Polymer formulations for delivery of bioactive materials
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61K-031/519
A61K-031/196
출원번호
US-0287520
(2008-10-10)
등록번호
US-8114883
(2012-02-14)
발명자
/ 주소
Taft, David
Tzannis, Stelios
Dai, Wei-Guo
Ottensmann, Sandra
Bitler, Steven
Zheng, Qiang
Bell, Adam
출원인 / 주소
Landec Corporation
대리인 / 주소
McDonald, James S.
인용정보
피인용 횟수 :
0인용 특허 :
58
초록
Delivery of drugs in association with PLGA polymers which have crystallinity resulting from the presence of long chain alkyl groups in terminal units.
대표청구항▼
1. A pharmaceutical formulation comprising a drug and a polymer, wherein (1) the polymer comprises a plurality of polymeric molecules each of which consists essentially of (i) a polymer backbone which comprises a plurality of repeating units having the formula —CF1F2—CO—O— (1)whereinF1 is hydrogen
1. A pharmaceutical formulation comprising a drug and a polymer, wherein (1) the polymer comprises a plurality of polymeric molecules each of which consists essentially of (i) a polymer backbone which comprises a plurality of repeating units having the formula —CF1F2—CO—O— (1)whereinF1 is hydrogen and F2 is hydrogen or methyl, the repeating units being the same or different, and(ii) at least one terminal unit which has the formula -b—Cy (2)whereinCy consists of an n-alkyl moiety containing 18-24 carbon atoms, andb is a bond or a moiety which has a valence of at least 2 and which links the Cy moiety to the polymer backbone;wherein each terminal unit having formula (2) is a moiety selected from the group consisting of (2A) moieties (i) in which b is a bond, (ii) which have the formula —Cy and (iii) which are directly linked to the terminal —CO—O— moiety of one of the repeating units having formula (1),(2B) moieties (i) in which b is a moiety having the formula —O—CO—, (ii) which have the formula —O—CO—Cyand (iii) which are directly linked to the terminal —CF1F2—moiety of one of the repeating units having formula (1), and(2C) moieties (i) in which b is a moiety having the formula-Rpbalc—CO—, (ii) which have the formula-Rpbalc—CO—Cy, where Rpbalc is the residue of a polyol, and (iii) which are directly linked to the terminal —CO—O— moiety of one of the repeating units having formula (1);(2) the polymer has a crystalline melting temperature, Tp, of at least 40° C., an onset of melting temperature, To, such that the value of (Tp−To) is less than Tp0.7, and a heat of fusion of at least 5 J/g, and(3) the polymer has a number average molecular weight, Mn, of less than 10,000. 2. A formulation according to claim 1 wherein the drug is RISPERIDONE. 3. A formulation according to claim 1 wherein the drug is diclofenac sodium. 4. A formulation according to claim 1 wherein Cy consists of an n-alkyl moiety containing 22 carbon atoms. 5. A formulation according to claim 1 wherein at least some of the polymeric molecules contain at least three Cy moieties, and the polymer has a heat of fusion of at least 10 J/g. 6. A pharmaceutical formulation comprising a drug and a polymer, wherein (1) the polymer comprises a plurality of polymeric molecules each of which consists essentially of (i) a polymer backbone which comprises a plurality of repeating units having the formula —CF1F2—CO—O— (1)whereinF1 is hydrogen and F2 is hydrogen or methyl, the repeating units being the same or different, and(ii) at least one terminal unit which has the formula -b—Cy (2)whereinCy consists of an n-alkyl moiety containing 18-24 carbon atoms and a polyoxyalkylene unit, andb is a bond or a moiety which has a valence of at least 2 and which links the Cy moiety to the polymer backbone;wherein each terminal unit having formula (2) is a moiety selected from the group consisting of (2A) moieties (i) in which b is a bond, (ii) which have the formula —Cy and (iii) which are directly linked to the terminal —CO—O— moiety of one of the repeating units having formula (1),(2B) moieties (i) in which b is a moiety having the formula —O—CO—, (ii) which have the formula —O—CO—Cyand (iii) which are directly linked to the terminal —CF1F2—moiety of one of the repeating units having formula (1), and(2C) moieties (i) in which b is a moiety having the formula-Rpbalc—CO—, (ii) which have the formula-Rpubic—CO—Cy, where Rpbalc is the residue of a polyol, and (iii) which are directly linked to the terminal —CO—O— moiety of one of the repeating units having formula (1);(2) the polymer has a crystalline melting temperature, Tp, of at least 40° C., an onset of melting temperature, To, such that the value of (Tp−To) is less than Tp0.7, and a heat of fusion of at least 5 J/g, and(3) the polymer has a number average molecular weight, Mn, of less than 10,000. 7. A formulation according claim 1 wherein the formulation, when tested by a release test in which the formulation is exposed to a buffer solution which is maintained at a pH of 5.5, releases the drug according to at least one of paragraphs (a)-(c) below (a) at a substantially constant rate over a period of at least 10 days in the first days, and in a total amount less than 30%,(b) in a total amount less than 30% over the first 10 days, and(c) at a substantially constant rate over the first 10 days, and in a total amount less than 20% over the first 10 days. 8. A formulation according to claim 1 wherein the formulation, when tested by a release test in which the formulation is exposed to a buffer solution which is maintained at a pH of 7.4, releases the drug (a) at a substantially constant rate over a period of at least 10 days in the first 20 days, and in a total amount less than 30% over the first 20 days, and(b) in a total amount less than 30%, preferably less than 20%, over the first 10 days, preferably over the first 20 days, particularly over the first 30 days. 9. A pharmaceutical formulation comprising a drug and a polymer, wherein (1) the polymer consists essentially of a plurality of polymeric molecules each of which consists essentially of (i) a polymer backbone which consists essentially of a plurality of repeating units having the formula —CH2—CO—O— (1A)and a plurality of repeating units having the formula —CH(CH3)—CO—O— (1B)and(ii) a plurality of terminal units each of which has the formula -b—Cy (2)whereinCy consists of an n-alkyl moiety containing 18-24 carbon atoms, andb is a bond or a moiety which has a valence of at least 2 and which links the Cy moiety to the polymer backbone;wherein each terminal unit having formula (2) is a moiety selected from the group consisting of (2A) moieties (i) in which b is a bond, (ii) which have the formula —Cy and (iii) which are directly linked to the terminal —CO——O— moiety of one of the repeating units having formula (1),(2B) moieties (i) in which b is a moiety having the formula —O—CO—, (ii) which have the formula —O—CO—Cyand (iii) which are directly linked to the terminal —CF1F2— moiety of one of the repeating units having formula (1), and(2C) moieties (i) in which b is a moiety having the formula -Rpbalc—CO—, (ii) which have the formula -Rpbalc—CO—Cy, where Rpbalc is the residue of a polyol, and (iii) which are directly linked to the terminal -0CO—O— moiety of one of the repeating units having formula (1);(2) the polymer has a crystalline melting temperature, Tp, of at least 40° C., an onset of melting temperature, To, such that the value of (Tp−To) is less than 10° C., and a heat of fusion of at least 5 J/g; and(3) the polymer has a number average molecular weight, Mn, of less than 8,000. 10. A formulation according to claim 9 wherein the polymer has molecular weight less than 5000. 11. A formulation according to claim 9 wherein the polymer contains 2-30 molar percent of the terminal units. 12. A formulation according to claim 9 wherein the polymer contains 10-40% by weight of Cy moieties. 13. A formulation according to claim 9 wherein Cy consists of an n-alkyl moiety containing 22 carbon atoms. 14. A formulation according to claim 9 wherein at least one of the terminal units of formula (2) has a formula selected from the group consisting of —CH2—CH(OH)—CH2—O—CO-Cy and —CH2—CH(O—CO—Cy)—CH2—O—CO—Cywherein the Cy moiety consists of an n-alkyl moiety containing 18-24 carbon atoms. 15. A formulation according to claim 9 wherein at least some of the polymeric molecules contain at least three Cy moieties. 16. A formulation according to claim 9 wherein the polymer contains less than 170 repeating units of the formulas (1A) and (1B). 17. A formulation according to claim 1 wherein the drug is selected from the group consisting of proteins, polypeptides and small molecule drugs. 18. A formulation according to claim 9 wherein the drug is a protein or a polypeptide. 19. A formulation according to claim 9 wherein the drug is a small molecule drug. 20. A pharmaceutical formulation comprising a drug and a polymer, wherein (1) the polymer comprises a plurality of polymeric molecules each of which consists essentially of (i) a polymer backbone which comprises a plurality of repeating units having the formula —CF1F2—CO—O— wherein F1 is hydrogen and F2 is hydrogen or methyl, the repeating units being the same or different, and(ii) at least one terminal unit which has the formulawhereinCy consists of an n-alkyl moiety containing 18-24 carbon atoms, andb is a bond or a moiety which has a valence of at least 2 and which links the Cy moiety to the polymer backbone;(2) the polymer has a crystalline melting temperature, Tp, of at least 40° C., an onset of melting temperature, To, such that the value of (Tp−To) is less than Tp0.7 , and a heat of fusion of at least 5 J/g;(3) the polymer has a number average molecular weight, Mn, of less than 10,000; and(4) the polymer is the reaction product of starting materials consisting of (i) a preformed polymer which comprises a plurality of repeating units having the formula (1) and which has a terminal carboxyl group, and(ii) an alcohol containing said Cy moiety. 21. A formulation according to claim 20 wherein the preformed polymer has the formula HO—(—CF1F2—CO—O—)n—H where n is an integer less than 170. 22. A formulation according to claim 20 wherein the preformed polymer was prepared by the polymerization of lactide and glycolide. 23. A formulation according to claim 20 wherein the preformed polymer was prepared by the polymerization of lactic and glycolic acids. 24. A formulation according to claim 20 wherein the reaction product has a number average molecular weight less than 5000. 25. A formulation according to claim 20 wherein the Cy moiety consists of an n-alkyl moiety containing 22 carbon atoms. 26. A formulation according to claim 20 wherein the drug is a protein, polypeptide, or a small molecule drug. 27. A pharmaceutical formulation comprising a drug and a polymer wherein which (1) the polymer comprises a plurality of polymeric molecules each of which consists essentially of (i) a polymer backbone which comprises a plurality of repeating units having the formula —CF1F2—CO—O— (1) wherein F1 is hydrogen and F2 is hydrogen or methyl, the repeating units being the same or different, and(ii) at least one terminal unit which has the formula -b—Cy (2) wherein Cy consists of an n-alkyl moiety containing 18-14 carbon atoms, andb is a bond or a moiety which has a valence of at least 2 and which links the Cy moiety to the polymer backbone;(2) the polymer has a crystalline melting temperature, Tp, of at least 40° C., an onset of melting temperature, To, such that the value of (Tp−To) is less than Tp0.7, and a heat of fusion of at least 5 J/g;(3) the polymer has a number average molecular weight, Mn, of less than 10,000; and(4) the polymer is the reaction product of starting materials consisting of (i) a preformed polymer which comprises a plurality of repeating units having the formula (1) and which has a terminal hydroxyl group, and(ii) a carboxylic acid, acid chloride or anhydride containing said Cy moiety. 28. A formulation according to claim 27 wherein the preformed polymer has the formula HO—(—CF1F2—CO—O—)n—Hwhere n is an integer less than 170. 29. A formulation according to claim 27 wherein the preformed polymer was prepared by the polymerization of lactide and glycolide. 30. A formulation according to claim 27 wherein the preformed polymer was prepared by the polymerization of lactic and glycolic acids. 31. A formulation according to claim 27 wherein the reaction product has a number average molecular weight less than 5000. 32. A formulation according to claim 27 wherein the Cy moiety consists of an n-alkyl moiety containing 22 carbon atoms. 33. A formulation according to claim 27 wherein the drug is a protein, a polypeptide or a small molecule drug. 34. A pharmaceutical formulation comprising a drug and a polymer, wherein (1) the polymer comprises a plurality of polymeric molecules each of which consists essentially of (i) a polymer backbone which comprises a plurality of repeating units having the formula —CF1—F2—CO—O— (1) wherein F1 is hydrogen and F2 is hydrogen or methyl, the repeating units being the same or different, and(ii) at least one terminal unit which has the formula -b—Cy (2) wherein Cy consists of an n-alkyl moiety containing 18-24 carbon atoms, andb is a bond or a moiety which has a valence of at least 2 and which links the Cy moiety to the polymer backbone;(2) the polymer has a crystalline melting temperature, Tp, of at least 40° C., an onset of melting temperature, To, such that the value of (Tp−To) is less than Tp0.7, and a heat of fusion of at least 5 J/g;(3) the polymer has a number average molecular weight, Mn, of less than 10,000; and(4) the polymer is the reaction product of a method which comprises the steps of (A) reacting(i) a preformed polymer which comprises a plurality of repeating units having the formula (1) and which has a terminal carboxyl group, and(ii) a polyol, and(B) reacting the product of step (A) with a carboxylic acid, acid chloride or anhydride containing said Cy moiety. 35. A formulation according to claim 34 wherein the preformed polymer has the formula HO—(—CF1F2—CO—O—)n—H where n is an integer less than 170. 36. A formulation according to claim 34 wherein the preformed polymer was prepared by the polymerization of lactide and glycolide. 37. A formulation according to claim 34 wherein the preformed polymer was prepared by the polymerization of lactic and glycolic acids. 38. A formulation according to claim 34 wherein the reaction product has a number average molecular weight less than 5000. 39. A formulation according to claim 34 wherein the Cy moiety consists of an n-alkyl moiety containing 22 carbon atoms. 40. A formulation according to claim 34 wherein the drug is a protein, a polypeptide or a small molecule drug.
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