Patents by Inventor Paul H. Cohen
Paul H. Cohen 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: 10682431Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: GrantFiled: December 23, 2016Date of Patent: June 16, 2020Assignee: Aionx Antimicrobial Technologies, Inc.Inventors: Thomas A. Fuller, Richard Wysk, Wayne J. Sebastianelli, Paul H. Cohen, Robert C. Voigt
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Patent number: 9713501Abstract: Provided herein is a tissue stretching device configured for orbicular expansion of a tissue placed therein. Methods of use of the device to stretch a tissue as well as for culturing organized tissues are also provided. Stretched and/or cultured tissues produced by these processes are also provided, as well as methods making use of the same.Type: GrantFiled: July 8, 2014Date of Patent: July 25, 2017Assignees: Wake Forest University Health Sciences, North Carolina State UniversityInventors: Rohan A. Shirwaiker, Caroline Elise Webster, John D. Jackson, Richard A. Wysk, Sang Jin Lee, Ola L. A. Harrysson, James J. Yoo, Anthony Atala, Paul H. Cohen, Yuan-Shin Lee, Peter M. Prim, Molly F. Purser, Katie L. Basinger
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Publication number: 20170165384Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: ApplicationFiled: December 23, 2016Publication date: June 15, 2017Inventors: Thomas A. Fuller, Richard Wysk, Wayne J. Sebastianelli, Paul H. Cohen, Robert C. Voigt
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Patent number: 9566359Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: GrantFiled: December 11, 2013Date of Patent: February 14, 2017Assignee: ARGENTUMCIDAL ELECTRICS, INC.Inventors: Thomas A. Fuller, Richard Wysk, Wayne J. Sebastianelli, Paul H. Cohen, Robert C. Voigt
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Patent number: 9561294Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: GrantFiled: November 26, 2013Date of Patent: February 7, 2017Assignee: ARGENTUMCIDAL ELECTRICS, INC.Inventors: Thomas A. Fuller, Richard Wysk, Wayne J. Sebastianelli, Paul H. Cohen, Robert C. Voigt
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Patent number: 9561295Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: GrantFiled: December 11, 2013Date of Patent: February 7, 2017Assignee: ARGENTUMCIDAL ELECTRICS, INC.Inventors: Thomas A. Fuller, Richard Wysk, Wayne J. Sebastianelli, Paul H. Cohen, Robert C. Voigt
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Publication number: 20150018948Abstract: Provided herein is a tissue stretching device configured for orbicular expansion of a tissue placed therein. Methods of use of the device to stretch a tissue as well as for culturing organized tissues are also provided. Stretched and/or cultured tissues produced by these processes are also provided, as well as methods making use of the same.Type: ApplicationFiled: July 8, 2014Publication date: January 15, 2015Inventors: Rohan A. Shirwaiker, Caroline Elsie Webster, John D. Jackson, Richard A. Wysk, Sang Jin Lee, Ola L.A. Harrysson, James J. Yoo, Anthony Atala, Paul H. Cohen, Yuan-Shin Lee, Peter M. Prim, Molly F. Purser, Katie L. Basinger
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Publication number: 20140286833Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: ApplicationFiled: November 26, 2013Publication date: September 25, 2014Applicant: ArgentumCidal Electrics, Inc.Inventors: Thomas A. FULLER, Richard WYSK, Wayne J. SEBASTIANELLI, Paul H. COHEN, Robert C. VOIGT
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Publication number: 20140255268Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: ApplicationFiled: December 11, 2013Publication date: September 11, 2014Applicant: ArgentumCidal Electrics, Inc.Inventors: Thomas A. FULLER, Richard WYSK, Wayne J. SEBASTIANELLI, Paul H. COHEN, Robert C. VOIGT
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Publication number: 20140255267Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: ApplicationFiled: December 11, 2013Publication date: September 11, 2014Applicant: ArgentumCidal Electrics, Inc.Inventors: Thomas A. FULLER, Richard WYSK, Wayne J. SEBASTIANELLI, Paul H. COHEN, Robert C. VOIGT
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Patent number: 8609036Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: GrantFiled: December 27, 2007Date of Patent: December 17, 2013Assignee: Agentumcidalelectrics, Inc.Inventors: Thomas A. Fuller, Richard A. Wysk, Wayne J. Sebastianelli, Paul H. Cohen, Robert C. Voigt
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Publication number: 20080199352Abstract: A method and device for destroying and inhibiting exposure to microbes and infection includes a first element and a second element, and a power source. At least one of the elements includes antimicrobial metal, which, when energized by the power source, produces ions that are lethal to microbes. The device can be incorporated into virtually any useful object. During normal use of the object, electrical communication is established between the two elements, causing current supplied from the power source to flow through the antimicrobial metal. The two elements are configured and arranged to ensure that ions flowing from the antimicrobial metal flow through the region in which it is desired to kill microbes. The antimicrobial metal can be on the surface of the element, incorporated into the material making up the element, or provided in any other way that allows the antimicrobial effect to be achieved.Type: ApplicationFiled: December 27, 2007Publication date: August 21, 2008Inventors: Thomas A. Fuller, Richard A. Wysk, Wayne J. Sebastianelli, Paul H. Cohen, Robert C. Voigt