Patents by Inventor Tracy Scott Anderson
Tracy Scott Anderson 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).
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Patent number: 11606953Abstract: A viable disc regenerative composition has a micronized material of nucleus pulposus and a biological composition made from a mixture of mechanically selected allogeneic biologic material derived from bone marrow having non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components; and wherein the mixture is compatible with biologic function and further includes non-expanded whole cells. The biological composition is predisposed to demonstrate or support elaboration of active volume or spatial geometry consistent in morphology with that of disc tissue. The viable disc regenerative composition extends regenerative resonance that compliments or mimics disc tissue complexity.Type: GrantFiled: October 15, 2020Date of Patent: March 21, 2023Assignee: Vivex Biologies Group, Inc.Inventors: Harry Thomas Temple, Timothy Ganey, Stephanie Gonzalez, Tracy Scott Anderson, Shabnam Namin
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Patent number: 11471559Abstract: A biological composition has a mixture of mechanically selected allogeneic biologic material derived from bone marrow. The mixture has non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components. The mixture including non-whole cell fractions including one or more of exosomes, transcriptosomes, proteasomes, membrane rafts, lipid rafts. The mixture is compatible with biologic function.Type: GrantFiled: November 20, 2017Date of Patent: October 18, 2022Assignee: Vivex Biologics Group, Inc.Inventors: Timothy Ganey, Wendy W. Weston, Miguel Quevedo, Stuart Oglesby, Tracy Scott Anderson
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Publication number: 20220288274Abstract: A biological composition has a mixture of mechanically selected allogeneic biologic material derived from bone marrow. The mixture has non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components. The mixture including non-whole cell fractions including one or more of exosomes, transcriptosomes, proteasomes, membrane rafts, lipid rafts. The mixture is compatible with biologic function.Type: ApplicationFiled: May 30, 2022Publication date: September 15, 2022Inventors: Timothy Ganey, Wendy W. Weston, Miguel Quevedo, Stuart Oglesby, Tracy Scott Anderson
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Patent number: 11324215Abstract: A viable disc regenerative composition has a micronized material of nucleus pulposus and a biological composition made from a mixture of mechanically selected allogeneic biologic material derived from bone marrow having non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components; and wherein the mixture is compatible with biologic function and further includes non-expanded whole cells. The biological composition is predisposed to demonstrate or support elaboration of active volume or spatial geometry consistent in morphology with that of disc tissue. The viable disc regenerative composition extends regenerative resonance that compliments or mimics disc tissue complexity.Type: GrantFiled: February 6, 2019Date of Patent: May 10, 2022Assignee: Vivex Biologies Group, Inc.Inventors: Harry Thomas Temple, Timothy Ganey, Stephanie Gonzalez, Tracy Scott Anderson, Shabnam Namin
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Publication number: 20210361828Abstract: A method of making infused bone fibers employs the following steps: cutting or shaving whole bone into bone fibers, washing the bone fibers, demineralizing or decalcifying at least partially the whole bone or bone fibers and infusing the bone fibers with a supernatant of biologic material or a polyampholyte cryoprotectant or a combination of both to create infused bone fibers. The step of infusing includes exposing the bone fibers to a negative pressure or vacuum to draw the supernatant and/or the polyampholyte cryoprotectant into the bone fibers, or alternatively, exposing the demineralized whole bone to a positive pressure to drive the supernatant and/or the polyampholyte cryoprotectant into the bone. The resultant method creates an infused bone grafting composition having bone fibers taken from whole bone, demineralized or decalcified at least partially and infused with one or more of a supernatant of biologic material or a polyampholyte cryoprotectant or both.Type: ApplicationFiled: August 6, 2021Publication date: November 25, 2021Inventors: Timothy Ganey, Tracy Scott Anderson, Harry Thomas Temple
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Patent number: 11116872Abstract: A method of making infused bone fibers employs the following steps: cutting or shaving whole bone into bone fibers, washing the bone fibers, demineralizing or decalcifying at least partially the whole bone or bone fibers and infusing the bone fibers with a supernatant of biologic material or a polyampholyte cryoprotectant or a combination of both to create infused bone fibers. The step of infusing includes exposing the bone fibers to a negative pressure or vacuum to draw the supernatant and/or the polyampholyte cryoprotectant into the bone fibers, or alternatively, exposing the demineralized whole bone to a positive pressure to drive the supernatant and/or the polyampholyte cryoprotectant into the bone. The resultant method creates an infused bone grafting composition having bone fibers taken from whole bone, demineralized or decalcified at least partially and infused with one or more of a supernatant of biologic material or a polyampholyte cryoprotectant or both.Type: GrantFiled: August 17, 2018Date of Patent: September 14, 2021Assignee: Vivex Biologies Group, Inc.Inventors: Timothy Ganey, Tracy Scott Anderson, Harry Thomas Temple
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Publication number: 20210178021Abstract: A method of making infused bone particles employs the following steps: cutting or shaving whole bone into bone particles, washing the bone particles, demineralizing or decalcifying at least partially the whole bone or bone particles and infusing the bone particles with a supernatant of biologic material or a polyampholyte cryoprotectant or a combination of both to create infused bone particles. The step of infusing includes exposing the bone particles to a negative pressure or vacuum to draw the supernatant and/or the polyampholyte cryoprotectant into the bone particles, or alternatively, exposing the demineralized whole bone to a positive pressure to drive the supernatant and/or the polyampholyte cryoprotectant into the bone. The resultant method creates an infused bone grafting composition having bone particles taken from whole bone, demineralized or decalcified at least partially and infused with one or more of a supernatant of biologic material or a polyampholyte cryoprotectant or both.Type: ApplicationFiled: February 26, 2021Publication date: June 17, 2021Inventors: Harry Thomas Temple, Tracy Scott Anderson, Timothy Ganey
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Publication number: 20210029987Abstract: A viable disc regenerative composition has a micronized material of nucleus pulposus and a biological composition made from a mixture of mechanically selected allogeneic biologic material derived from bone marrow having non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components; and wherein the mixture is compatible with biologic function and further includes non-expanded whole cells. The biological composition is predisposed to demonstrate or support elaboration of active volume or spatial geometry consistent in morphology with that of disc tissue. The viable disc regenerative composition extends regenerative resonance that compliments or mimics disc tissue complexity.Type: ApplicationFiled: October 15, 2020Publication date: February 4, 2021Inventors: Harry Thomas Temple, Timothy Ganey, Stephanie Gonzalez, Tracy Scott Anderson, Shabnam Namin
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Publication number: 20210030688Abstract: A coated biological composition has a mixture of biologic material and a volume of a liquid protectant. The mixture of biologic material has non-whole cellular components or whole cells or combinations of the non-whole cellular components and whole cells, wherein the mixture is compatible with biologic function. The volume of a liquid protectant is intermixed with the mixture of biologic material, wherein the liquid protectant forms a coating externally enveloping each of the non-whole cellular components, if any, and each of the whole cells, if any, of the mixture of biologic material, to form the coated biological composition. The coated biological composition is frozen and thereafter thawed and then frozen a second time for storage or frozen at least once and thawed and stored under refrigeration above freezing, or frozen and thawed and then concentrated by drying, or while frozen without thawing lyophilized for ambient or room temperature storage.Type: ApplicationFiled: October 16, 2020Publication date: February 4, 2021Inventors: Timothy Ganey, Tracy Scott Anderson
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Patent number: 10743994Abstract: The present invention relates to a fenestrated bone graft and a method of preparing cortical bone in thin strips then fully demineralizing it to give it formed flexibility and then creating fenestrations in the cortical bone in a fashion similar to but not identical to skin grafts.Type: GrantFiled: February 22, 2019Date of Patent: August 18, 2020Assignee: Vivex Biologics Group, Inc.Inventors: Harry Thomas Temple, Tracy Scott Anderson, Edgar S. Maldonado, Sonya A. Cooper
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Patent number: 10682440Abstract: The present invention relates to a fenestrated bone wrap graft and a method of preparing cortical bone in thin sheets then fully demineralizing it to give it formed flexibility and then creating fenestrations in the cortical bone in a fashion similar to, but not identical to, skin grafts.Type: GrantFiled: April 14, 2017Date of Patent: June 16, 2020Assignee: Vivex Biologics Group, Inc.Inventors: Tracy Scott Anderson, John Johnson
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Patent number: 10645921Abstract: A viable disc regenerative composition has a micronized material of nucleus pulposus and a biological composition made from a mixture of mechanically selected allogeneic biologic material derived from bone marrow having non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components; and wherein the mixture is compatible with biologic function and further includes non-expanded whole cells. The biological composition is predisposed to demonstrate or support elaboration of active volume or spatial geometry consistent in morphology with that of disc tissue. The viable disc regenerative composition extends regenerative resonance that compliments or mimics disc tissue complexity.Type: GrantFiled: January 6, 2017Date of Patent: May 12, 2020Assignee: Vivex Biologics Group, Inc.Inventors: Harry Thomas Temple, Timothy Ganey, Stephanie Gonzalez, Tracy Scott Anderson, Shabnam Namin
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Publication number: 20200054789Abstract: A method of making infused bone fibers employs the following steps: cutting or shaving whole bone into bone fibers, washing the bone fibers, demineralizing or decalcifying at least partially the whole bone or bone fibers and infusing the bone fibers with a supernatant of biologic material or a polyampholyte cryoprotectant or a combination of both to create infused bone fibers. The step of infusing includes exposing the bone fibers to a negative pressure or vacuum to draw the supernatant and/or the polyampholyte cryoprotectant into the bone fibers, or alternatively, exposing the demineralized whole bone to a positive pressure to drive the supernatant and/or the polyampholyte cryoprotectant into the bone. The resultant method creates an infused bone grafting composition having bone fibers taken from whole bone, demineralized or decalcified at least partially and infused with one or more of a supernatant of biologic material or a polyampholyte cryoprotectant or both.Type: ApplicationFiled: August 17, 2018Publication date: February 20, 2020Inventors: Timothy Ganey, Tracy Scott Anderson, Harry Thomas Temple
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Publication number: 20200054788Abstract: A method of making infused bone particles employs the following steps: cutting or shaving whole bone into bone particles, washing the bone particles, demineralizing or decalcifying at least partially the whole bone or bone particles and infusing the bone particles with a supernatant of biologic material or a polyampholyte cryoprotectant or a combination of both to create infused bone particles. The step of infusing includes exposing the bone particles to a negative pressure or vacuum to draw the supernatant and/or the polyampholyte cryoprotectant into the bone particles, or alternatively, exposing the demineralized whole bone to a positive pressure to drive the supernatant and/or the polyampholyte cryoprotectant into the bone. The resultant method creates an infused bone grafting composition having bone particles taken from whole bone, demineralized or decalcified at least partially and infused with one or more of a supernatant of biologic material or a polyampholyte cryoprotectant or both.Type: ApplicationFiled: August 17, 2018Publication date: February 20, 2020Inventors: Harry Thomas Temple, Timothy Ganey, Tracy Scott Anderson
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Publication number: 20190191694Abstract: A viable disc regenerative composition has a micronized material of nucleus pulposus and a biological composition made from a mixture of mechanically selected allogeneic biologic material derived from bone marrow having non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components; and wherein the mixture is compatible with biologic function and further includes non-expanded whole cells. The biological composition is predisposed to demonstrate or support elaboration of active volume or spatial geometry consistent in morphology with that of disc tissue. The viable disc regenerative composition extends regenerative resonance that compliments or mimics disc tissue complexity.Type: ApplicationFiled: February 6, 2019Publication date: June 27, 2019Inventors: Harry Thomas Temple, Timothy Ganey, Stephanie Gonzalez, Tracy Scott Anderson, Shabnam Namin
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Publication number: 20190183652Abstract: The present invention relates to a fenestrated bone graft and a method of preparing cortical bone in thin strips then fully demineralizing it to give it formed flexibility and then creating fenestrations in the cortical bone in a fashion similar to but not identical to skin grafts.Type: ApplicationFiled: February 22, 2019Publication date: June 20, 2019Inventors: Harry Thomas Temple, Tracy Scott Anderson, Edgar S. Maldonado, Sonya A. Cooper
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Publication number: 20190151506Abstract: A biological composition has a mixture of mechanically selected allogeneic biologic material derived from bone marrow. The mixture has non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components. The mixture including non-whole cell fractions including one or more of exosomes, transcriptosomes, proteasomes, membrane rafts, lipid rafts. The mixture is compatible with biologic function.Type: ApplicationFiled: November 20, 2017Publication date: May 23, 2019Applicant: Vivex Biomedical, Inc.Inventors: Timothy Ganey, Wendy W. Weston, Miguel Quevedo, Stuart Oglesby, Tracy Scott Anderson
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Patent number: 10245146Abstract: The present invention relates to a fenestrated bone graft and a method of preparing cortical bone in thin strips then fully demineralizing it to give it formed flexibility and then creating fenestrations in the cortical bone in a fashion similar to but not identical to skin grafts.Type: GrantFiled: April 6, 2015Date of Patent: April 2, 2019Assignee: Vivex Biomedical, Inc.Inventors: Harry Thomas Temple, Tracy Scott Anderson, Edgar S. Maldonado, Sonya A. Cooper
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Publication number: 20180325830Abstract: A coated biological composition has a mixture of biologic material and a volume of a liquid protectant. The mixture of biologic material has non-whole cellular components or whole cells or combinations of the non-whole cellular components and whole cells, wherein the mixture is compatible with biologic function. The volume of a liquid protectant is intermixed with the mixture of biologic material, wherein the liquid protectant forms a coating externally enveloping each of the non-whole cellular components, if any, and each of the whole cells, if any, of the mixture of biologic material, to form the coated biological composition. The coated biological composition is frozen and thereafter thawed and then frozen a second time for storage or frozen at least once and thawed and stored under refrigeration above freezing, or frozen and thawed and then concentrated by drying, or while frozen without thawing lyophilized for ambient or room temperature storage.Type: ApplicationFiled: February 17, 2018Publication date: November 15, 2018Applicant: Vivex Biomedical, Inc.Inventors: Timothy Ganey, Tracy Scott Anderson
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Publication number: 20180169301Abstract: A viable disc regenerative composition has a micronized material of nucleus pulposus and a biological composition made from a mixture of mechanically selected allogeneic biologic material derived from bone marrow having non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components; and wherein the mixture is compatible with biologic function and further includes non-expanded whole cells. The biological composition is predisposed to demonstrate or support elaboration of active volume or spatial geometry consistent in morphology with that of disc tissue. The viable disc regenerative composition extends regenerative resonance that compliments or mimics disc tissue complexity.Type: ApplicationFiled: January 6, 2017Publication date: June 21, 2018Applicant: Vivex Biomedical, Inc.Inventors: Harry Thomas Temple, Timothy Ganey, Stephanie Gonzalez, Tracy Scott Anderson, Shabnam Namin