Eric D Potts

US Patent:

7879096, Feb 1, 2011

Filed:

Apr 27, 2006

Appl. No.:

11/412751

Inventors:

Andrew M. Dickson - Memphis TN, US
James S. Harrop - Philadelphia PA, US
Dean G. Karahalios - Lake Forest IL, US
Eric A. Potts - Indianapolis IN, US
Christopher I. Shaffrey - Charlottesville VA, US
Jeffrey C. Wang - Sherman Oaks CA, US

Assignee:

Warsaw Orthopedic, Inc. - Warsaw IN

International Classification:

A61F 2/44

US Classification:

623 1711, 606 90, 606 99

Abstract:

An expandable medical implant for supporting skeletal structures. The medical implant having a length along its expandable dimension. The implant having a first tubular member with a connection end, an opposite skeletal interface end, and a central expansion instrument opening. Also, the implant has a second tubular member with a connection end configured to engage with the connection end of the first tubular member. The second tubular member having an opposite skeletal interface end. Additionally, an expansion instrument is insertable through the central expansion instrument opening and expandable against the first tubular member and the connection end of the second tubular member to expand the medical implant. The combined first and second tubular members are of a greater dimension along the length of the implant than the combined first and second tubular members are in any dimension perpendicular to their length.

US Patent:

7914581, Mar 29, 2011

Filed:

Apr 27, 2006

Appl. No.:

11/412559

Inventors:

Andrew M. Dickson - Memphis TN, US
James S. Harrop - Philadelphia PA, US
Dean G. Karahalios - Lake Forest IL, US
Eric A. Potts - Indianapolis IN, US
Christopher I. Shaffrey - Charlottesville VA, US

Assignee:

Warsaw Orthopedic, Inc. - Warsaw IN

International Classification:

A61F 2/44

US Classification:

623 1716, 623 1711, 623 1715

Abstract:

Embodiments of the invention include expandable, implantable devices and methods. Devices expand linearly to provide secure fixation between or among anatomical structures. In some embodiments, an implant replaces one or more vertebral bodies of the spine.

US Patent:

8211178, Jul 3, 2012

Filed:

Jun 18, 2009

Appl. No.:

12/487189

Inventors:

Anthony J. Melkent - Memphis TN, US
Eric A. Potts - Indianapolis IN, US
Stanley T. Palmatier - Olive Branch MS, US

Assignee:

Warsaw Orthopedic - Warsaw IN

International Classification:

A61F 2/44

US Classification:

623 1716

Abstract:

Implants sized to be inserted into an intervertebral space between first and second vertebral members. The implants may include a body with opposing first and second ends. An end cap may be connected to the body and include a first side with a contact surface that faces away from the body and is configured to contact against one of the first and second vertebral members when the implant is positioned in the intervertebral space. The end cap may also include a second side that faces towards the body. A connection mechanism may connect the end cap and the body for the end cap to pivot to adjust an angular position of the end cap relative to the body. The body and the end cap may each include locking features that engage together to lock an angular position of the end cap. The locking features may be configured to overlap at each of the angular positions to engage together and maintain the angular position of the end cap relative to the body when the implant is positioned in the intervertebral space.

US Patent:

8328871, Dec 11, 2012

Filed:

Nov 9, 2006

Appl. No.:

11/558320

Inventors:

Marco D. Capote - Memphis TN, US
Keith E. Miller - Germantown TN, US
Dean G. Karahalios - Lake Forest IL, US
Eric A. Potts - Indianapolis IN, US

Assignee:

Warsaw Orthopedic, Inc. - Warsaw IN

International Classification:

A61F 2/44

US Classification:

623 1716

Abstract:

An expandable medical implant for supporting bone structures is disclosed. The implant may include an outer member and an inner member receivable in the outer member. One of the outer and inner members includes a tapered surface and the other of the outer and inner members includes a scalloped surface. The implant may also include a locking element disposed between the tapered surface and the scalloped surface. The tapered surface may be movable relative to the locking element to transversely shift the locking element into engagement with the scalloped surface to inhibit a decrease in the overall implant height.

US Patent:

8366779, Feb 5, 2013

Filed:

Mar 28, 2011

Appl. No.:

13/073748

Inventors:

Andrew M. Dickson - Memphis TN, US
James S. Harrop - Philadelphia PA, US
Dean G. Karaholios - Lake Forest IL, US
Eric A. Potts - Indianapolis IN, US
Christopher I. Shaffrey - Charlottesville VA, US

Assignee:

Warsaw Orthopedic, Inc. - Warsaw IN

International Classification:

A61F 2/44

US Classification:

623 1716, 623 1711, 623 1715

Abstract:

Embodiments of the invention include expandable, implantable devices and methods. Devices expand linearly to provide secure fixation between or among anatomical structures. In some embodiments, an implant replaces one or more vertebral bodies of the spine.

US Patent:

8425608, Apr 23, 2013

Filed:

Jan 18, 2008

Appl. No.:

12/016662

Inventors:

Jonathan Dewey - Sunnyvale CA, US
Marco D. Capote - Lafayette CO, US
Eric Potts - Indianapolis IN, US

Assignee:

Warsaw Orthopedic, Inc. - Warsaw IN

International Classification:

A61F 2/44

US Classification:

623 1716

Abstract:

An expandable medical implant for supporting bone structures includes a curved outer member to cooperatively engage a first bone structure and a curved inner member configured to cooperatively engage a second bone structure. The curved inner member is receivable within and movable relative to the curved outer member along an arc bounded by the curvature of the curved outer member. One of the curved outer and inner members may include a tapered surface and the other of the curved outer and inner members may include a scalloped surface. The implant may include a locking element disposed between the tapered and scalloped surface. The locking element is movable between a locked position engaging the tapered surface and a roughened locking surface to inhibit a decrease in the overall height of the implant and an unlocked position permitting at least an increase in the overall height of the implant.

US Patent:

20110087328, Apr 14, 2011

Filed:

Dec 16, 2010

Appl. No.:

12/970649

Inventors:

Andrew M. Dickson - Memphis TN, US
James S. Harrop - Philadelphia PA, US
Dean G. Karahalios - Lake Forest IL, US
Eric A. Potts - Indianapolis IN, US
Christopher I. Shaffrey - Charlottesville VA, US
Jeffrey C. Wang - Sherman Oaks CA, US

Assignee:

Warsaw Orthopedic, Inc. - Warsaw IN
SDGI Holdings, Inc. - Wilmington DE

International Classification:

A61F 2/44

US Classification:

623 1711

Abstract:

Embodiments of the invention include expandable, implantable devices and methods. Devices expand linearly to provide secure fixation between or among anatomical structures. In some embodiments, an implant replaces one or more vertebral bodies of the spine.

US Patent:

20110268325, Nov 3, 2011

Filed:

Apr 30, 2010

Appl. No.:

12/771576

Inventors:

Robert Teichman - Lafayette CO, US
Eric Potts - Indianapolis IN, US
Robert J. Reddy - Broomfield CO, US

Assignee:

Medtronic Navigation, Inc - Louisville CO

International Classification:

G06K 9/00

US Classification:

382128

Abstract:

A system and method for a procedure that can be performed on any appropriate subject. Procedures can include assembling any appropriate work piece or installing members into a work piece, such as an airframe, autoframe, etc. Regardless of the subject, generally the procedure can have a selected result that is efficacious. The efficacious result may be the desired or best result for the procedure. The system and method can be used in confirming a selected result that can be efficacious.