DARREL SCOTT BRODKE, MD
Medical Practice at Wakara Way, Salt Lake City, UT

2013003, Jan 31, 2013

Jun 29, 2012

13/538559

Darrel S. Brodke - Salt Lake City UT, US
Bret M. Berry - Sandy UT, US
Ashok C. Khandkar - Salt Lake City UT, US
Ramaswamy Lakshminarayanan - Salt Lake City UT, US
Mahendra S. Rao - Timonium MD, US

Amedica Corporation - Salt Lake City UT

A61F 2/44

623 1716

An improved bone graft is provided for human implantation, particularly such as a spinal fusion cage for implantation into the inter-vertebral space between two adjacent vertebrae. The improved spinal fusion cage includes a substrate block of high strength biocompatible material having a selected size and shape to fit the anatomical space, and a controlled porosity analogous to natural bone. The substrate block may be coated with a bio-active surface coating material such as hydroxyapatite or a calcium phosphate to promote bone ingrowth and enhanced bone fusion. Upon implantation, the fusion cage provides a spacer element having a desired combination of mechanical strength together with osteoconductivity and osteoinductivity to promote bone ingrowth and fusion, as well as radiolucency for facilitated post-operative monitoring. The fusion cage may additionally carry one or more natural or synthetic therapeutic agents for further promoting bone ingrowth and fusion.

2012013, May 24, 2012

Nov 24, 2010

12/953882

Carl Lauryssen - Beverly Hills CA, US
Gary A. Schneiderman - Sacramento CA, US
Darrel S. Brodke - Salt Lake City UT, US
Frank M. Phillips - Highland Park IL, US

KYPHON SARL - Neuchatel

A61B 1/00

600104

In one form, a system for use in percutaneous surgical procedures includes a cannula having an elongate body extending along a longitudinal axis between a proximal end and a distal end and including a working channel dynamically expandable from a first, unexpanded configuration. The system also includes a device that is positionable in and engageable with the working channel to expand the working channel from the first configuration as the device is moved through the working channel. In response to disengagement of the device with the working channel, the working channel returns to the first, unexpanded configuration. In one aspect of this form, the device includes an interbody spinal implant that is deliverable to a surgical site through the working channel of the cannula. In another form, a method for performing a percutaneous surgical procedure is provided. However, different forms and applications are envisioned.

2005004, Mar 3, 2005

Sep 14, 2004

10/941620

Darrel Brodke - Salt Lake City UT, US
Bret Berry - Sandy UT, US
Ashok Khandkar - Salt Lake City UT, US
Ramaswamy Lakshminarayanan - Salt Lake City UT, US
Mahendra Rao - Timonium MD, US

A61F002/44, A61F002/28

623017110, 623023500, 623023600

An improved bone graft is provided for human implantation, particularly such as a spinal fusion cage for implantation into the inter-vertebral space between two adjacent vertebrae. The improved spinal fusion cage includes a substrate block of high strength biocompatible material having a selected size and shape to fit the anatomical space, and a controlled porosity analogous to natural bone. The substrate block may be coated with a bio-active surface coating material such as hydroxyapatite or a calcium phosphate to promote bone in growth and enhanced bone fusion. Upon implantation, the fusion cage provides a spacer element having a desired combination of mechanical strength together with osteoconductivity and osteoinductivity to promote bone ingrowth and fusion, as well as radiolucency for facilitated post-operative monitoring. The fusion cage may additionally carry one or more natural or synthetic therapeutic agents for further promoting bone ingrowth and fusion.

2012033, Dec 27, 2012

May 10, 2012

13/468278

Darrel S. Brodke - Salt Lake City UT, US
Bret M. Berry - Tallahasee FL, US
Ashok C. Khandkar - Salt Lake City UT, US
Ramaswamy Lakshminarayanan - Salt Lake City UT, US
Mahendra S. Rao - Timonium MD, US

Amedica Corporation - Salt Lake City UT

A61F 2/44

623 1716

An improved implant is provided for human implantation, such as a spinal implant for implantation into the intervertebral space between two adjacent vertebrae. Some embodiments include a substrate of high strength biocompatible material, such as doped silicon nitride ceramic for example. In some embodiments, the substrate may also include one or more regions of a controlled porosity analogous to natural bone. In other embodiments, the substrate may comprise the entire implant.

2005017, Aug 11, 2005

Jan 20, 2005

11/040477

Ashok Khandkar - Salt Lake City UT, US
Bret Berry - Sandy UT, US
Darrel Brodke - Salt Lake City UT, US
Ramaswamy Lakshminarayanan - Salt Lake City UT, US
Mahendra Rao - Timonium MD, US

A61F002/44, A61F002/28

623017110, 623023510, 623023570

An improved bone graft is provided for human implantation, bone graft includes a substrate block of high strength biocompatible material having a selected size and shape to fit the anatomical space, and a controlled porosity analogous to natural bone. The substrate block may be coated with a bio-active surface coating material such as hydroxyapatite or a calcium phosphate to promote bone ingrowth and enhanced bone fusion. Upon implantation, the bone graft provides a spacer element having a desired combination of mechanical strength together with osteoconductivity and osteoinductivity to promote bone ingrowth and fusion, as well as radiolucency for facilitated post-operative monitoring. The bone graft may additionally carry one or more natural or synthetic therapeutic agents for further promoting bone ingrowth and fusion.

8377134, Feb 19, 2013

Aug 11, 2011

13/136886

Ashok C. Khandkar - Salt Lake City UT, US
Darrel S. Brodke - Salt Lake City UT, US
Ramaswamy Lakshminarayanan - Salt Lake City UT, US

Amedica Corporation - Salt Lake City UT

A61F 2/44

623 1715, 623 1714

A total disc implant (TDI) is provided for total replacement of a spinal disc or discs in a human patient or other mammal, wherein the TDI is designed to maintain a substantially full range of natural motion (ROM) following implantation. The TDI generally comprises, in one preferred form, upper and lower end plates for affixation to adjacent vertebral bodies, with an intervening insert disposed therebetween. The end plates each include elongated part-cylindrical surfaces oriented, generally perpendicular to each other, with one of the surfaces extending in an anterior-posterior direction and the other extending in a medial-lateral direction. The intervening insert defines concave upper and lower part-cylindrical seats oriented, for respectively engaging these part-cylindrical surfaces, wherein these part-cylindrical seats are defined by offset radii to include a somewhat flattened central base region merging smoothly with upwardly curving radiused sides.

7771481, Aug 10, 2010

Sep 19, 2007

11/858016

Ashok C. Khandkar - Salt Lake City UT, US
Darrel S. Brodke - Salt Lake City UT, US
Ramaswamy Lakshminarayanan - West Jordan UT, US

Amedica Corporation - Salt Lake City UT

A61F 2/44, A61F 2/28

623 1715, 623 1716, 623 2356

A total disc implant (TDI) is provided for total replacement of a spinal disc or discs in a human patient or other mammal, wherein the TDI is designed to maintain a substantially full range of natural motion (ROM) following implantation. The TDI generally comprises, in one preferred form, upper and lower end plates for affixation to adjacent vertebral bodies, with an intervening insert disposed therebetween. The end plates each include elongated part-cylindrical surfaces oriented generally perpendicular to each other, with one of said surfaces extending in an anterior-posterior direction and the other extending in a medial-lateral direction. The intervening insert defines concave upper and lower part-cylindrical seats oriented for respectively engaging these part-cylindrical surfaces, wherein these part-cylindrical seats are defined by offset radii to include a somewhat flattened central base region merging smoothly with upwardly curving radiused sides.

8016890, Sep 13, 2011

Jul 7, 2010

12/803889

Ashok C. Khandkar - Salt Lake City UT, US
Darrel S. Brodke - Salt Lake City UT, US
Ramaswamy Lakshminarayanan - Salt Lake City UT, US

Amedica Corporation - Salt Lake City UT

A61F 2/44

623 1715, 623 1714

A total disc implant (TDI) is provided for total replacement of a spinal disc or discs in a human patient or other mammal, wherein the TDI is designed to maintain a substantially full range of natural motion (ROM) following implantation. The TDI generally comprises, in one preferred form, upper and lower end plates for affixation to adjacent vertebral bodies, with an intervening insert disposed therebetween. The end plates each include elongated part-cylindrical surfaces oriented generally perpendicular to each other, with one of said surfaces extending in an anterior-posterior direction and the other extending in a medial-lateral direction. The intervening insert defines concave upper and lower part-cylindrical seats oriented for respectively engaging these part-cylindrical surfaces, wherein these part-cylindrical seats are defined by offset radii to include a somewhat flattened central base region merging smoothly with upwardly curving radiused sides.