Patents by Inventor Minglin Ma

Minglin Ma has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20190091139
    Abstract: Biomedical devices for implantation with decreased pericapsular fibrotic overgrowth are disclosed. The device includes biocompatible materials and has specific characteristics that allow the device to elicit less of a fibrotic reaction after implantation than the same device lacking one or more of these characteristic that are present on the device. Biocompatible hydrogel capsules encapsulating mammalian cells having a diameter of greater than 1 mm, and optionally a cell free core, are disclosed which have reduced fibrotic overgrowth after implantation in a subject. Methods of treating a disease in a subject are also disclosed that involve administering a therapeutically effective amount of the disclosed encapsulated cells to the subject.
    Type: Application
    Filed: November 26, 2018
    Publication date: March 28, 2019
    Inventors: Minglin Ma, Daniel G. Anderson, Robert S. Langer, Omid Veiseh, Joshua Charles Doloff, Delai Chen, Christian J. Kastrup, Arturo Jose Vegas
  • Patent number: 10172791
    Abstract: Biomedical devices for implantation with decreased pericapsular fibrotic overgrowth are disclosed. The device includes biocompatible materials and has specific characteristics that allow the device to elicit less of a fibrotic reaction after implantation than the same device lacking one or more of these characteristic that are present on the device. Biocompatible hydrogel capsules encapsulating mammalian cells having a diameter of greater than 1 mm, and optionally a cell free core, are disclosed which have reduced fibrotic overgrowth after implantation in a subject. Methods of treating a disease in a subject are also disclosed that involve administering a therapeutically effective amount of the disclosed encapsulated cells to the subject.
    Type: Grant
    Filed: March 14, 2014
    Date of Patent: January 8, 2019
    Assignee: Massachusetts Institute of Technology
    Inventors: Minglin Ma, Daniel G. Anderson, Robert S. Langer, Omid Veiseh, Joshua Charles Doloff, Delai Chen, Christian J. Kastrup, Arturo Jose Vegas
  • Publication number: 20180360765
    Abstract: Covalently modified alginate polymers, possessing enhanced biocompatibility and tailored physiochemical properties, as well as methods of making and use thereof, are disclosed herein. The covalently modified alginates are useful as a matrix for coating of any material where reduced fibrosis is desired, such as encapsulated cells for transplantation and medical devices implanted or used in the body.
    Type: Application
    Filed: August 22, 2018
    Publication date: December 20, 2018
    Inventors: Arturo J. Vegas, Joshua C. Doloff, Omid Veiseh, Minglin Ma, Robert S. Langer, Daniel G. Anderson
  • Publication number: 20180353643
    Abstract: Biomedical devices for implantation with decreased pericapsular fibrotic overgrowth are disclosed. The device includes biocompatible materials and has specific characteristics that allow the device to elicit less of a fibrotic reaction after implantation than the same device lacking one or more of these characteristic that are present on the device. Biocompatible hydrogel capsules encapsulating mammalian cells having a diameter of greater than 1 mm, and optionally a cell free core, are disclosed which have reduced fibrotic overgrowth after implantation in a subject. Methods of treating a disease in a subject are also disclosed that involve administering a therapeutically effective amount of the disclosed encapsulated cells to the subject.
    Type: Application
    Filed: May 17, 2016
    Publication date: December 13, 2018
    Inventors: Minglin Ma, Daniel G. Anderson, Robert S. Langer, Omid Veiseh, Arturo Jose Vegas, Joshua Charles Doloff, Delai Chen, Christian J. Kastrup
  • Publication number: 20170258852
    Abstract: The present invention relates to an implantable therapeutic delivery system, methods of treatment utilizing the implantable therapeutic delivery system, and methods of fabricating the implantable delivery system. A first aspect of the present invention is directed to an implantable therapeutic delivery system. This therapeutic delivery system comprises a substrate, an inner polymeric coating that surrounds the substrate, and an outer hydrogel coating that surrounds said inner polymeric coating. One or more therapeutic agents are positioned in the outer hydrogel coating.
    Type: Application
    Filed: June 9, 2015
    Publication date: September 14, 2017
    Inventors: Minglin MA, James A. FLANDERS, Duo AN
  • Publication number: 20170239190
    Abstract: Covalently modified alginate polymers, possessing enhanced biocompatibility and tailored physiochemical properties, as well as methods of making and use thereof, are disclosed herein. The covalently modified alginates are useful as a matrix for the encapsulation and transplantation of cells. Also disclosed are high throughput methods for the characterizing the biocompatibility and physiochemical properties of modified alginate polymers.
    Type: Application
    Filed: May 5, 2017
    Publication date: August 24, 2017
    Inventors: Arturo J. Vegas, Minglin Ma, Kaitlin M. Bratlie, Daniel G. Anderson, Robert S. Langer
  • Publication number: 20170239397
    Abstract: Covalently modified alginate polymers, possessing enhanced biocompatibility and tailored physiochemical properties, as well as methods of making and use thereof, are disclosed herein. The covalently modified alginates are useful as a matrix for coating of any material where reduced fibrosis is desired, such as encapsulated cells for transplantation and medical devices implanted or used in the body.
    Type: Application
    Filed: May 5, 2017
    Publication date: August 24, 2017
    Inventors: Arturo J. Vegas, Joshua C. Doloff, Omid Veiseh, Minglin Ma, Robert S. Langer, Daniel G. Anderson
  • Publication number: 20170226232
    Abstract: Covalently modified alginate polymers, possessing enhanced biocompatibility and tailored physiochemical properties, as well as methods of making and use thereof, are disclosed herein. The covalently modified alginates are useful as a matrix for coating of any material where reduced fibrosis is desired, such as encapsulated cells for transplantation and medical devices implanted or used in the body.
    Type: Application
    Filed: November 2, 2016
    Publication date: August 10, 2017
    Inventors: Arturo J. Vegas, Joshua C. Doloff, Omid Veiseh, Minglin Ma, Robert S. Langer, Daniel G. Anderson
  • Publication number: 20170095514
    Abstract: Biocompatible hydrogel capsules encapsulating mammalian cells having a diameter of greater than 1 mm, and optionally a cell free core, are disclosed which have reduced fibrotic overgrowth after implantation in a subject. Methods of treating a disease in a subject are also disclosed that involve administering a therapeutically effective amount of the disclosed encapsulated cells to the subject.
    Type: Application
    Filed: December 15, 2016
    Publication date: April 6, 2017
    Inventors: Minglin Ma, Daniel G. Anderson, Robert S. Langer, Omid Veiseh, Arturo Jose Vegas, Joshua Charles Doloff, Delai Chen, Christian J. Kastrup
  • Patent number: 9555007
    Abstract: Biocompatible hydrogel capsules encapsulating mammalian cells having a diameter of greater than 1 mm, and optionally a cell free core, are disclosed which have reduced fibrotic overgrowth after implantation in a subject. Methods of treating a disease in a subject are also disclosed that involve administering a therapeutically effective amount of the disclosed encapsulated cells to the subject.
    Type: Grant
    Filed: March 14, 2013
    Date of Patent: January 31, 2017
    Assignees: Massachusetts Institute of Technology, The Children's Medical Center Corporation
    Inventors: Minglin Ma, Daniel G. Anderson, Robert S. Langer, Omid Veiseh, Arturo Jose Vegas, Joshua Charles Doloff, Delai Chen, Christian J. Kastrup
  • Publication number: 20160324793
    Abstract: Covalently modified alginate polymers, possessing enhanced biocompatibility and tailored physiochemical properties, as well as methods of making and use thereof, are disclosed herein. The covalently modified alginates are useful as a matrix for the encapsulation and transplantation of cells. Also disclosed are high throughput methods for the characterizing the biocompatibility and physiochemical properties of modified alginate polymers.
    Type: Application
    Filed: July 12, 2016
    Publication date: November 10, 2016
    Inventors: Arturo J. Vegas, Minglin Ma, Kaitlin M. Bratlie, Daniel G. Anderson, Robert S. Langer
  • Patent number: 9422373
    Abstract: Covalently modified alginate polymers, possessing enhanced biocompatibility and tailored physiochemical properties, as well as methods of making and use thereof, are disclosed herein. The covalently modified alginates are useful as a matrix for the encapsulation and transplantation of cells. Also disclosed are high throughput methods for the characterizing the biocompatibility and physiochemical properties of modified alginate polymers.
    Type: Grant
    Filed: June 4, 2012
    Date of Patent: August 23, 2016
    Assignee: Massachusetts Institute of Technology
    Inventors: Arturo J. Vegas, Minglin Ma, Kaitlin M. Bratlie, Daniel G. Anderson, Robert S. Langer
  • Publication number: 20160137785
    Abstract: A new class of poly(beta-amino alcohols) (PBAAs) has been prepared using combinatorial polymerization. The inventive PBAAs may be used in biotechnology and biomedical applications as coatings (such as coatings of films or multilayer films for medical devices or implants), additives, materials, excipients, non-biofouling agents, micropatterning agents, and cellular encapsulation agents. When used as surface coatings, these PBAAs elicited different levels of inflammation, both in vitro and in vivo, depending on their chemical structures. The large chemical diversity of this class of materials allowed us to identify polymer coatings that inhibit macrophage activation in vitro. Furthermore, these coatings reduce the recruitment of inflammatory cells, and reduce fibrosis, following the subcutaneous implantation of carboxylated polystyrene microparticles. These polymers may be used to form polyelectrolyte complex capsules for cell encapsulation.
    Type: Application
    Filed: November 13, 2015
    Publication date: May 19, 2016
    Applicant: Massachusetts Institute of Technology
    Inventors: Minglin Ma, Wendy F. Liu, Robert S. Langer, Daniel Griffith Anderson
  • Publication number: 20160030360
    Abstract: Covalently modified alginate polymers, possessing enhanced biocompatibility and tailored physiochemical properties, as well as methods of making and use thereof, are disclosed herein. The covalently modified alginates are useful as a matrix for coating of any material where reduced fibrosis is desired, such as encapsulated cells for transplantation and medical devices implanted or used in the body.
    Type: Application
    Filed: August 3, 2015
    Publication date: February 4, 2016
    Inventors: Arturo J. Vegas, Joshua C. Doloff, Omid Veiseh, Minglin Ma, Robert S. Langer, Daniel G. Anderson
  • Publication number: 20160030359
    Abstract: Biomedical devices for implantation with decreased pericapsular fibrotic overgrowth are disclosed. The device includes biocompatible materials and has specific characteristics that allow the device to elicit less of a fibrotic reaction after implantation than the same device lacking one or more of these characteristic that are present on the device. Biocompatible hydrogel capsules encapsulating mammalian cells having a diameter of greater than 1 mm, and optionally a cell free core, are disclosed which have reduced fibrotic overgrowth after implantation in a subject. Methods of treating a disease in a subject are also disclosed that involve administering a therapeutically effective amount of the disclosed encapsulated cells to the subject.
    Type: Application
    Filed: March 14, 2014
    Publication date: February 4, 2016
    Applicant: Massachusetts Institute of Technology
    Inventors: Minglin Ma, Daniel G. Anderson, Robert S. Langer, Omid Veiseh, Joshua Charles Doloff, Delai Chen, Christian J. Kastrup, Arturo Jose Vegas
  • Patent number: 9193827
    Abstract: A new class of poly(beta-amino alcohols) (PBAAs) has been prepared using combinatorial polymerization. The inventive PBAAs may be used in biotechnology and biomedical applications as coatings (such as coatings of films or multilayer films for medical devices or implants), additives, materials, excipients, non-biofouling agents, micropatterning agents, and cellular encapsulation agents. When used as surface coatings, these PBAAs elicited different levels of inflammation, both in vitro and in vivo, depending on their chemical structures. The large chemical diversity of this class of materials allowed us to identify polymer coatings that inhibit macrophage activation in vitro. Furthermore, these coatings reduce the recruitment of inflammatory cells, and reduce fibrosis, following the subcutaneous implantation of carboxylated polystyrene microparticles. These polymers may be used to form polyelectrolyte complex capsules for cell encapsulation.
    Type: Grant
    Filed: August 26, 2011
    Date of Patent: November 24, 2015
    Assignee: Massachusetts Institute of Technology
    Inventors: Minglin Ma, Wendy F. Liu, Robert S. Langer, Daniel Griffith Anderson
  • Patent number: 8939294
    Abstract: A separation matrix comprises a porous surface layer; and a bulk porous support, wherein both the porous surface layer and the bulk porous support comprising a block copolymer. The block copolymer comprises A-B or A-B-A repeating units, wherein A and B at each occurrence are two different blocks of oligomer, or polymer. A structural unit of block A is derived from one or more atom transfer radical polymerization (ATRP)-active monomer or oligomer and a structural unit of block B is derived from a thermoplastic ATRP-active macro initiator. A poly dispersity index of the block copolymer is at least about 2.
    Type: Grant
    Filed: March 31, 2010
    Date of Patent: January 27, 2015
    Assignee: General Electric Company
    Inventors: David Roger Moore, Hongyi Zhou, Matthew Jeremiah Misner, Xiaohui Chen, Lifeng Zhang, Daniel Joseph Brunelle, Minglin Ma
  • Publication number: 20140271843
    Abstract: Biocompatible hydrogel capsules encapsulating mammalian cells having a diameter of greater than 1 mm, and optionally a cell free core, are disclosed which have reduced fibrotic overgrowth after implantation in a subject. Methods of treating a disease in a subject are also disclosed that involve administering a therapeutically effective amount of the disclosed encapsulated cells to the subject.
    Type: Application
    Filed: March 14, 2013
    Publication date: September 18, 2014
    Inventors: Minglin Ma, Daniel G. Anderson, Robert S. Langer, Omid Veiseh, Arturo Jose Vegas, Joshua Charles Doloff
  • Publication number: 20130302401
    Abstract: A new class of poly(beta-amino alcohols) (PBAAs) has been prepared using combinatorial polymerization. The inventive PBAAs may be used in biotechnology and biomedical applications as coatings (such as coatings of films or multilayer films for medical devices or implants), additives, materials, excipients, non-biofouling agents, micropatterning agents, and cellular encapsulation agents. When used as surface coatings, these PBAAs elicited different levels of inflammation, both in vitro and in vivo, depending on their chemical structures. The large chemical diversity of this class of materials allowed us to identify polymer coatings that inhibit macrophage activation in vitro. Furthermore, these coatings reduce the recruitment of inflammatory cells, and reduce fibrosis, following the subcutaneous implantation of carboxylated polystyrene microparticles. These polymers may be used to form polyelectrolyte complex capsules for cell encapsulation.
    Type: Application
    Filed: August 26, 2011
    Publication date: November 14, 2013
    Applicant: Massachusetts Institute of Technology
    Inventors: Minglin Ma, Wendy F. Liu, Robert S. Langer, Daniel Griffith Anderson
  • Patent number: 8574713
    Abstract: The present invention relates to fibers exhibiting a water contact angle of above 150° and water contact angle hysteresis of below 15°, methods of producing the same, and applications thereof. The present invention further relates to superhydrophobic fiber mats, methods of producing the same, and applications thereof.
    Type: Grant
    Filed: March 9, 2006
    Date of Patent: November 5, 2013
    Assignee: Massachusetts Institute of Technology
    Inventors: Gregory C. Rutledge, Randal M. Hill, Joseph L Lowery, Minglin Ma, Sergey Fridrikh