CHARLES R GORDON, M.D.
Medical Practice at Roseland Blvd, Tyler, TX

2007007, Mar 29, 2007

Sep 25, 2006

11/526849

Charles Gordon - Tyler TX, US
Corey Harbold - Tyler TX, US

A61F 2/44

623017150

An artificial functional spinal unit is provided comprising, generally, an expandable artificial intervertebral implant that can be placed via a posterior surgical approach and used in conjunction with one or more artificial facet joints to provide an anatomically correct range of motion. Expandable artificial intervertebral implants in both lordotic and non-lordotic designs are disclosed, as well as lordotic and non-lordotic expandable cages for both PLIF (posterior lumber interbody fusion) and TLIF (transforaminal lumbar interbody fusion) procedures. The expandable implants may have various shapes, such as round, square, rectangular, banana-shaped, kidney-shaped, or other similar shapes. By virtue of their posteriorly implanted approach, the disclosed artificial FSU's allow for posterior decompression of the neural elements, reconstruction of all or part of the natural functional spinal unit, restoration and maintenance of lordosis, maintenance of motion, and restoration and maintenance of disc space height.

7204853, Apr 17, 2007

Aug 5, 2003

10/634950

Charles Gordon - Tyler TX, US
Corey Harbold - Tyler TX, US

Flexuspine, Inc. - Carnegie PA

A61F 2/44, A61B 17/68

623 1716, 623 1715, 606 61

An artificial functional spinal unit is provided comprising, generally, an expandable artificial intervertebral implant that can be placed via a posterior surgical approach and used in conjunction with one or more artificial facet joints to provide an anatomically correct range of motion. Expandable artificial intervertebral implants in both lordotic and non-lordotic designs are disclosed, as well as lordotic and non-lordotic expandable cages for both PLIF (posterior lumber interbody fusion) and TLIF (transforaminal lumbar interbody fusion) procedures. The expandable implants may have various shapes, such as round, square, rectangular, banana-shaped, kidney-shaped, or other similar shapes. By virtue of their posteriorly implanted approach, the disclosed artificial FSU's allow for posterior decompression of the neural elements, reconstruction of all or part of the natural functional spinal unit, restoration and maintenance of lordosis, maintenance of motion, and restoration and maintenance of disc space height.

8118870, Feb 21, 2012

May 20, 2005

11/134067

Charles R. Gordon - Tyler TX, US
Corey T. Harbold - Tyler TX, US
Heather S. Hanson - San Antonio TX, US

Flexuspine, Inc. - Pittsburgh PA

A61F 2/44

623 1716, 623 1715

An expandable articulating intervertebral implant is described for insertion between vertebrae of a human spine. The expandable intervertebral implant includes an upper body that engages a first vertebra of the human spine, a lower body that engages a second vertebra of the human spine, and an insert. The upper body may include an upper portion and a lower portion. The insert may be positioned between an inferior surface of the lower portion of the upper body and a superior surface of the lower body. The insert may be translated or rotated to increase a separation distance between the lower body and the upper body. A spacer may be inserted between the upper body and the lower body to maintain at least a portion of the increased separation distance between the upper body and the lower body after expansion of the intervertebral implant in the human spine.

2011031, Dec 29, 2011

Jul 21, 2011

13/188325

Charles Gordon - Tyler TX, US
Marc Yap - The Colony TX, US
Daniel J. Triplett - Providence UT, US
Darin Ewer - Providence UT, US
Nathan Nelson - Hyde Park UT, US
Andrew Fauth - River Heights UT, US
M. Mary Sinnott - Logan UT, US

OSTEOMED LLC - Addison TX

A61B 17/70, A61B 17/56

606248, 606 86 A

A bone plate assembly including at least one bone plate, polyaxially adjustable fixation elements and a polyaxially adjustable locking mechanism. A first plate includes at least one polyaxial element for lockable connection with a fixation pad, and a connection feature which allows the plate to translate and polyaxially rotate relative to the locking mechanism. A second plate includes at least one polyaxial element for connection with a fixation pad and a connection feature for non-rotatable connection with the locking mechanism. The locking mechanism allows translation and polyaxial adjustment of the first plate relative to the second plate and locks the first and second plates via a taper lock. The fixation pad includes a deflectable spacer configured to prevent premature locking of the pad. Methods for implantation of the bone plate assembly between bone structures are disclosed. Instrumentation for implantation, compression and locking of the bone plate assembly is disclosed.

2006019, Aug 31, 2006

Jan 31, 2006

11/343933

Charles Gordon - Tyler TX, US
Corey Harbold - Tyler TX, US

A61F 2/44, A61B 17/70

623017150, 606061000

An artificial functional spinal unit is provided comprising, generally, an expandable artificial intervertebral implant that can be placed via a posterior surgical approach and used in conjunction with one or more artificial facet joints to provide an anatomically correct range of motion. Expandable artificial intervertebral implants in both lordotic and non-lordotic designs are disclosed, as well as lordotic and non-lordotic expandable cages for both PLIF (posterior lumber interbody fusion) and TLIF (transforaminal lumbar interbody fusion) procedures. The expandable implants may have various shapes, such as round, square, rectangular, banana-shaped, kidney-shaped, or other similar shapes. By virtue of their posteriorly implanted approach, the disclosed artificial FSU's allow for posterior decompression of the neural elements, reconstruction of all or part of the natural functional spinal unit, restoration and maintenance of lordosis, maintenance of motion, and restoration and maintenance of disc space height.

7753958, Jul 13, 2010

Feb 3, 2005

11/050632

Charles R. Gordon - Tyler TX, US
Corey T. Harbold - Tyler TX, US
Heather S. Hanson - San Antonio TX, US

A61F 2/44

623 1715

An expandable intervertebral implant for insertion between vertebrae of a human spine is described. The intervertebral implant includes an upper body that engages a first vertebra of the human spine, a lower body that engages a second vertebra of the human spine, an insert, and an advancing element. The advancing element may engage the insert such that advancement of the advancing element causes the insert to at least partially rotate between the upper body and the lower body. Rotation of the insert may cause the insert to interact with at least a portion of the upper body or at least a portion of the lower body to increase a separation distance between the upper body and the lower body, thereby increasing a height of the intervertebral implant after insertion of the implant between the first vertebra and the second vertebra of the human spine.

2006022, Oct 12, 2006

Feb 1, 2006

11/345602

Charles Gordon - Tyler TX, US
Corey Harbold - Tyler TX, US
Heather Hanson - San Antonio TX, US

A61F 2/44

623017160

An artificial functional spinal unit including an expandable intervertebral implant that can be inserted via a posterior surgical approach and used with one or more facet replacement devices to provide an anatomically correct range of motion is described. Lordotic and non-lordotic expandable, articulating implants and cages are described, along with embodiments of facet replacement devices and instruments for insertion. Methods of insertion are also described.

8118869, Feb 21, 2012

Mar 8, 2006

11/371170

Charles R. Gordon - Tyler TX, US
Corey T. Harbold - Tyler TX, US
Heather S. Hanson - San Antonio TX, US
Erik J. Wagner - Austin TX, US

Flexuspine, Inc. - Pittsburgh PA

A61F 2/44

623 1714, 623 1715, 623 1716

A dynamic interbody device for a human spine is provided to stabilize a human spine. In some embodiments, the dynamic interbody device includes a first member and a second member. In some embodiments, dynamic interbody device includes a first member, a second member and a third member. In some embodiments, the dynamic interbody device may include a bridge. The bridge may be used to couple the dynamic interbody device to a posterior stabilization system. In some embodiments, two dynamic interbody devices may be placed in a disc space between vertebrae.

8377097, Feb 19, 2013

Jun 22, 2010

12/820575

Charles Gordon - Tyler TX, US
Marc Yap - The Colony TX, US

Osteomed, LLC - Addison TX

A61B 17/70

606248, 606249, 623 1711

Systems, methods, and kits incorporate a fusion member for vertebral processes. The fusion member may be unitary or modular. The fusion member comprises extensions configured to be crimped to vertebral processes. The extensions may comprise tabs configured to be deformed to further penetrate the vertebral processes. The tabs may also lock together modular components of the fusion member. The fusion member may comprise fasteners extending between the extensions. The fusion member may comprise a cage with a movable cover or a graft retention feature.