-saccharide biodegradable polymeric carrier and a bio-effecting therapeutic or prophylactic agent.
- the present invention also relates to novel solid sustained released delivery systems and products made therefrom obtained by subjecting a biodegradable spinnable non-saccharide host polymer and a guest bio-effecting active to flash flow processing.
- Those polymers which are useful in the present invention include any melt-spinnable thermoplastic polymers which are capable of biodegrading under conditions found in the body of animals.
- the polymers should be capable of being melt- spun as defined herein.
- the melting points and glass transition temperatures of these polymers may vary widely, as will their molecular weights.
- the speed, temperature and time of the melt-spinning apparatus can be adjusted accordingly to accommodate these property variations and produce a product useful for controlled release.
- the polymer must therefore be capable of undergoing flash flow as described herein.
- the polymers are processed according to the present invention in the substantial absence of solvent, and accomplishes the transformation from a crystalline state to an amorphous state through the flash-flow process.
- a polymer/bio-effecting active combination may take a number of solid or solid-like forms such as flakes, chips, floss, fibers, ribbons and the like. These product forms can be used in that form or further modified into other delivery forms for specific application.
- any biodegradable thermoplastic polymer that can be subjected to melt- spinning as defined herein without being degraded, burnt or otherwise damaged can be used as the carrier for the bio-effecting active. Melt-spinning a mixture of such polymer and active produces a trapped form of said active agent which isolates the active agent from its surroundings yet permits slow release in the appropriate fluid environment.
- carrier or active is that neither be degraded or rendered substantially inactive while being melt-spun.
- the polymer carrier and active agent should be chemically compatible.
- Useful polymeric materials include polymers, copolymers, block polymers and mixtures thereof.
- PGA poly(glycolic acid)
- PLA poly(lactic acid)
- PDA poly(lactic acid)
- polydioxanes polyoxalates
- poly( ⁇ -esters) polyanhydrides
- polyacetates polycaprolactones
- poly(orthoesters) polyamino acids
- polyurethanes polycarbonates
- polyiminocarbonates polyamides
- poly(alkyl cyanoacrylates) and mixtures and copolymers thereof.
- Additional useful polymers include, stereopolymers of L- and D-lactic acid, copolymers of bis(p-carboxyphenoxy) proprionic acid and sebacic acid, sebacic acid copolymers, copolymers of caprolactone, poly(lactic acid)/poly(glycolic acid)/polyethyleneglycol copolymers, copolymers of polyurethane and poly(lactic acid) , copolymers of ⁇ -amino acids, copolymers of ⁇ -amino acids and caproic acid, copolymers of ⁇ -benzyl glutamate and polyethylene glycol, copolymers of succinate and poly(glycols) , polyphosphazene, polyhydroxy-alkanoates and mixtures thereof. Binary and ternary systems are contemplated.
- Medisorb and Biodel trademarks include those marketed under the Medisorb and Biodel trademarks.
- the Medisorb materials are marketed by the Dupont Company of Wilmington, Delaware and are generically identified as a "lactide/glycolide polymer" containing "propanoic acid, 2-hydroxy-polymer with hydroxyacetic acid.”
- Four such polymers include Medisorb 100L, believed to be 100% lactide having a melting point within the range of 338°- 347°F (170 ⁇ -175 ⁇ C) ; Medisorb 100DL, believed to be 100% glycolide having a melting point within the range of 437 ⁇ -455°F (225 ⁇ -235 ⁇ C) ; Medisorb 85:15DL, believed to be a copolymer of propionic acid, 2 hydroxypolymer and hydroxyacetic acid and having 85 mole percent lactide and 15 mole percent glycolide; and Medisorb 50:50DL, believed to be a copolymer of propionic acid, 2-hydroxypol
- Biodel materials represent a family of various polyanhydrides which differ chemically.
- Certain polymers exhibit particularly useful permeation rates for specific drugs.
- polycaprolactones are known to have high permeation rates to steroids such as testosterone, progesterone and norgestral.
- a particular polymer can be chosen for its ability to release certain drugs in a particular release profile.
- the present invention allows for the production of products having a high degree of amorphous character. Since the rate of degradation is known to be hindered or decreased by higher degrees of crystallinity and enhanced or increased by higher degrees of amorphous character, the compositions of the present invention have enhanced and more predictable rates of degradation of the polymer matrix. A more rapid and controlled degradation allows for both a faster and more controlled release of the active material.
- the conversion of the polymers from a highly crystalline state to a relatively high amorphous state as compared to conventional polymer processing techniques provides a unique ability to use in the starting materials polymers which previously would have been considered too highly crystalline to provide appropriate release profiles. Thus, not only does this benefit may of the known applications but also opens up numerous new applications for highly crystalline starting materials.
- the bio-affecting active may be selected from any suitable drug, therapeutic or prophylactic agent which can be melt-spun with a selected polymer without losing substantial activity for the chosen therapy.
- a broad range of materials are therefore useful and but for the limitations discussed above, the invention contemplates the classes of water-soluble and water-insoluble actives.
- Non-limiting classes of drugs useful include those falling into the following therapeutic categories: ace-inhibitors; anti-anginal drugs; anti-arrhythmias; anti-asthmatics; anti-cholesterolemics; anti-convulsants; anti-depressants; anti-diarrhea preparations; anti- histamines; anti-hypertensive drugs; anti-infectives; anti-inflammatory agents; anti-lipid agents; anti-manics; anti-nauseants; anti-stroke agents; anti-thyroid preparations; anti-tumor drugs; anti-tussives; anti- uricemic drugs; anti-viral agents; acne drugs; alkaloids; amino acid preparations; anabolic drugs; analgesics; anesthetics; angiogenesis inhibitors; antacids; antiarthritics; antibiotics; anticoagulants; antiemetics; antiobesity drugs; antiparasitics; antipsychotics; antipyretics; antispasmodics; antithro
- Non-limiting examples of specific bio-effecting agents which may be useful in the present invention can be chosen from the list which follows; Mixtures of these agents and their salts used for appropriate therapies are also contemplated: acetaminophen; acetic acid; acetylsalicylic acid and its buffered form; albuterol and its sulfate; alcohol; alkaline phosphatase; allantoin; aloe; aluminum acetate, carbonate, chlorohydrate, hydroxide; alprozolam; amino acids; aminobenzoic acid; amoxicillin; ampicillin; amsacrine; amsalog; anethole; ascorbic acid; aspartame; atenolol; bacitracin; balsam peru; BCNU (carmustine) beclomethasone dipropionate; benzocaine; benzoic acid; benzophenones; benzoyl peroxide; bethanechol; biotin; bisacodyl; bornyl acetate;
- PABA PABA
- padi ate 0 paramethadione
- pentastatin peppermint oil
- pentaerythriol tetranitrate pentobarbital sodium
- pheniramine maleate phenobarbital
- phenol phenolphthalein
- phenylephrine hydrochloride phenylpropanolamine and its hydrochloride salt
- phenytoin phenelzine sulfate; pirmenol; piroxicam
- polymycin B sulfate potassium chloride and nitrate; prazepa ; procainamide hydrochloride; procaterol; propoxyphene and its HCl salt; propoxyphene napsylate; pramiracetin; pramoxine and its hydrochloride salt; propronolol HCl; pseudoephedrine hydrochloride and sulfate; pyridoxine; quinapril; quinidine gluconate
- Drugs which are chemically linked to the polymer e.g. macromolecular prodrugs are contemplated.
- Useful dosage forms include without limitation oral forms such as tablets, capsules, beads, granules, aggregates, syrups, powders, gels, solids, semi-solids, suspensions and liquids.
- Injectable forms, lotions, transdermal delivery systems including dermal patches, implantable forms or devices, aerosols or nasal mists, suppositories, salves and ointments are also useful.
- the inventive compositions have great versatility in their application. Of particular utility however, is the administration of bio-effecting agent to site-specific localities.
- the controlled release compositions of the present invention can be used as the suture or component of a suture, i.e. threads of a multi- filament suture, for wounds.
- compositions can be used in steri-strip wound closure materials such as dressings and the like.
- the compositions can be used for wound management such as by direct application to burns, abrasions, skin diseases or infections and the like.
- Other uses such as packing agents for nasal wounds or other open wounds are also contemplated.
- the packing agents can, for example, also contain blood clotting factors such as proconvertin, plasma thromboplastin, Stuart factor. Vitamin K, fibrinogen, drugs such as phytonadione or hormones such as estrogen.
- a growth regulator such as a human somatatropin, a bovine somatatropin or a porcine somatatropin
- a growth regulator such as a human somatatropin, a bovine somatatropin or a porcine somatatropin
- the biodegradable polymers which are melt-spun together with human somatotropin can be effectively used in tissue cultures to promote growth of human tissue.
- the growth of cells from fetal tissue or foreskin tissue can be stimulated by the gradual release of the hormone from the biodegradable polymer.
- the biodegradable polymer containing the growth hormone can be in the form of fibers or it can be material obtained by placing a support close to the spinning head to collect the material on the support while it is still in its f. " ⁇ wable state.
- the cells to be grown can be placed over the coated support to form tissue segments or patches which can be used for skin grafts and the like.
- Cartilage tissues can also be grown by similar procedures.
- the polymer In applications involving treatment of ruminants, if the dosage form is to be administered orally, the polymer must provide a protective barrier against the fluids of the rumen and allow for passage to the abomasum where polymeric degradation and concomitant release of active can occur over time. This generally means that the polymeric matrix or carrier is designed to be resistant to pH>5 but slowly degraded at pH ⁇ 3.5.
- the polymer In the case of oral administration of actives, such as insulin, which are destroyed in gastric juices, the polymer must provide a similar protective and delivery function.
- actives such as insulin
- the polymer In the case of oral administration of actives, such as insulin, which are destroyed in gastric juices, the polymer must provide a similar protective and delivery function.
- alternatives to oral administration include biodegradable implants which are designed to deliver the appropriate therapeutic dose for the specific condition treated.
- additives can be incorporated into the inventive compositions for their intended functions. Their additives are generally added in minor amounts.
- classes of additives include excipients, lubricants, buffering agents, disintegrating agents, stabilizers, foaming agents, pigments, coloring agents, fillers, bulking agents, sweetening agents, flavoring agents, fragrances, release modifiers, adjuvants, plasticizers, flow accelerators, polyols, granulating agents, diluents, binders, buffers, absorbents, glidants, adhesives, antiadherents, acidulants, softeners, resins, demulcents, solvents, surfactants, emulsifiers, elastomers and mixtures thereof.
- Useful additives include, for example, gelatin, vegetable proteins such as sunflower protein, soybean proteins, cotton seed proteins, peanut proteins, rape seed proteins, blood proteins, egg proteins, acrylated proteins; water-soluble polysaccharides such as alginates, carrageenans, guar gum, agar-agar, gum arabic and related gums (gum ghatti, gum karaya, gum tragacanth) , pectin; water-soluble derivatives of cellulose: alkylcelluloses, hydroxyalkylcelluloses and hydroxyalkylalkylcelluloses, such as methylcellulose, hydroxymethylcellulose, hydroxyethylcellulose, hydroxypropylcellulose, hydroxyethylmethylcellulose, hydroxpropylmethylcellulose, hydroxbutylmethylcellulose, cellulose esters and hydroxyalkylcellulose esters such as: cellulose acetate phthalate (CAP) , carboxyalkylcelluloses, carboxyalkylalkylcelluloses, carboxyalkylcellulose esters
- Processing aids such as mono- and triglycerides are useful as well.
- saccharides such as sucrose, maltodextrin, polydextrose, lactose, maltose and the like are added to the non- saccharide polymer in amounts of about 1 to about 35% by weight of the non-saccharide polymer.
- the bioeffecting agent is mixed with the saccharide before spinning and in certain embodiments can be present in both the saccharide material and the non-saccharide carrier.
- the saccharide Upon spinning, the saccharide tends to form pockets or cavities within the non-saccharide polymer which results in a material where the bioeffecting agent is released in accordance with diffusion gradients from the relatively soluble saccharides and in accordance with the degradation properties of the non-saccharide polymer when the bioactive compound is incorporated in such polymer.
- Further additives may be inorganic fillers, such as the oxides of magnesium, aluminum, silicon, titanium, and the like preferably in a concentration range of about 0.02 to about 3% by weight and preferably about 0.02 to about 1% based on the weight of all components.
- plasticizers which include polyalkylene oxides, such as polyethylene glycols, polypropylene glycols, polyethylene-propylene glycols; organic plasticizers with low molecular weights, such as glycerol, glycerol monoacetate, diacetate or triacetate; propylene glycol, sorbitol, sodium diethylsulfosuccinate, triethyl citrate, tributyl citrate, and the like.
- polyalkylene oxides such as polyethylene glycols, polypropylene glycols, polyethylene-propylene glycols
- organic plasticizers with low molecular weights such as glycerol, glycerol monoacetate, diacetate or triacetate
- coloring agents include known azo dyes, organic or inorganic pigments, or coloring agents of natural origin.
- Inorganic pigments are preferred, such as the oxides of iron or titanium.
- One particularly useful class of additives which can be incorporated into the spun matrix of the present compositions include radio opaque materials. These materials can be used to monitor the position of the controlled release composition via x-rays, and in cases where non-biodegradable material is present, such as carbon fibers, these will remain in the body subsequent to degradation of the polymer as a marker to show the site of the wound of the cite of treatment.
- the polymers Prior to forming the polymer and drug mixture, the polymers were cryoground to reduce the particle size and facilitate spinning. Cryogrinding was conducted under liquid nitrogen in a RETSCH Model ZM-1 Ultra Centrifugal Mill, 2.0 mm sieve with 12 tooth rotor.
- bio-effecting active present is dependent upon the treatment indicated.
- the bio- effecting/polymer ratios will vary accordingly.
- the polymer is present in amounts of about 50 to 99% by weight and preferably about 75 to 90%.
- the balance of the composition is active, with various amounts of additives as previously mentioned.
- biodegradable polymers were melt-spun in combination with various drugs to successfully make compositions useful in the present invention.
- the polymers used were (1) polyglycolide, a copolymer of L(-) lactide (69.29%) and glycolide (30.05%), (2) p-dioxane, (3) polycaprolactone and (4) polysabacic acid. These polymers were used to encapsulate the drugs vancomycin, gentamicin, tolmetin, diphenhydramine, ibuprofen and insulin, as shown in Table I below.
- compositions were formed by first mixing the drug and a processing aid (medium chain triglyceride supplied by Huls America under the name Miglycol 812) in a mortar and pestle. The biodegradable polymer was then slowly added with continuous mixing. The mixtures were preferably homogeneous.
- a processing aid medium chain triglyceride supplied by Huls America under the name Miglycol 812
- Each of the example mixtures were spun on an Econo Floss spinning machine which was modified to provide for variable temperature of the heating ribbon and variable speed of the rotating head.
- the spinning head was 5.5 inches in diameter having slits in the outer containment band which were 3-5mm long by 0.5-0.75mm wide.
- Kapton* liner is a band of Kapton* polymer (polyimide available from DuPont) material inserted between the heating element and the outer containment band with 0.042" holes in the Kapton* band aligned with the slots in the outer containment band.
- Table I also indicates the relative weight percents of the melt-spun components as well as the rotational speed (RPM) and temperature of the spinning head.
- Example 1 the sample was exposed to 2.7 MRAD/Co 60 for sterilization and then assayed using HPLC for the amount of Vancomycin present.
- the actual assayed amount 11.26%) substantially matches the theoretical amount (11%) indicating that all of the drug was encapsulated or carried through the melt-spin process with the polymer without apparent degradation.
- the rate of release of Vancomycin from the polymer was then determined through an in vitro extraction study using the following method.
- the release rates are tabulated in Table II and graphically represented in Figures 1 and 2.
- a sample of the vancomycin melt-spun polymer product (.5g) is placed in the flow unit between filter disks (.22 um Millipore GV) and maintained at 25°C. Krebs- Ringer buffer (Ph 7.4, Sigma Chemical) was pumped from a refrigerated reservoir (5 ⁇ C) . The solution was warmed at 25°C before flowing through a filter unit (Millipore Swinnex-47) at a flow rate of 2 ml/h. An initial sample (60 Ml) was taken at an accelerated flow rate (30 Ml/min.). Fractions were collected (ISCO-Foxy 200) every 24 h and frozen. After 7 days, the fractions are analyzed for vancomycin content. The experiment was continued for an additional 7 days and the remaining polymer was removed from the filter unit, rinsed, dried weighed and the vancomycin content calculated. The results are tabulated below and graphically illustrated in Figures 1 and 2.
- melt-spun controlled release product demonstrated successful combination of active (drug) and biodegradable product.
- melt-spun product was assayed for gentamicin and it was determined that 89.9% of the theoretical content was present.
- Example 11 indicates that the polymer can be melt- spun without the addition of an active and without a Kapton liner.
- Example 12 and 13 the presence of insulin in the melt-spun product was confirmed by radioimmunoassay (RIA) .
- RIA radioimmunoassay
Abstract
Description
Claims
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
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EP93914373A EP0746342B1 (en) | 1992-06-03 | 1993-06-02 | Biodegradable controlled release melt-spun delivery system |
DE69332210T DE69332210T2 (en) | 1992-06-03 | 1993-06-02 | BIODEGRADABLE, MELTED SPRAYING SYSTEM FOR CONTROLLED RELEASE |
JP50087794A JP3941878B2 (en) | 1992-06-03 | 1993-06-02 | Biodegradable controlled release melt spinning delivery system |
AU44058/93A AU665844B2 (en) | 1992-06-03 | 1993-06-02 | Biodegradable controlled release melt-spun delivery system |
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US07/893,238 | 1992-06-03 | ||
US07/893,238 US5518730A (en) | 1992-06-03 | 1992-06-03 | Biodegradable controlled release flash flow melt-spun delivery system |
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WO1993024154A1 true WO1993024154A1 (en) | 1993-12-09 |
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PCT/US1993/005307 WO1993024154A1 (en) | 1992-06-03 | 1993-06-02 | Biodegradable controlled release melt-spun delivery system |
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US (1) | US5518730A (en) |
EP (1) | EP0746342B1 (en) |
JP (1) | JP3941878B2 (en) |
AU (1) | AU665844B2 (en) |
CA (1) | CA2137268A1 (en) |
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Also Published As
Publication number | Publication date |
---|---|
AU4405893A (en) | 1993-12-30 |
JPH07507548A (en) | 1995-08-24 |
EP0746342A4 (en) | 1996-01-11 |
US5518730A (en) | 1996-05-21 |
EP0746342A1 (en) | 1996-12-11 |
EP0746342B1 (en) | 2002-08-14 |
AU665844B2 (en) | 1996-01-18 |
JP3941878B2 (en) | 2007-07-04 |
CA2137268A1 (en) | 1993-12-09 |
DE69332210T2 (en) | 2003-04-24 |
DE69332210D1 (en) | 2002-09-19 |
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