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Biodegradable bursting release system

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • A61F-002/00
출원번호 US-0852372 (1992-03-13)
발명자 / 주소
  • Gresser Joseph D. (Brookline MA) Wise Donald L. (Belmont MA) Jimoh Abdul G. (Brookline MA) Augenstein Don C. (Palo Alto CA) Kuethe Dean O. (Watertown MA) Trantolo Debra J. (Princeton MA)
출원인 / 주소
  • Cambridge Scientific, Inc. (Belmont MA 02)
인용정보 피인용 횟수 : 56  인용 특허 : 0

초록

A biodegradable polymeric multiphasic release system of one or more biodegradable bursting units capable of delivering biologically active substances in a burst or pulse at predetermined times and a method for constructing those units is disclosed. The individual bursting units of the system may tak

대표청구항

A biodegradable multiphasic delivery system, comprising at least one biodegradable, biocompatible bursting unit, said bursting unit comprising a polymer membrane encapsulating a core material, said core material comprising a predetermined quantity of at least one substance that reacts with water to

이 특허를 인용한 특허 (56)

  1. Jevanthi,Ramasubbu; Van Hamont,John E.; Friden,Phil; Reid,Robert H.; Roberts,F. Donald; McQueen,Charles E.; Setterstrom,Jean A., "Burst-free" sustained release poly-(lactide/glycolide) microspheres.
  2. Viola, Frank J., Adhesive suture structure and methods of using the same.
  3. Jean A. Setterstrom ; Elliot Jacob ; Thomas R. Tice, Chemotherapeutic treatment of bacterial infections with an antibiotic encapsulated within a biodegradable polymeric matrix.
  4. Prescott,James H.; Kreiger,Timothy; Proos,Elizabeth R., Control of drug release by transient modification of local microenvironments.
  5. Crison, John R.; Amidon, Gordon L., Controlled release of drugs.
  6. Santini, Jr.,John T.; Sheppard, Jr.,Norman F.; Young,Chung Chang; Langer,Robert S., Device for the controlled exposure of reservoir-based sensors.
  7. Buch-Rasmussen, Thomas; Flink, James M.; Poulsen, Jens Ulrich; Aasmul, Søren; Hansen, Philip; Mortensen, Claus Juul, Dry mouldable drug formulation.
  8. Buch-Rasmussen, Thomas; Flink, James M.; Poulsen, Jens Ulrich; Aasmul, Søren; Hansen, Philip; Mortensen, Claus Juul, Dry mouldable drug formulation.
  9. Santini, Jr., John T.; Cima, Michael J.; Langer, Robert S.; Ausiello, Dennis; Sheppard, Jr., Norman F.; Herman, Stephen J., Flexible microchip devices for ophthalmic and other applications.
  10. Lewis Danny H. (Hartselle AL), Growth promoters for animals.
  11. Uhland,Scott A.; Polito,Benjamin F.; Herman,Stephen J.; Santini, Jr.,John T.; Maloney,John M., Hermetically sealed microchip reservoir devices.
  12. Hudson, Bruce W.; Markland, Peter, Implant devices that differ by release profile and methods of making and using same.
  13. Uhland,Scott A., Implantable drug delivery device.
  14. Santini, Jr., John T.; Hutchinson, Charles E., Implantable drug delivery stents.
  15. Santini, Jr., John T.; Cima, Michael J.; Sheppard, Jr., Norman F.; Herman, Stephen J., Implantable, tissue conforming drug delivery device.
  16. Santini, Jr.,John T.; Sheppard, Jr.,Norman F., Medical device and method for diagnostic sensing.
  17. Santini, Jr., John T.; Sheppard, Jr., Norman F.; Young, Chung Chang; Langer, Robert S., Medical device with reservoir-based sensors.
  18. Santini, Jr., John T.; Sheppard, Jr., Norman F.; Langer, Robert S.; Young, Chung Chang, Method for making reservoir-based sensor device.
  19. Santini, Jr., John T.; Sheppard, Jr., Norman F.; Langer, Robert S.; Young, Chung Chang, Method for operating a reservoir-based sensor device.
  20. Sheppard, Jr., Norman F.; Santini, Jr., John T.; Cima, Michael J.; Langer, Robert S.; Ausiello, Dennis, Method for wirelessly monitoring implanted medical device.
  21. Santini, Jr., John T.; Cima, Michael J.; Langer, Robert S.; Ausiello, Dennis; Sheppard, Jr., Norman F., Method of actuating implanted medical device.
  22. Santini, Jr., John T.; Cima, Michael J.; Langer, Robert S.; Göpferich, Achim, Method of controlled drug delivery from implant device.
  23. Santini, Jr., John T.; Cima, Michael J.; Langer, Robert S.; Ausiello, Dennis; Sheppard, Jr., Norman F., Method of opening reservoir of containment device.
  24. Staas, Jay K.; Tice, Thomas R.; Hudson, Bruce W.; Tipton, Arthur J., Methods for manufacturing delivery devices and devices thereof.
  25. Viola, Frank J., Methods of using wound treatment infused sutures.
  26. Viola, Frank J., Methods of using wound treatment infused sutures.
  27. Coppeta, Jonathan R.; Santini, Jr., John T.; Uhland, Scott A., Micro-reservoir osmotic release systems and microtube array device.
  28. Santini, Jr.,John T.; Cima,Michael J.; Langer,Robert S., Microchip drug delivery devices.
  29. Sheppard, Jr.,Norman F.; Santini, Jr.,John T.; Herman,Stephen J.; Cima,Michael J.; Langer,Robert S.; Ausiello,Dennis, Microchip reservoir devices using wireless transmission of power and data.
  30. Santini, Jr., John T.; Hutchinson, Charles E.; Uhland, Scott A.; Cima, Michael J.; Langer, Robert S.; Ausiello, Dennis, Microfabricated devices for the delivery of molecules into a carrier fluid.
  31. Santini, Jr., John T.; Sheppard, Jr., Norman F.; Young, Chung Chang; Langer, Robert S., Microfabricated devices for the storage and selective exposure of chemicals and devices.
  32. Santini, Jr., John T.; Sheppard, Jr., Norman F.; Young, Chung Chang; Langer, Robert S., Microfabricated devices for the storage and selective exposure of chemicals and devices.
  33. Reid, Robert H.; VanHamont, John E.; Brown, William R.; Boedeker, Edgar C.; Thies, Curt, Microparticle carriers of maximal uptake capacity by both M cells and non-M cells.
  34. Nauss, Jeffrey; Reid, Robert; Wolf, Marcia Kay; Sadegh-Nasseri, Scheberazade, Model for testing immunogenicity of peptides.
  35. Santini, Jr., John T.; Sbiaa, Zouhair; Coppeta, Jonathan R.; Uhland, Scott A.; Sheppard, Jr., Norman F., Multi-cap reservoir devices for controlled release or exposure of reservoir contents.
  36. Farra, Robert, Multi-dose drug delivery device and method.
  37. Santini, Jr., John T.; Sbiaa, Zouhair; Coppeta, Jonathan R.; Uhland, Scott A.; Sheppard, Jr., Norman F., Multi-opening reservoir devices for controlled release or exposure of reservoir contents.
  38. Santini, Jr., John T.; Staples, Mark A.; Herman, Stephen J., Multi-reservoir device for transdermal drug delivery and sensing.
  39. Imran, Mir, Multi-stage biodegradable drug delivery platform.
  40. Imran, Mir, Multi-stage biodegradable drug delivery platform.
  41. Jarboe, Daniel L.; Reid, Robert H.; Boedeker, Edgar C.; Cassels, Frederick J., Oral-intestinal vaccines against diseases caused by enteropathic organisms using antigens encapsulated within biodegradable-biocompatible microspheres.
  42. Talwar Naresh,INX ; Sen Himadri,INX ; Staniforth John N.,GBX, Orally administered controlled drug delivery system providing temporal and spatial control.
  43. Talwar, Naresh; Sen, Himadri; Staniforth, John N., Orally administered drug delivery system providing temporal and spatial control.
  44. Biggs, Danielle; Nettles, Heather, Process for preparing microparticles having a low residual solvent volume.
  45. Hansen, Henrik Egesborg; Buch-Rasmussen, Thomas; Sabra, Mads Christian, Solid dose micro implant.
  46. Santini, Jr.,John T.; Hutchinson,Charles E., Stent for controlled release of drug.
  47. Noelle Christine Vook ; Elliott Jacob ; Jean A. Setterstrom ; John van Hamont ; William Vaughan ; Ha Duong, Sustained release hydrophobic bioactive PLGA microspheres.
  48. Vook, Noelle Christine; Jacob, Elliott; Setterstrom, Jean A.; van Hamont, John; Vaughan, William; Duong, Ha, Sustained release hydrophobic bioactive PLGA microspheres.
  49. Vaughn, William M.; Van Hamont, John E.; Setterstrom, Jean A., Sustained release non-steroidal, anti-inflammatory and lidocaine PLGA microspheres.
  50. Setterstrom, Jean A.; Tice, Thomas R.; Jacob, Elliot; Reid, Robert H.; van Hamont, John; Boedecker, Edgar C.; Jeyanthi, Ramassubbu; Friden, Phil; Roberts, F. Donald; McQueen, Charles E.; Bhattacharje, Therapeutic treatment and prevention of infections with a bioactive material(s) encapuslated within a biodegradable-bio-compatable polymeric matrix.
  51. Setterstrom, Jean A.; Van Hamont, John E.; Reid, Robert H.; Jacob, Elliot; Jeyanthi, Ramasubbu; Boedeker, Edgar C.; McQueen, Charles E.; Jarboe, Daniel L.; Cassels, Frederick; Brown, William; Thies, , Therapeutic treatment and prevention of infections with a bioactive materials encapsulated within a biodegradable-biocompatible polymeric matrix.
  52. Santini, Jr., John T.; Cima, Michael J.; Uhland, Scott Albert, Thermally-activated microchip chemical delivery devices.
  53. Santini, Jr., John T.; Cima, Michael J.; Uhland, Scott Albert, Thermally-activated microchip chemical delivery devices.
  54. Santini, Jr.,John T.; Cima,Michael J.; Uhland,Scott Albert, Thermally-activated reservoir devices.
  55. Burnett, Paul R.; van Hamont, John E.; Reid, Robert H.; Setterstrom, Jean A.; Van Cott, Thomas C.; Birx, Deborah L., Vaccines against intracellular pathogens using antigens encapsulated within biodegradable-biocompatible microspheres.
  56. Vaugn William M. ; Van Hamont John E. ; Setterstrom Jean A., sustained release non-steroidal, anti-inflammatory and lidocaine PLGA microspheres.
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