Kent Mitchell Samuelson
Physician in Salt Lake City, UT

8273133, Sep 25, 2012

Aug 25, 2008

12/198001

Kent M. Samuelson - Salt Lake City UT, US

A61F 2/36

623 2312, 623 2014, 623 2015

Systems and methods for providing deeper knee flexion capabilities, more physiologic load bearing and improved patellar tracking for knee prosthesis patients. Such systems and methods include (i) adding more articular surface to the antero-proximal posterior condyles of a femoral component, including methods to achieve that result, (ii) modifications to the internal geometry of the femoral component and the associated femoral bone cuts with methods of implantation, (iii) asymmetrical tibial components that have an unique articular surface that allows for deeper knee flexion than has previously been available and (iv) asymmetrical femoral condyles that result in more physiologic loading of the joint and improved patellar tracking.

8382846, Feb 26, 2013

Jun 10, 2009

12/482280

Kent M. Samuelson - Salt Lake City UT, US
Connor E. Samuelson - Salt Lake City UT, US

A61F 2/38

623 2021, 623 2032

Systems and methods for providing deeper knee flexion capabilities, more physiologic load bearing and improved patellar tracking for knee prosthesis patients. Such systems and methods include (i) adding more articular surface to the antero-proximal posterior condyles of a femoral component, including methods to achieve that result, (ii) modifications to the internal geometry of the femoral component and the associated femoral bone cuts with methods of implantation, (iii) asymmetrical tibial components that have an unique articular surface that allows for deeper knee flexion than has previously been available, (iv) asymmetrical femoral condyles that result in more physiologic loading of the joint and improved patellar tracking and (v) modifying an articulation surface of the tibial component to include an articulation feature whereby the articulation pathway of the femoral component is directed or guided by articulation feature.

8366783, Feb 5, 2013

Jun 9, 2010

12/797372

Kent M. Samuelson - Salt Lake City UT, US
Connor E. Samuelson - Salt Lake City UT, US

A61F 2/38

623 2032, 623 2034

Systems and methods for providing deeper knee flexion capabilities, more physiologic load bearing and improved patellar tracking for knee prosthesis patients. Such systems and methods include (i) adding more articular surface to the antero-proximal posterior condyles of a femoral component, including methods to achieve that result, (ii) modifications to the internal geometry of the femoral component and the associated femoral bone cuts with methods of implantation, (iii) asymmetrical tibial components that have an unique articular surface that allows for deeper knee flexion than has previously been available, (iv) asymmetrical femoral condyles that result in more physiologic loading of the joint and improved patellar tracking and (v) modifying an articulation surface of the tibial component to include an articulation feature whereby the articulation pathway of the femoral component is directed or guided by articulation feature.

2013020, Aug 8, 2013

Mar 14, 2013

13/831302

Kent M. Samuelson - Salt Lake City UT, US
Connor E. Samuelson - Salt Lake City UT, US

A61F 2/38, A61F 2/46

623 2027

Systems and methods for providing deeper knee flexion capabilities. In some instances, such systems and methods include a knee prosthesis that includes a femoral component for replacing at least a portion of a distal end of a femur. In some cases, the femoral component has a posterior condyle that is configured to articulate against a tibial articular surface. In such cases, an articular surface at a proximal portion of the posterior condyle is sized and shaped to extend at least half of an antero-posterior distance between a most posterior portion of the posterior condyle and a plane that is a continuation of a distal one fourth to one third of a posterior cortex of a femoral shaft of the femur. Other implementations are also discussed.

2013020, Aug 8, 2013

Mar 14, 2013

13/830627

Kent M. Samuelson - Salt Lake City UT, US
Connor E. Samuelson - Salt Lake City UT, US

A61B 17/15, A61B 17/16

606 79, 606 88

Systems and methods for providing deeper knee flexion capabilities. In some instances, such systems and methods include a resection block for resectioning a popliteal surface of a femur. In some cases, the resection block is configured to be seated on a distal portion of a femur. Additionally, some implementations of the resection block define a first slot that is sized and shaped to receive a cutting device. In some implementations, the first slot is defined in the resection block such that the first slot substantially aligns with a first portion of a popliteal surface of the femur when the resection block is seated on the distal portion of the femur. Other implementations are also discussed.

2013020, Aug 8, 2013

Mar 14, 2013

13/831551

Kent M. Samuelson - Salt Lake City UT, US
Connor E. Samuelson - Salt Lake City UT, US

A61F 2/38, A61F 2/46

623 2015

Systems and methods for providing deeper knee flexion capabilities. In some instances, such systems and methods include a modular component, wherein the modular component is configured to attach to a femoral component, and wherein the femoral component is configured to attach to a distal portion of a femur. In some cases, the modular component includes an articular surface that is configured to increase a surface area of an articulation surface of a proximal portion of a posterior condyle of the femoral component. Other implementations are also discussed.

4232404, Nov 11, 1980

Jul 11, 1978

5/923687

Kent M. Samuelson - Salt Lake City UT
Michael A. Tuke - Morden, GB2

National Research Development Corporation - London

A61F 103

3 191

An endoprosthetic ankle joint device comprises a talar component with a convex articulatory surface having an intermediate part-circular-cylindrical area coaxially flanked at each end by like mutually divergent part-conical areas, and a tibial component with an assymetrical concave articulatory surface complementary with said convex cylindrical area and one of said conical areas. In one form of the device the tibial concave surface has areas complementary with each of the talar conical areas, but to different extents, with the former areas being respectively axially longer and shorter. In another form, the tibial concave surface is only complementary with one of the talar conical areas, and the device comprises a fibular component for articulation with the other talar conical area.

2013020, Aug 8, 2013

Mar 14, 2013

13/830854

Kent M. Samuelson - Salt Lake City UT, US
Connor E. Samuelson - Salt Lake City UT, US

A61F 2/38, A61F 2/46

623 2031

Systems and methods for providing deeper knee flexion capabilities. In some instances, such systems and methods include an asymmetrical femoral component that includes a femoral prosthesis that is configured to attach to a distal portion of a femur. In some such instances, the prosthesis includes a medial condyle and a lateral condyle, wherein a medial-lateral width of an articulation surface of the lateral condyle is approximately 75% or less of a medial-lateral width of an articulation surface of the medial condyle. Other implementations are also discussed.

2013021, Aug 15, 2013

Mar 14, 2013

13/831531

Kent M. Samuelson - Salt Lake City UT, US
Connor E. Samuelson - Salt Lake City UT, US

A61F 2/38

623 2035

Systems and methods for providing deeper knee flexion capabilities. In some instances, such systems and methods include a modular patella-femoral component. This modular patella-femoral component can include several characteristics, including a modular anterior flange that has an anterior femoral articulation surface that is configured to articulate against a patella in a knee joint, a posterior surface that is configured to be attached to an anterior portion of a femur, and a distal end that is configured to couple to a proximal end of an anterior portion of a femoral prosthesis, which is configured to couple to a distal portion of the femur. Other implementations are also described.