Patents Assigned to Tepha, Inc.
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Patent number: 10314683Abstract: Absorbable polyester fibers, braids, and surgical meshes with prolonged strength retention have been developed. These devices are preferably derived from biocompatible copolymers or homopolymers of 4-hydroxybutyrate. These devices provide a wider range of in vivo strength retention properties than are currently available, and could offer additional benefits such as anti-adhesion properties, reduced risks of infection or other post-operative problems resulting from absorption and eventual elimination of the device, and competitive cost. The devices may also be particularly suitable for use in pediatric populations where their absorption should not hinder growth, and provide in all patient populations wound healing with long-term mechanical stability. The devices may additionally be combined with autologous, allogenic and/or xenogenic tissues to provide implants with improved mechanical, biological and handling properties.Type: GrantFiled: July 21, 2016Date of Patent: June 11, 2019Assignee: Tepha, Inc.Inventors: David P. Martin, Said Rizk, Ajay Ahuja, Simon F. Williams
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Patent number: 10258460Abstract: A mastopexy implant for maintaining the breast in an elevated and aesthetically pleasing position includes a lower pole support comprising end portions which may be affixed to the chest wall or to a previously installed upper suspension strut. The implant is loaded in an insertion device. The insertion device is inserted through a small incision and into a subcutaneous pocket created in an inferior half of the breast. The lower pole support may have various constructs and in one embodiment includes a unitary conformable mesh having a plurality of arm or band members which are attached across the breast parenchyma and to the chest wall.Type: GrantFiled: February 9, 2017Date of Patent: April 16, 2019Assignee: Tepha, Inc.Inventors: Arikha Moses, Emily Stires, Anthony Natale
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Patent number: 10227718Abstract: Continuous processing methods for making absorbable polymeric dry spun non-wovens with one or more of the following properties: high burst strength, fine fibers of average diameter from 0.01 ?m to 50 ?m, and thickness from 10 ?m to 10 mm, have been developed. Improved fiber cohesion is made possible by controlling the tackiness of the fibers of the non-woven during web collection. The polymer is preferably a polyhydroxyalkanoate, more preferably, a 4-hydroxybutyrate polymer or copolymer. A non-woven of poly-4-hydroxybutyrate is most preferred. The non-wovens have fine fibers with average diameters ranging from 0.01 ?m to 50 ?m, and are derived by dry spun processing, during which a solution of polymer(s) is injected into a stream of high velocity air with a pressure of 1 to 500 psi for solvent stripping and polymer strand attenuation. The non-wovens can be used for a variety of purposes including fabrication of medical devices.Type: GrantFiled: June 15, 2011Date of Patent: March 12, 2019Assignee: Tepha, Inc.Inventors: Ryan Cahil, Kai Guo, David P. Martin, Said Rizk, Kicherl Ho, Simon F. Williams
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Patent number: 10227713Abstract: Resorbable multifilament yarns and monofilament fibers including poly-4-hydroxybutyrate and copolymers thereof with high tenacity or high tensile strength have been developed. The yarns and fibers are produced by cold drawing the multifilament yarns and monofilament fibers before hot drawing the yarns and fibers under tension at temperatures above the melt temperature of the polymer or copolymer. These yarns and fibers have prolonged strength retention in vivo making them suitable for soft tissue repairs where high strength and strength retention is required. The multifilament yarns have tenacities higher than 8.1 grams per denier, and in vivo, retain at least 65% of their initial strength at 2 weeks. The monofilament fibers retain at least 50% of their initial strength at 4 weeks in vivo. The monofilament fibers have tensile strengths higher than 500 MPa. These yarns and fibers may be used to make various medical devices for various applications.Type: GrantFiled: December 5, 2016Date of Patent: March 12, 2019Assignee: Tepha, Inc.Inventors: Amit Ganatra, Fabio Felix, Bhavin Shah, Matthew Bernasconi, Said Rizk, David P. Martin, Simon F. Williams
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Patent number: 10201640Abstract: Methods to produce structures containing ultrafine fibers with average diameters from 10 nm to 10 ?m and more preferably from 50 nm to 5 ?m, have been developed. These methods produce ultrafine fibers without substantial loss of the polymer's weight average molecular weight. The ultrafine electrospun fibers have an unexpectedly higher degree of molecular orientation, and higher melt temperature than fibers derived by dry spinning. In the preferred embodiment, the polymer comprises 4-hydroxybutyrate. The ultrafine fibers are preferably derived by electrospinning. A solution of the polymer is dissolved in a solvent, pumped through a spinneret, subjected to an electric field, and ultrafine fibers with a high degree of molecular orientation are collected. These structures of ultrafine fibers can be used for a variety of purposes including fabrication of medical devices.Type: GrantFiled: March 13, 2013Date of Patent: February 12, 2019Assignee: Tepha, Inc.Inventors: David P. Martin, Kai Guo, Said Rizk, Simon F. Williams
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Patent number: 10188773Abstract: Compositions of P4HB with high purity have been developed. The compositions are prepared by washing P4HB biomass prior to solvent extraction, and precipitating P4HB from solution. The same solvent is preferably used to wash the P4HB biomass, and as a non-solvent to precipitate the polymer from a P4HB solvent solution. The highly pure P4HB compositions are suitable for preparing implants. The implants may be used for the repair of soft and hard tissues.Type: GrantFiled: September 23, 2016Date of Patent: January 29, 2019Assignee: Tepha, Inc.Inventors: David P. Martin, Simon F. Williams
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Patent number: 10179189Abstract: Methods to produce thermoforms from P4HB homopolymer and blends thereof have been developed. These thermoforms are produced from films and sheets including P4HB, wherein the intrinsic viscosity of the P4HB is less than 3.5 dl/g, but greater than 0.35 dl/g, and the thermoforms are produced at a temperature equal to or greater than the softening point of P4HB, and more preferably at a temperature higher than the melting point of P4HB. A preferred embodiment includes a P4HB thermoform wherein a film or sheet including a P4HB polymer is thermoformed at a temperature between its melting point and 150° C. In a particularly preferred embodiment the thermoform is a laminate made from a P4HB film and a P4HB mesh.Type: GrantFiled: May 19, 2017Date of Patent: January 15, 2019Assignee: Tepha, Inc.Inventors: Matthew Bernasconi, Dennis Connelly, Said Rizk, David P. Martin, Simon F. Williams
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Patent number: 10149923Abstract: Implants for osteo and osteochondral repair have been developed. These implants include a series of channels between the upper and lower surfaces of the implants, such that when implanted the lower surfaces are situated in an area rich in bone marrow and the channels provide a means for the bone marrow to migrate through the implant. Preferably the implants are made from resorbable polymer fibers, preferably arranged in braids that are knitted or woven together such that the braids are substantially parallel with each other. The implants may be rolled into a bundle of braids with the axis of the braids substantially parallel to the axis of the bundle, to provide channels along the axis of the bundle. A preferred embodiment includes P4HB fibers braided and knitted into a structure that is coated with a ceramic, preferably physiologic calcium phosphate.Type: GrantFiled: January 9, 2014Date of Patent: December 11, 2018Assignee: Tepha, Inc.Inventor: Andrew J. Carter
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Patent number: 10136982Abstract: Absorbable polyester fibers, braids, and surgical meshes with prolonged strength retention have been developed. These devices are preferably derived from biocompatible copolymers or homopolymers of 4-hydroxybutyrate. These devices provide a wider range of in vivo strength retention properties than are currently available, and could offer additional benefits such as anti-adhesion properties, reduced risks of infection or other post-operative problems resulting from absorption and eventual elimination of the device, and competitive cost. The devices may also be particularly suitable for use in pediatric populations where their absorption should not hinder growth, and provide in all patient populations wound healing with long-term mechanical stability. The devices may additionally be combined with autologous, allogenic and/or xenogenic tissues to provide implants with improved mechanical, biological and handling properties.Type: GrantFiled: May 13, 2014Date of Patent: November 27, 2018Assignee: Tepha, Inc.Inventors: David P. Martin, Said Rizk, Ajay Ahuja, Simon F. Williams
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Patent number: 10111738Abstract: Absorbable polyester fibers, braids, and surgical meshes with prolonged strength retention have been developed. These devices are preferably derived from biocompatible copolymers or homopolymers of 4-hydroxybutyrate. These devices provide a wider range of in vivo strength retention properties than are currently available, and could offer additional benefits such as anti-adhesion properties, reduced risks of infection or other post-operative problems resulting from absorption and eventual elimination of the device, and competitive cost. The devices may also be particularly suitable for use in pediatric populations where their absorption should not hinder growth, and provide in all patient populations wound healing with long-term mechanical stability. The devices may additionally be combined with autologous, allogenic and/or xenogenic tissues to provide implants with improved mechanical, biological and handling properties.Type: GrantFiled: April 1, 2014Date of Patent: October 30, 2018Assignee: Tepha, Inc.Inventors: David P. Martin, Said Rizk, Ajay Ahuja, Simon F. Williams
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Patent number: 10058417Abstract: Absorbable implants for breast surgery that conform to the breast parenchyma and surrounding chest wall have been developed. These implants support newly lifted breast parenchyma, and/or a breast implant. The implants have mechanical properties sufficient to support a reconstructed breast, and allow the in-growth of tissue into the implant as it degrades. The implants have a strength retention profile allowing the support of the breast to be transitioned from the implant to regenerated host tissue, without significant loss of support. Three-dimensional implants for use in minimally invasive mastopexy/breast reconstruction procedures are also described, that confer shape to a patient's breast. These implants are self-reinforced, can be temporarily deformed, implanted in a suitably dissected tissue plane, and resume their preformed three-dimensional shape. The implants are preferably made from poly-4-hydroxybutyrate (P4HB) and copolymers thereof.Type: GrantFiled: April 17, 2017Date of Patent: August 28, 2018Assignee: Tepha, Inc.Inventors: Skander Limem, Emily Stires, Rebecca Holmes, Said Rizk, Arikha Moses, Fabio Felix, Bruce Van Natta, Antonio Fosco, David P. Martin, Simon F. Williams
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Patent number: 10028818Abstract: Absorbable implants for breast surgery that conform to the breast parenchyma and surrounding chest wall have been developed. These implants support newly lifted breast parenchyma, and/or a breast implant. The implants have mechanical properties sufficient to support a reconstructed breast, and allow the in-growth of tissue into the implant as it degrades. The implants have a strength retention profile allowing the support of the breast to be transitioned from the implant to regenerated host tissue, without significant loss of support. Three-dimensional implants for use in minimally invasive mastopexy/breast reconstruction procedures are also described, that confer shape to a patient's breast. These implants are self-reinforced, can be temporarily deformed, implanted in a suitably dissected tissue plane, and resume their preformed three-dimensional shape. The implants are preferably made from poly-4-hydroxybutyrate (P4HB) and copolymers thereof.Type: GrantFiled: April 17, 2017Date of Patent: July 24, 2018Assignee: Tepha, Inc.Inventors: Fabio Felix, Antonio Fosco, David P. Martin, Arikha Moses, Bruce Van Natta, Said Rizk, Simon F. Williams
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Patent number: 9968431Abstract: Biocompatible coatings and spin finishes that can be applied to polyhydroxyalkanoate (PHA) polymers, and medical devices made from PHA polymers, have been developed. The coatings impart good lubricity to PHA polymers, particularly to fibers and braids made from these materials, making the coatings ideal for use on medical devices such as PHA braided sutures. The spin finishes can be applied to PHA fibers to facilitate their manufacture, and also for their conversion to other products, including medical textiles. The spin finishes serve to protect multifilament fiber bundles, and keep them intact following extrusion, and also to impart lubricity to the fiber bundles and monofilament fibers so that they are not damaged in subsequent processing steps particularly in textile processing. The coating reduces tissue drag of, for example, braided sutures.Type: GrantFiled: May 15, 2014Date of Patent: May 15, 2018Assignee: Tepha, Inc.Inventors: David P. Martin, Said Rizk, Jon I. Montcrieff, Dennis W. Connelly
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Patent number: 9943393Abstract: Biocompatible coatings and spin finishes that can be applied to polyhydroxyalkanoate (PHA) polymers, and medical devices made from PHA polymers, have been developed. The coatings impart good lubricity to PHA polymers, particularly to fibers and braids made from these materials, making the coatings ideal for use on medical devices such as PHA braided sutures. The spin finishes can be applied to PHA fibers to facilitate their manufacture, and also for their conversion to other products, including medical textiles. The spin finishes serve to protect multifilament fiber bundles, and keep them intact following extrusion, and also to impart lubricity to the fiber bundles and monofilament fibers so that they are not damaged in subsequent processing steps particularly in textile processing. The coating reduces tissue drag of, for example, braided sutures.Type: GrantFiled: May 15, 2014Date of Patent: April 17, 2018Assignee: Tepha, Inc.Inventors: David P. Martin, Said Rizk, Jon I. Montcrieff, Dennis W. Connelly
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Patent number: 9687585Abstract: Methods to produce thermoforms from P4HB homopolymer and blends thereof have been developed. These thermoforms are produced from films and sheets including P4HB, wherein the intrinsic viscosity of the P4HB is less than 3.5 dl/g, but greater than 0.35 dl/g, and the thermoforms are produced at a temperature equal to or greater than the softening point of P4HB, and more preferably at a temperature higher than the melting point of P4HB. A preferred embodiment includes a P4HB thermoform wherein a film or sheet including a P4HB polymer is thermoformed at a temperature between its melting point and 150° C. In a particularly preferred embodiment the thermoform is a laminate made from a P4HB film and a P4HB mesh.Type: GrantFiled: August 20, 2014Date of Patent: June 27, 2017Assignee: Tepha, Inc.Inventors: Matthew Bernasconi, Dennis Connelly, Said Rizk, David P. Martin, Simon F. Williams
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Patent number: 9655715Abstract: Absorbable implants for breast surgery that conform to the breast parenchyma and surrounding chest wall have been developed. These implants support newly lifted breast parenchyma, and/or a breast implant. The implants have mechanical properties sufficient to support a reconstructed breast, and allow the in-growth of tissue into the implant as it degrades. The implants have a strength retention profile allowing the support of the breast to be transitioned from the implant to regenerated host tissue, without significant loss of support. Three-dimensional implants for use in minimally invasive mastopexy/breast reconstruction procedures are also described, that confer shape to a patient's breast. These implants are self-reinforced, can be temporarily deformed, implanted in a suitably dissected tissue plane, and resume their preformed three-dimensional shape. The implants are preferably made from poly-4-hydroxybutyrate (P4HB) and copolymers thereof.Type: GrantFiled: April 23, 2015Date of Patent: May 23, 2017Assignee: Tepha, Inc.Inventors: Skander Limem, Emily Stires, Rebecca Marciante, Said Rizk, Arikha Moses, Fabio Felix, Bruce Van Natta
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Patent number: D803401Type: GrantFiled: April 23, 2015Date of Patent: November 21, 2017Assignee: TEPHA, INC.Inventors: Skander Limem, Emily Stires, Rebecca Marciante, Said Rizk, Arikha Moses, Fabio Felix, Bruce Van Natta
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Patent number: D816220Type: GrantFiled: April 11, 2017Date of Patent: April 24, 2018Assignee: Tepha, Inc.Inventors: Skander Limem, Emily Stires, Rebecca Marciante, Said Rizk, Arikha Moses, Fabio Felix, Bruce Van Natta
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Patent number: D816221Type: GrantFiled: April 11, 2017Date of Patent: April 24, 2018Assignee: Tepha, Inc.Inventors: Skander Limem, Emily Stires, Rebecca Marciante, Said Rizk, Arikha Moses, Fabio Felix, Bruce Van Natta
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Patent number: D836778Type: GrantFiled: October 9, 2015Date of Patent: December 25, 2018Assignee: Tepha, Inc.Inventors: Skander Limem, Emily Stires, Rebecca Marciante, Said Rizk, Arikha Moses, Fabio Felix, Bruce Van Natta