Patents by Inventor Trevor K. Lewis
Trevor K. Lewis 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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Publication number: 20220054273Abstract: The present disclosure pertains to ankle prostheses. In an example embodiment, the ankle prosthesis comprises an adjustable and replaceable intermediate implant that is disposed between a tibial implant and a talar implant. The intermediate implant is adjustable relative to the tibial implant and can be interlocked therewith once adjusted. Methods of using, fitting, and adjusting the device are also described. Still other embodiments are described.Type: ApplicationFiled: August 30, 2021Publication date: February 24, 2022Inventors: Shawn Thayer Huxel, John S. Crombie, Beat Hintermann, Andrew R. Fauth, Justin Hyer, Zachary C. Christensen, Trevor K. Lewis, Nathan O. Plowman, Neil Etherington, David Koch
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Patent number: 11103353Abstract: The present disclosure pertains to ankle prostheses. In an example embodiment, the ankle prosthesis comprises an adjustable and replaceable intermediate implant that is disposed between a tibial implant and a talar implant. The intermediate implant is adjustable relative to the tibial implant and can be interlocked therewith once adjusted. Methods of using, fitting, and adjusting the device are also described. Still other embodiments are described.Type: GrantFiled: September 18, 2017Date of Patent: August 31, 2021Assignee: DT MEDTECH, LLCInventors: Shawn Thayer Huxel, John S. Crombie, Beat Hintermann, Andrew R. Fauth, Justin Hyer, Zachary C. Christensen, Trevor K. Lewis, Nathan O. Plowman, Neil Etherington, David Koch
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Patent number: 10945859Abstract: Expandable fusion cages are disclosed which may be expandable in two substantially mutually perpendicular directions.Type: GrantFiled: January 29, 2019Date of Patent: March 16, 2021Assignee: AMPLIFY SURGICAL, INC.Inventors: Darin Ewer, Trevor K. Lewis, Justin Hyer, Nicholas Slater, Nathan O. Plowman
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Publication number: 20190231548Abstract: Expandable fusion cages are disclosed which may be expandable in two substantially mutually perpendicular directions.Type: ApplicationFiled: January 29, 2019Publication date: August 1, 2019Applicant: IMDS LLCInventors: Darin EWER, Trevor K. LEWIS, Justin HYER, Nicholas SLATER, Nathan O. PLOWMAN
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Publication number: 20180132591Abstract: Systems and methods for extracting hair follicle from underneath an external surface of the skin are provided. The systems may include a first member, a first fluid pathway, an inlet port and an outlet port. A portion of the first member may be configured to be moved beneath an external surface of a skin and the first member may be configured to receive tissue extracted from underneath the external surface of the skin. The inlet port may be configured to receive fluid into the first fluid pathway. The outlet port may be configured to allow fluid to exit the first fluid pathway. The first fluid pathway may be configured to allow fluid entering the fluid pathway to enter the first member at least towards a distal end of the first member, and allow the fluid to exit the first member at least towards a proximal end of the first member.Type: ApplicationFiled: December 16, 2016Publication date: May 17, 2018Inventors: Carlos K. Wesley, Trevor K. Lewis
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Publication number: 20180125663Abstract: The present disclosure pertains to ankle prostheses. In an example embodiment, the ankle prosthesis comprises an adjustable and replaceable intermediate implant that is disposed between a tibial implant and a talar implant. The intermediate implant is adjustable relative to the tibial implant and can be interlocked therewith once adjusted. Methods of using, fitting, and adjusting the device are also described. Still other embodiments are described.Type: ApplicationFiled: September 18, 2017Publication date: May 10, 2018Inventors: Shawn Thayer Huxel, John S. Crombie, Beat Hintermann, Andrew R. Fauth, Justin Hyer, Zachary C. Christensen, Trevor K. Lewis, Nathan O. Plowman, Neil Etherington, David Koch
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Patent number: 9861386Abstract: A surgical apparatus for hair removal surgery includes an extraction module, a visualization component and a bridging component. The extraction module includes independently controllable coring and clipping devices. The visualization component acts to align a target hair follicle with the extraction module. The extraction module also includes at least one independently controllable suction port. The instrument also includes a dissection module having a tissue separating device.Type: GrantFiled: April 6, 2015Date of Patent: January 9, 2018Assignee: PILOFOCUS, INC.Inventors: Carlos K. Wesley, Trevor K. Lewis
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Patent number: 9693799Abstract: Systems and methods for aligning hair follicle are provided. The systems may include at least one piercing member. The piercing member may be configured to pivot about a pivot axis. The piercing member may be operable to translate along a chosen axis, wherein the chosen axis may intersect with the pivot axis. The translation of the piercing member in a first direction may enable the piercing member to pierce through an external surface of a skin, and translation of the piercing member in a second direction may enable the piercing member to retract out of the skin.Type: GrantFiled: May 8, 2014Date of Patent: July 4, 2017Assignee: PiloFocus, Inc.Inventors: Carlos K. Wesley, Trevor K. Lewis
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Publication number: 20170095237Abstract: Systems and methods for extracting hair follicle from underneath an external surface of the skin are provided. The systems may include a first member and a counter pressure device. The first member may define a first bore and may have a longitudinal axis. A portion of the first member may be configured to be moved below an external surface of a skin. The first member may be configured to translate at least in a first direction along the longitudinal axis through a tissue and rotate about the longitudinal axis. The counter pressure device may be configured to interface with at least the external surface of the skin such that the tissue is disposed between the first member and the counter pressure device. The translation and rotation of the first member may result in cutting at least a portion of the tissue.Type: ApplicationFiled: December 15, 2016Publication date: April 6, 2017Inventors: Carlos K. Wesley, Trevor K. Lewis
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Patent number: 9314082Abstract: Systems and methods for extracting hair follicle from underneath an external surface of the skin are provided. The systems may include a first member and a counter pressure device. The first member may define a first bore and may have a longitudinal axis. A portion of the first member may be configured to be moved below an external surface of a skin. The first member may be configured to translate at least in a first direction along the longitudinal axis through a tissue and rotate about the longitudinal axis. The counter pressure device may be configured to interface with at least the external surface of the skin such that the tissue is disposed between the first member and the counter pressure device. The translation and rotation of the first member may result in cutting at least a portion of the tissue.Type: GrantFiled: May 8, 2014Date of Patent: April 19, 2016Assignee: PiloFocus, Inc.Inventors: Carlos K. Wesley, Trevor K. Lewis
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Patent number: 9198675Abstract: A surgical rasping and/or shaving system functions in multiple orthopedic applications, including but not limited to shoulder, knee, hip, wrist, ankle, spinal, or other joint procedures. The system may comprise a tissue removal member with a rasping and/or shaving head which may be low profile and offer a flat cutting/rasping/shaving surface, or with a cutting head with at least one cutting edge. The tissue removal member is configured to be driven by an attached hub that translates a rotational movement into a reciprocating motion. Suction for removal of bone fragments or other tissues is provided through an opening spaced apart from or adjacent to the rasping surface. A radiofrequency ablation (RF) electrode may be carried on the system to provide ablation or coagulation of soft tissues.Type: GrantFiled: April 18, 2013Date of Patent: December 1, 2015Assignees: IMDS LLCInventors: Keith J. Nelson, Daniel F. Justin, Douglas M. Lorang, Andrew R. Fauth, Daniel J. Triplett, Trevor K. Lewis, Gavin Sontag, Nathan D. Hansen, Karen E. Mohr, Joseph Q. Marietta, M. Mary Sinnott
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Publication number: 20150223840Abstract: A surgical apparatus for hair removal surgery includes an extraction module, a visualization component and a bridging component. The extraction module includes independently controllable coring and clipping devices. The visualization component acts to align a target hair follicle with the extraction module. The extraction module also includes at least one independently controllable suction port. The instrument also includes a dissection module having a tissue separating device.Type: ApplicationFiled: April 6, 2015Publication date: August 13, 2015Inventors: Carlos K. Wesley, Trevor K. Lewis
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Patent number: 9033986Abstract: A surgical rasping system functional in multiple orthopedic applications, including but not limited to shoulder, knee, hip, wrist, ankle, spinal, or other joint procedures. The system may comprise a tissue removal member with a rasping head which may be low profile and offer a flat cutting/rasping surface, or with a cutting head with at least one cutting edge. The tissue removal member is configured to be driven by an attached hub that translates a rotational movement into a reciprocating motion. Suction for removal of bone fragments or other tissues is provided through an opening spaced apart from or adjacent to the rasping surface. A radiofrequency ablation (RF) electrode may be carried on the rasping system to provide ablation or coagulation of soft tissues.Type: GrantFiled: September 13, 2011Date of Patent: May 19, 2015Assignees: IMDS, LLCInventors: Keith J. Nelson, Nathan D. Hansen, Trevor K. Lewis, Joseph Q. Marietta, M. Mary Sinnott
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Patent number: 9005203Abstract: A surgical instrument system functional in multiple orthopedic applications, including but not limited to shoulder, knee, hip, wrist, ankle, spinal, or other joint procedures. The system comprises a cutting head which includes jaw members which may be urged between open and closed positions to providing a biting or chewing action for removal of targeted tissues. The instrument system is configured to be driven by an attached hub that translates a rotational movement into a reciprocating motion to open and close the jaw members. Suction for removal of bone fragments or other tissues is provided through a suction opening.Type: GrantFiled: September 13, 2011Date of Patent: April 14, 2015Assignees: IMDS, LLCInventors: Keith J. Nelson, Andrew R. Fauth, Trevor K. Lewis, Daniel J. Triplett
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Patent number: 8998931Abstract: A surgical apparatus for hair removal surgery includes an extraction module, a visualization component and a bridging component. The extraction module includes independently controllable coring and clipping devices. The visualization component acts to align a target hair follicle with the extraction module. The extraction module also includes at least one independently controllable suction port. The instrument also includes a dissection module having a tissue separating device.Type: GrantFiled: October 17, 2012Date of Patent: April 7, 2015Assignee: PiloFocus, Inc.Inventors: Carlos K. Wesley, Trevor K. Lewis
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Publication number: 20150012013Abstract: Systems and methods for extracting hair follicle from underneath an external surface of the skin are provided. The systems may include a first member and a counter pressure device. The first member may define a first bore and may have a longitudinal axis. A portion of the first member may be configured to be moved below an external surface of a skin. The first member may be configured to translate at least in a first direction along the longitudinal axis through a tissue and rotate about the longitudinal axis. The counter pressure device may be configured to interface with at least the external surface of the skin such that the tissue is disposed between the first member and the counter pressure device. The translation and rotation of the first member may result in cutting at least a portion of the tissue.Type: ApplicationFiled: May 8, 2014Publication date: January 8, 2015Applicant: PiloFocus, Inc.Inventors: Carlos K. Wesley, Trevor K. Lewis
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Publication number: 20150012012Abstract: Systems and methods for extracting hair follicle from underneath an external surface of the skin are provided. The systems may include a first member, a first fluid pathway, an inlet port and an outlet port. A portion of the first member may be configured to be moved beneath an external surface of a skin and the first member may be configured to receive tissue extracted from underneath the external surface of the skin. The inlet port may be configured to receive fluid into the first fluid pathway. The outlet port may be configured to allow fluid to exit the first fluid pathway. The first fluid pathway may be configured to allow fluid entering the fluid pathway to enter the first member at least towards a distal end of the first member, and allow the fluid to exit the first member at least towards a proximal end of the first member.Type: ApplicationFiled: May 8, 2014Publication date: January 8, 2015Applicant: PILOFOCUS, INC.Inventors: Carlos K. Wesley, Trevor K. Lewis
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Publication number: 20140243870Abstract: Systems and methods for aligning hair follicle are provided. The systems may include at least one piercing member. The piercing member may be configured to pivot about a pivot axis. The piercing member may be operable to translate along a chosen axis, wherein the chosen axis may intersect with the pivot axis. The translation of the piercing member in a first direction may enable the piercing member to pierce through an external surface of a skin, and translation of the piercing member in a second direction may enable the piercing member to retract out of the skin.Type: ApplicationFiled: May 8, 2014Publication date: August 28, 2014Applicant: PiloFocus, Inc.Inventors: Carlos K. Wesley, Trevor K. Lewis
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Publication number: 20140236181Abstract: Systems and methods for extracting hair follicle from underneath an external surface of the skin are provided. The systems may include a first member and a counter pressure device. The first member may define a first bore and may have a longitudinal axis. A portion of the first member may be configured to be moved below an external surface of a skin. The first member may be configured to translate at least in a first direction along the longitudinal axis through a tissue and rotate about the longitudinal axis. The counter pressure device may be configured to interface with at least the external surface of the skin such that the tissue is disposed between the first member and the counter pressure device. The translation and rotation of the first member may result in cutting at least a portion of the tissue.Type: ApplicationFiled: May 8, 2014Publication date: August 21, 2014Applicant: PiloFocus, Inc.Inventors: Carlos K. Wesley, Trevor K. Lewis
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Publication number: 20130304070Abstract: A surgical rasping and/or shaving system functions in multiple orthopedic applications, including but not limited to shoulder, knee, hip, wrist, ankle, spinal, or other joint procedures. The system may comprise a tissue removal member with a rasping and/or shaving head which may be low profile and offer a flat cutting/rasping/shaving surface, or with a cutting head with at least one cutting edge. The tissue removal member is configured to be driven by an attached hub that translates a rotational movement into a reciprocating motion. Suction for removal of bone fragments or other tissues is provided through an opening spaced apart from or adjacent to the rasping surface. A radiofrequency ablation (RF) electrode may be carried on the system to provide ablation or coagulation of soft tissues.Type: ApplicationFiled: April 18, 2013Publication date: November 14, 2013Inventors: Keith J. Nelson, Daniel F. Justin, Douglas M. Lorang, Andrew R. Fauth, Daniel J. Triplett, Trevor K. Lewis, Gavin Sontag, Nathan D. Hansen, Karen E. Mohr, Joseph Q. Marietta, M. Mary Sinnott