Patents by Inventor Mason Diamond
Mason Diamond 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).
-
Patent number: 10765500Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: GrantFiled: May 9, 2018Date of Patent: September 8, 2020Assignee: MEDTRONIC, INC.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Publication number: 20180256306Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: ApplicationFiled: May 9, 2018Publication date: September 13, 2018Applicant: Tyrx, Inc.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Patent number: 9987116Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: GrantFiled: July 26, 2016Date of Patent: June 5, 2018Assignee: TYRX, Inc.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Patent number: 9848955Abstract: Biodegradable and resorbable polymer pouches are described for use with cardiac rhythm management devices (CRMs) and other implantable medical devices (IMDs), i.e., a pouch, covering, or other receptacle capable of encasing, surrounding and/or holding the CRM or other IMD for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other IMD. Optionally, the biodegradable and resorbable pouches of the invention include one or more drugs in the polymer matrix to provide prophylactic effects and alleviate side effects or complications associated with the surgery or implantation of the CRM or other IMD.Type: GrantFiled: March 10, 2015Date of Patent: December 26, 2017Assignee: TYRX, Inc.Inventors: Fatima Buevich, Arikha Moses, Frank Do, William McJames, William Edelman, Mason Diamond
-
Publication number: 20160331505Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: ApplicationFiled: July 26, 2016Publication date: November 17, 2016Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Patent number: 9486560Abstract: Biodegradable polymer-coated surgical meshes formed into pouches are described for use with cardiac rhythm management devices (CRMs) and other implantable medical devices. Such meshes are formed into a receptacle, e.g., a pouch or other covering, capable of encasing, surrounding and/or holding the cardiac rhythm management device or other implantable medical device for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other implantable medical device. Preferred embodiments include surgical mesh pouches coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness.Type: GrantFiled: September 23, 2013Date of Patent: November 8, 2016Assignee: TYRX, Inc.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Patent number: 9457129Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: GrantFiled: September 23, 2013Date of Patent: October 4, 2016Assignee: TYRX, INC.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Publication number: 20150273118Abstract: Biodegradable polymer-coated surgical meshes formed into pouches are described for use with cardiac rhythm management devices (CRMs) and other implantable medical devices. Such meshes are formed into a receptacle, e.g., a pouch or other covering, capable of encasing, surrounding and/or holding the cardiac rhythm management device or other implantable medical device for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other implantable medical device. Preferred embodiments include surgical mesh pouches coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness.Type: ApplicationFiled: September 23, 2013Publication date: October 1, 2015Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Publication number: 20150238262Abstract: Biodegradable and resorbable polymer pouches are described for use with cardiac rhythm mamagent devices (CRMs) and other implantable medical devices (IMDs), i.e., a pouch, covering, or other receptacle capable of encasing, surrounding and/or holding the CRM or other IMD for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other IMD. Optionally, the biodegradable and resorbable pouches of the invention include one or more drugs in the polymer matrix to provide prophylactic effects and alleviate side effects or complications associated with the surgery or implantation of the CRM or other IMD.Type: ApplicationFiled: March 10, 2015Publication date: August 27, 2015Inventors: Dr. Fatima Buevich, Arikha Moses, Frank Do, William McJames, William Edelman, Mason Diamond
-
Patent number: 9023114Abstract: Biodegradable and resorbable polymer pouches are described for use with cardiac rhythm mamagent devices (CRMs) and other implantable medical devices (IMDs), i.e., a pouch, covering, or other receptacle capable of encasing, surrounding and/or holding the CRM or other IMD for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other IMD. Optionally, the biodegradable and resorbable pouches of the invention include one or more drugs in the polymer matrix to provide prophylactic effects and alleviate side effects or complications associated with the surgery or implantation of the CRM or other IMD.Type: GrantFiled: November 6, 2007Date of Patent: May 5, 2015Assignee: Tyrx, Inc.Inventors: Fatima Buevich, Frank Do, William McJames, William Edelman, Arikha Moses, Mason Diamond
-
Publication number: 20150086604Abstract: Biodegradable polymer-coated surgical meshes formed into pouches are described for use with cardiac rhythm management devices (CRMs) and other implantable medical devices. Such meshes are formed into a receptacle, e.g., a pouch or other covering, capable of encasing, surrounding and/or holding the cardiac rhythm management device or other implantable medical device for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other implantable medical device. Preferred embodiments include surgical mesh pouches coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness.Type: ApplicationFiled: September 23, 2013Publication date: March 26, 2015Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Publication number: 20140046350Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: ApplicationFiled: September 23, 2013Publication date: February 13, 2014Applicants: TYRX, INC., TYRX PHARMA, INC.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Patent number: 8636753Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: GrantFiled: February 8, 2007Date of Patent: January 28, 2014Assignee: TYRX, Inc.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Patent number: 8591531Abstract: Biodegradable polymer-coated surgical meshes formed into pouches are described for use with cardiac rhythm management devices (CRMs) and other implantable medical devices. Such meshes are formed into a receptacle, e.g., a pouch or other covering, capable of encasing, surrounding and/or holding the cardiac rhythm management device or other implantable medical device for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other implantable medical device. Preferred embodiments include surgical mesh pouches coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness.Type: GrantFiled: November 6, 2007Date of Patent: November 26, 2013Assignee: TYRX, Inc.Inventors: Fatima Buevich, Arikha Moses, Frank Do, William McJames, William Edelman, Mason Diamond, Satish Pulapura
-
Publication number: 20090018559Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: ApplicationFiled: November 6, 2007Publication date: January 15, 2009Applicant: TyRx Pharma, Inc.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Publication number: 20080132922Abstract: Biodegradable polymer-coated surgical meshes formed into pouches are described for use with cardiac rhythm management devices (CRMs) and other implantable medical devices. Such meshes are formed into a receptacle, e.g., a pouch or other covering, capable of encasing, surrounding and/or holding the cardiac rhythm management device or other implantable medical device for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other implantable medical device. Preferred embodiments include surgical mesh pouches coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness.Type: ApplicationFiled: November 6, 2007Publication date: June 5, 2008Applicant: TyRx Pharma, Inc.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Publication number: 20080128315Abstract: Biodegradable and resorbable polymer pouches are described for use with cardiac rhythm mamagent devices (CRMs) and other implantable medical devices (IMDs), i.e., a pouch, covering, or other receptacle capable of encasing, surrounding and/or holding the CRM or other IMD for the purpose of securing it in position, inhibiting or reducing bacterial growth, providing pain relief and/or inhibiting scarring or fibrosis on or around the CRM or other IMD. Optionally, the biodegradable and resorbable pouches of the invention include one or more drugs in the polymer matrix to provide prophylactic effects and alleviate side effects or complications associated with the surgery or implantation of the CRM or other IMD.Type: ApplicationFiled: November 6, 2007Publication date: June 5, 2008Applicant: TyRx Pharma, Inc.Inventors: Fatima Buevich, Frank Do, William McJames, William Edelman, Arikha Moses, Mason Diamond
-
Publication number: 20070198040Abstract: The present invention relates to medical prostheses and methods of manufacturing those devices. In particular, the prostheses are temporarily stiffened meshes with particular coatings to provide initial stiffness and thereby permit easier surgical handling for treatment or reconstruction of soft tissue defects. Preferred embodiments include surgical meshes coated with one or more biodegradable polymers that can act as a stiffening agent by coating the filaments or fibers of the mesh to temporarily immobilize the contact points of those filaments or fibers and/or by increasing the stiffness of the mesh by at least 1.1 times its original stiffness. The devices of the invention can also provide relief from various post-operative complications associated with their implantation, insertion or surgical use.Type: ApplicationFiled: February 8, 2007Publication date: August 23, 2007Applicant: TyRx Pharma Inc.Inventors: Fatima Buevich, Frank Do, William McJames, Satish Pulapura, William Edelman, Arikha Moses, Mason Diamond, Shari Timothy
-
Publication number: 20040228905Abstract: Compositions and methods for treating wounds to significantly reduce the healing time, reduce the incidence of scar formation, improve the success of skin grafts, reduce the inflammatory response and providing anti-bacterial treatments to a patient in need thereof, that include small non-interlinked particles of bioactive glass or highly porous bioactive glass, are disclosed. Anti-bacterial solutions derived from bioactive glass, and methods of preparation and use thereof, are also disclosed. The compositions include non-interlinked particles of bioactive glass, alone or in combination with anti-bacterial agents and/or anti-inflammatory agents. The compositions can include an appropriate carrier for topical administration. Anti-bacterial properties can be imparted to implanted materials, such as prosthetic implants, sutures, stents, screws, plates, tubes, and the like, by incorporating small bioactive glass particles or porous bioactive glass into or onto the implanted materials.Type: ApplicationFiled: June 10, 2004Publication date: November 18, 2004Inventors: David C. Greenspan, Jon K. West, Sean Lee, James L. Meyers, Mason Diamond
-
Patent number: 6756060Abstract: Compositions and methods for treating wounds to significantly reduce the healing time, reduce the incidence of scar formation, improve the success of skin grafts, reduce the inflammatory response and providing anti-bacterial treatments to a patient in need thereof, that include small non-interlinked particles of bioactive glass or highly porous bioactive glass, are disclosed. Anti-bacterial solutions derived from bioactive glass, and methods of preparation and use thereof, are also disclosed. The compositions include non-interlinked particles of bioactive glass, alone or in combination with anti-bacterial agents and/or anti-inflammatory agents. The compositions can include an appropriate carrier for topical administration. Anti-bacterial properties can be imparted to implanted materials, such as prosthetic implants, sutures, stents, screws, plates, tubes, and the like, by incorporating small bioactive glass particles or porous bioactive glass into or onto the implanted materials.Type: GrantFiled: April 27, 2000Date of Patent: June 29, 2004Assignee: USBiomaterials Corp.Inventors: David C. Greenspan, Jon K. West, Sean Lee, James L. Meyers, Mason Diamond