Patents by Inventor Jason A. Jegge
Jason A. Jegge 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: 11925723Abstract: Antimicrobial metal ion coatings and implants including them. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, rhodium, manganese, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal. The implant may be configured as an implant such as a bone-screw or intramedullary rod-like body configured to receive a treatment cartridge having a coating as described.Type: GrantFiled: June 1, 2021Date of Patent: March 12, 2024Assignee: Silver Bullet Therapeutics, Inc.Inventors: Houdin Dehnad, Paul E. Chirico, Bohdan Wolodymyr Chopko, John Barr, Robert Vincent McCormick, Julie Lucero, Jason A. Jegge
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Publication number: 20210283303Abstract: Antimicrobial metal ion coatings and implants including them. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, rhodium, manganese, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal. The implant may be configured as an implant such as a bone-screw or intramedullary rod-like body configured to receive a treatment cartridge having a coating as described.Type: ApplicationFiled: June 1, 2021Publication date: September 16, 2021Inventors: Houdin DEHNAD, Paul E. CHIRICO, Bohdan Wolodymyr CHOPKO, John BARR, Robert Vincent McCORMICK, Julie LUCERO, Jason A. JEGGE
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Patent number: 11020508Abstract: Antimicrobial metal ion coatings and implants including them. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, rhodium, manganese, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal. The implant may be configured as an implant such as a bone-screw or intramedullary rod-like body configured to receive a treatment cartridge having a coating as described.Type: GrantFiled: April 22, 2019Date of Patent: June 1, 2021Assignee: Silver Bullet Therapeutics, Inc.Inventors: Houdin Dehnad, Paul E. Chirico, Bohdan Wolodymyr Chopko, John Barr, Robert Vincent McCormick, Julie Lucero, Jason A. Jegge
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Publication number: 20190247538Abstract: Antimicrobial metal ion coatings and implants including them. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, rhodium, manganese, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal. The implant may be configured as an implant such as a bone-screw or intramedullary rod-like body configured to receive a treatment cartridge having a coating as described.Type: ApplicationFiled: April 22, 2019Publication date: August 15, 2019Inventors: Houdin DEHNAD, Paul E. CHIRICO, Bohdan Wolodymyr CHOPKO, John BARR, Robert Vincent McCORMICK, Julie LUCERO, Jason A. JEGGE
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Patent number: 10265435Abstract: Antimicrobial metal ion coatings and implants including them. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, rhodium, manganese, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal. The implant may be configured as an implant such as a bone-screw or intramedullary rod-like body configured to receive a treatment cartridge having a coating as described.Type: GrantFiled: November 21, 2017Date of Patent: April 23, 2019Assignee: Silver Bullet Therapeutics, Inc.Inventors: Houdin Dehnad, Paul E. Chirico, Bohdan Wolodymyr Chopko, John Barr, Robert Vincent McCormick, Julie Lucero, Jason A. Jegge
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Publication number: 20180093013Abstract: Antimicrobial metal ion coatings and implants including them. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, rhodium, manganese, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal. The implant may be configured as an implant such as a bone-screw or intramedullary rod-like body configured to receive a treatment cartridge having a coating as described.Type: ApplicationFiled: November 21, 2017Publication date: April 5, 2018Inventors: Houdin DEHNAD, Paul E. CHIRICO, Bohdan Wolodymyr CHOPKO, John BARR, Robert Vincent MC CORMICK, Julie LUCERO, Jason A. JEGGE
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Patent number: 9821094Abstract: Antimicrobial metal ion coatings. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal.Type: GrantFiled: August 24, 2015Date of Patent: November 21, 2017Assignee: Silver Bullet Therapeutics, Inc.Inventors: Houdin Dehnad, Paul E. Chirico, Bohdan Wolodymyr Chopko, John Barr, Robert Vincent McCormick, Julie Lucero, Jason A. Jegge
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Publication number: 20170312399Abstract: Antimicrobial metal ion coatings. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, niobium or rhenium) on a substrate (including, but not limited to absorbable/resorbable substrates) so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal.Type: ApplicationFiled: November 13, 2015Publication date: November 2, 2017Inventors: Houdin DEHNAD, Julie LUCERO, Paul E. CHIRICO, Jason A. JEGGE, Thomas Lee GUTSHALL
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Patent number: 9452242Abstract: Antimicrobial metal ion coatings. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, niobium or rhenium) on a substrate (including, but not limited to absorbable/resorbable substrates) so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal.Type: GrantFiled: July 22, 2015Date of Patent: September 27, 2016Assignee: Silver Bullet Therapeutics, Inc.Inventors: Houdin Dehnad, Julie Lucero, Paul E. Chirico, Jason A. Jegge, Thomas Lee Gutshall
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Publication number: 20160136335Abstract: Antimicrobial metal ion coatings. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, niobium or rhenium) on a substrate (including, but not limited to absorbable/resorbable substrates) so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal.Type: ApplicationFiled: July 22, 2015Publication date: May 19, 2016Inventors: Houdin DEHNAD, Julie LUCERO, Paul E. CHIRICO, Jason A. JEGGE, Thomas Lee GUTSHALL
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Publication number: 20150359946Abstract: Antimicrobial metal ion coatings. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal.Type: ApplicationFiled: August 24, 2015Publication date: December 17, 2015Inventors: Houdin DEHNAD, Paul E. CHIRICO, Bohdan Wolodymyr CHOPKO, John BARR, Robert Vincent MC CORMICK, Julie LUCERO, Jason A. JEGGE
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Patent number: 9114197Abstract: Antimicrobial metal ion coatings. In particular, described herein are coatings including an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, niobium or rhenium) on a substrate so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is exposed to a bodily fluid. The anodic metal may be at least about 25 percent by volume of the coating, resulting in a network of anodic metal with less than 20% of the anodic metal in the coating fully encapsulated by cathodic metal.Type: GrantFiled: April 6, 2015Date of Patent: August 25, 2015Assignee: Silver Bullett Therapeutics, Inc.Inventors: Houdin Dehnad, Paul E. Chirico, Bohdan Wolodymyr Chopko, John Barr, Robert Vincent McCormick, Julie Lucero, Jason A. Jegge
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Patent number: 8999367Abstract: Bioabsorbable substrates having antimicrobial metal ion coatings that are well suited for implantation in to a subject's body to treat and/or prevent infection. In particular, described herein are flexible bioabsorbable filaments that are coated with an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, niobium or rhenium) on the filament so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is inserted into a subject's body. The anodic metal may be at least about 30 percent by volume of the coating.Type: GrantFiled: December 12, 2014Date of Patent: April 7, 2015Assignee: Silver Bullet Therapeutics, Inc.Inventors: Houdin Dehnad, Paul E. Chirico, Bohdan Wolodymyr Chopko, John Barr, Robert Vincent Mc Cormick, Julie Lucero, Jason A. Jegge
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Patent number: 8927004Abstract: Bioabsorbable substrates having antimicrobial metal ion coatings that are well suited for implantation in to a subject's body to treat and/or prevent infection. In particular, described herein are flexible bioabsorbable filaments that are coated with an anodic metal (e.g., silver and/or zinc and/or copper) that is co-deposited with a cathodic metal (e.g., palladium, platinum, gold, molybdenum, titanium, iridium, osmium, niobium or rhenium) on the filament so that the anodic metal is galvanically released as antimicrobial ions when the apparatus is inserted into a subject's body. The anodic metal may be at least about 30 percent by volume of the coating.Type: GrantFiled: June 11, 2014Date of Patent: January 6, 2015Assignee: Silver Bullet Therapeutics, Inc.Inventors: Houdin Dehnad, Paul E. Chirico, Bohdan Wolodymyr Chopko, John Barr, Robert Vincent McCormick, Julie Lucero, Jason A. Jegge
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Publication number: 20090216260Abstract: Described herein are interlocking surgical tools (e.g., trocars, cannula, etc.) that form a composite surgical device having a handle and a finger grip region that are separate, when the component portions are interlocked. In particular, these tools are configured so that the separate handle and finger grip regions are perpendicular to each other. This arrangement may provide benefits in manipulating these devices.Type: ApplicationFiled: February 20, 2009Publication date: August 27, 2009Inventors: Alison M. SOUZA, Brian E. Martini, Gary B. Hulme, Jason A. Jegge