Patents by Inventor William DeCarbo
William DeCarbo 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: 20260047873Abstract: A metatarsus adductus technique may involve cutting an end of one or both of a second metatarsal and an intermediate cuneiform to create a wedge-shaped opening between the end of the second metatarsal and the intermediate cuneiform. The method may further involve cutting an end of one or both of a third metatarsal and a lateral cuneiform to also create a wedge-shaped opening between the end of the third metatarsal and the lateral cuneiform. The second metatarsal and the third metatarsal can then be moved in a transverse plane to close a metatarsus adductus angle. Movement of the second and third metatarsal may close the wedge-shaped openings forming during bone cutting. With the second and third metatarsals appropriately realigned, the clinician can fixate the moved position of the second metatarsal and the third metatarsal.Type: ApplicationFiled: August 25, 2025Publication date: February 19, 2026Inventors: Jody McAleer, William DeCarbo, Daniel Hatch, Paul Dayton, Robert Santrock, W. Bret Smith, Adriaan Kuyler, Sean Scanlan
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Publication number: 20250281188Abstract: A metatarsal correction procedure may be performed so as to minimize the length of the surgical incision created during the procedure. A variety of different instruments and/or techniques and facilitate the minimal incision procedure. In some examples, a technique involves making a comparatively small surgical incision to access a tarsometatarsal joint. A metatarsal and a cuneiform separated by the tarsometatarsal joint can be prepared. In addition, the metatarsal can be moved relative to the cuneiform using a bone positioning device having a metatarsal engagement member positioned in contact with the skin of the patient on a medial side of the metatarsal. After moving the metatarsal, a fixation device can be installed across the tarsometatarsal joint to cause fusion. In some examples, a plate holder is attached to a U-shaped bone plate to facilitate plating across the joint through the comparatively small incision.Type: ApplicationFiled: May 26, 2025Publication date: September 11, 2025Inventors: Robert D. Santrock, Paul Dayton, Daniel J. Hatch, W. Bret Smith, Carlos Eduardo Gil, Sean F. Scanlan, Joe W. Ferguson, John T. Treace, Tyler Hissong, Jason May, William DeCarbo, Jody McAleer
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Patent number: 12396770Abstract: A metatarsus adductus technique may involve cutting an end of one or both of a second metatarsal and an intermediate cuneiform to create a wedge-shaped opening between the end of the second metatarsal and the intermediate cuneiform. The method may further involve cutting an end of one or both of a third metatarsal and a lateral cuneiform to also create a wedge-shaped opening between the end of the third metatarsal and the lateral cuneiform. The second metatarsal and the third metatarsal can then be moved in a transverse plane to close a metatarsus adductus angle. Movement of the second and third metatarsal may close the wedge-shaped openings forming during bone cutting. With the second and third metatarsals appropriately realigned, the clinician can fixate the moved position of the second metatarsal and the third metatarsal.Type: GrantFiled: August 15, 2022Date of Patent: August 26, 2025Assignee: Treace Medical Concepts, Inc.Inventors: Jody McAleer, William DeCarbo, Daniel Hatch, Paul Dayton, Robert Santrock, W. Bret Smith, Adriaan Kuyler, Sean Scanlan
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Publication number: 20250169828Abstract: A bone cutting and joint realignment instrument may include an integrated spacer body, bone preparation guide, and fulcrum body. The spacer body is configured to be inserted into a joint space between a metatarsal and an opposed cuneiform of a foot. The bone preparation guide body is affixed to the spacer body with the spacer body extending downwardly from the bone preparation guide body. The bone preparation guide body can define at least one guide surface configured to be positioned over at least one of the metatarsal and the opposed cuneiform. The fulcrum body may be rotatably coupled to the spacer body within a bounded range of rotation, such as a bounded range of less than 45 degree. The fulcrum body can be configured to be inserted in an intermetatarsal space between the metatarsal and an adjacent metatarsal.Type: ApplicationFiled: January 13, 2025Publication date: May 29, 2025Inventors: Adriaan Kuyler, Jody McAleer, William DeCarbo, Robert Santrock, Sean Scanlan
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Patent number: 12310603Abstract: A metatarsal correction procedure may be performed so as to minimize the length of the surgical incision created during the procedure. A variety of different instruments and/or techniques and facilitate the minimal incision procedure. In some examples, a technique involves making a comparatively small surgical incision to access a tarsometatarsal joint. A metatarsal and a cuneiform separated by the tarsometatarsal joint can be prepared. In addition, the metatarsal can be moved relative to the cuneiform using a bone positioning device having a metatarsal engagement member positioned in contact with the skin of the patient on a medial side of the metatarsal. After moving the metatarsal, a fixation device can be installed across the tarsometatarsal joint to cause fusion. In some examples, a plate holder is attached to a U-shaped bone plate to facilitate plating across the joint through the comparatively small incision.Type: GrantFiled: February 17, 2022Date of Patent: May 27, 2025Assignee: Treace Medical Concepts, Inc.Inventors: Robert D. Santrock, Paul Dayton, Daniel J. Hatch, W. Bret Smith, Carlos Eduardo Gil, Sean F. Scanlan, Joe W. Ferguson, John T. Treace, Tyler Hissong, Jason May, William DeCarbo, Jody McAleer
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Patent number: 12193683Abstract: A bone cutting and joint realignment instrument may include an integrated spacer body, bone preparation guide, and fulcrum body. The spacer body is configured to be inserted into a joint space between a metatarsal and an opposed cuneiform of a foot. The bone preparation guide body is affixed to the spacer body with the spacer body extending downwardly from the bone preparation guide body. The bone preparation guide body can define at least one guide surface configured to be positioned over at least one of the metatarsal and the opposed cuneiform. The fulcrum body may be rotatably coupled to the spacer body within a bounded range of rotation, such as a bounded range of less than 45 degree. The fulcrum body can be configured to be inserted in an intermetatarsal space between the metatarsal and an adjacent metatarsal.Type: GrantFiled: May 20, 2022Date of Patent: January 14, 2025Assignee: Treace Medical Concepts, Inc.Inventors: Adriaan Kuyler, Jody McAleer, William DeCarbo, Robert Santrock, Sean Scanlan
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Patent number: 12004789Abstract: A metatarsus adductus technique may involve cutting an end of one or both of a second metatarsal and an intermediate cuneiform to create a wedge-shaped opening between the end of the second metatarsal and the intermediate cuneiform. The method may further involve cutting an end of one or both of a third metatarsal and a lateral cuneiform to also create a wedge-shaped opening between the end of the third metatarsal and the lateral cuneiform. The second metatarsal and the third metatarsal can then be moved in a transverse plane to close a metatarsus adductus angle. Movement of the second and third metatarsal may close the wedge-shaped openings forming during bone cutting. With the second and third metatarsals appropriately realigned, the clinician can fixate the moved position of the second metatarsal and the third metatarsal.Type: GrantFiled: May 19, 2021Date of Patent: June 11, 2024Assignee: Treace Medical Concepts, Inc.Inventors: Jody McAleer, William DeCarbo, Daniel Hatch, Paul Dayton, Robert Santrock, W. Bret Smith, Adriaan Kuyler, Sean Scanlan
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Publication number: 20230043129Abstract: A metatarsus adductus technique may involve cutting an end of one or both of a second metatarsal and an intermediate cuneiform to create a wedge-shaped opening between the end of the second metatarsal and the intermediate cuneiform. The method may further involve cutting an end of one or both of a third metatarsal and a lateral cuneiform to also create a wedge-shaped opening between the end of the third metatarsal and the lateral cuneiform. The second metatarsal and the third metatarsal can then be moved in a transverse plane to close a metatarsus adductus angle. Movement of the second and third metatarsal may close the wedge-shaped openings forming during bone cutting. With the second and third metatarsals appropriately realigned, the clinician can fixate the moved position of the second metatarsal and the third metatarsal.Type: ApplicationFiled: August 15, 2022Publication date: February 9, 2023Inventors: Jody McAleer, William DeCarbo, Daniel Hatch, Paul Dayton, Robert Santrock, W. Bret Smith, Adriaan Kuyler, Sean Scanlan
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Publication number: 20220370082Abstract: A bone cutting and joint realignment instrument may include an integrated spacer body, bone preparation guide, and fulcrum body. The spacer body is configured to be inserted into a joint space between a metatarsal and an opposed cuneiform of a foot. The bone preparation guide body is affixed to the spacer body with the spacer body extending downwardly from the bone preparation guide body. The bone preparation guide body can define at least one guide surface configured to be positioned over at least one of the metatarsal and the opposed cuneiform. The fulcrum body may be rotatably coupled to the spacer body within a bounded range of rotation, such as a bounded range of less than 45 degree. The fulcrum body can be configured to be inserted in an intermetatarsal space between the metatarsal and an adjacent metatarsal.Type: ApplicationFiled: May 20, 2022Publication date: November 24, 2022Inventors: Adriaan Kuyler, Jody McAleer, William DeCarbo, Robert Santrock, Sean Scanlan
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Publication number: 20220257267Abstract: A metatarsal correction procedure may be performed so as to minimize the length of the surgical incision created during the procedure. A variety of different instruments and/or techniques and facilitate the minimal incision procedure. In some examples, a technique involves making a comparatively small surgical incision to access a tarsometatarsal joint. A metatarsal and a cuneiform separated by the tarsometatarsal joint can be prepared. In addition, the metatarsal can be moved relative to the cuneiform using a bone positioning device having a metatarsal engagement member positioned in contact with the skin of the patient on a medial side of the metatarsal. After moving the metatarsal, a fixation device can be installed across the tarsometatarsal joint to cause fusion. In some examples, a plate holder is attached to a U-shaped bone plate to facilitate plating across the joint through the comparatively small incision.Type: ApplicationFiled: February 17, 2022Publication date: August 18, 2022Inventors: Robert D. Santrock, Paul Dayton, Daniel J. Hatch, W. Bret Smith, Carlos Eduardo Gil, Sean F. Scanlan, Joe W. Ferguson, John T. Treace, Tyler Hissong, Jason May, William DeCarbo, Jody McAleer
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Publication number: 20210361330Abstract: A metatarsus adductus technique may involve cutting an end of one or both of a second metatarsal and an intermediate cuneiform to create a wedge-shaped opening between the end of the second metatarsal and the intermediate cuneiform. The method may further involve cutting an end of one or both of a third metatarsal and a lateral cuneiform to also create a wedge-shaped opening between the end of the third metatarsal and the lateral cuneiform. The second metatarsal and the third metatarsal can then be moved in a transverse plane to close a metatarsus adductus angle. Movement of the second and third metatarsal may close the wedge-shaped openings forming during bone cutting. With the second and third metatarsals appropriately realigned, the clinician can fixate the moved position of the second metatarsal and the third metatarsal.Type: ApplicationFiled: May 19, 2021Publication date: November 25, 2021Inventors: Jody McAleer, William DeCarbo, Daniel Hatch, Paul Dayton, Robert Santrock, W. Bret Smith, Adriaan Kuyler, Sean Scanlan
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Patent number: D1011524Type: GrantFiled: February 23, 2022Date of Patent: January 16, 2024Assignee: Treace Medical Concepts, Inc.Inventors: Robert D. Santrock, Adriaan Kuyler, Jody McAleer, William DeCarbo
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Patent number: D1051382Type: GrantFiled: February 23, 2022Date of Patent: November 12, 2024Assignee: Treace Medical Concepts, Inc.Inventors: Adriaan Kuyler, Sean F. Scanlan, William DeCarbo, Jody McAleer