BRIAN JOHN MCKINNON
Medical Practice in Memphis, TN

6626913, Sep 30, 2003

Dec 27, 2001

09/914498

Brian W. McKinnon - Bartlett TN
David C. Kelman - Collierville TN

Smith Nephew, Inc. - Memphis TN

A61B 1758

606 99, 606 91, 606 86

An inserter includes a frame having a central bore through which a threaded rod is inserted, the threaded rod being used to secure the inserter to an object such as an implant. A thumbscrew is used to thread the rod into the object. A biasing member is located between the thumbscrew and a slider. A lever on the inserter is provided such that when the lever is closed, the slider is forced toward the thumbscrew, compressing the biasing member and generate opposing forces applied to the thumbscrew and slider. These opposing forces are transferred to the rod and frame and produce a resultant force that causes a compressive force to be exerted between the inserter and object. This resultant force firmly seats the inserter on the object and reduces the possibility that any blows applied to the inserter are diverted to the rod causing the rod to loosen or disengage.

7326252, Feb 5, 2008

Dec 22, 2003

10/743885

Jason K. Otto - Plantation FL, US
Brian McKinnon - Bartlett TN, US
Dean Hughes - Memphis TN, US
Michael Ries - Tiberon CA, US
Jan Victor - Bruges, BE
Johan Bellemans - Langdorp, BE
Johanthan Garino - Villanova PA, US
Timothy Wilton - Duffield, GB

Smith & Nephew, Inc. - Memphis TN
The Trustees of the University of Pennsylvania - Philadelphia PA

A61F 2/38

623 2015, 623 2027, 623 2028, 623 2031

Knee prostheses featuring components that more faithfully replicate the structure and function of the human knee joint in order to provide, among other benefits: greater flexion of the knee in a more natural way by promoting or at least accommodating internal tibial rotation in a controlled way, replication of the natural screw home mechanism, and controlled articulation of the tibia and femur respective to each other in a more natural way. In a preferred embodiment, such prostheses include an insert component disposed between a femoral component and a tibial component, the insert component preferably featuring among other things a reversely contoured postereolateral bearing surface that helps impart internal rotation to the tibia as the knee flexes. Other surfaces can also be specially shaped to achieve similar results, preferably using iterative automated techniques that allow testing and iterative design taking into account a manageable set of major forces acting on the knee during normal functioning, together with information that is known about natural knee joint kinetics and kinematics.

8403992, Mar 26, 2013

Nov 23, 2010

12/952704

Jason Otto - Memphis TN, US
Brian McKinnon - Bartlett TN, US
Dean Hughes - Memphis TN, US
Michael Ries - Tiburon CA, US
Jan Victor - Brugge, BE
Johan Bellemans - Langdorp, BE
Jonathan Garino - Villanova PA, US
Timothy Wilton - Duffield, GB

Smith & Nephew, Inc. - Memphis TN
The Trustees of the University of Pennsylvania - Philadelphia PA

A61F 2/38

623 2014, 623 2032, 623 2035

Knee prostheses featuring components that more faithfully replicate the structure and function of the human knee joint in order to provide, among other benefits: greater flexion of the knee in a more natural way by promoting or at least accommodating internal tibial rotation in a controlled way, replication of the natural screw home mechanism, and controlled articulation of the tibia and femur respective to each other in a more natural way. In a preferred embodiment, such prostheses include an insert component disposed between a femoral component and a tibial component, the insert component preferably featuring among other things a reversely contoured posterolateral bearing surface that helps impart internal rotation to the tibia as the knee flexes. Other surfaces can also be specially shaped to achieve similar results, preferably using iterative automated techniques that allow testing and iterative design taking into account a manageable set of major forces acting on the knee during normal functioning, together with information that is known about natural knee joint kinetics and kinematics.

2013004, Feb 21, 2013

Oct 24, 2012

13/659309

Jason K. Otto - Plantation FL, US
Brian William McKinnon - Memphis TN, US
Michael Dean Hughes - Memphis TN, US
Michael D. Ries - Tiburon CA, US
Jan Victor - Brugge, BE
Johan Bellemans - Langdorp, BE
Johnathan Garino - Villanova PA, US
Timothy Wilton - Duffield, GB

A61F 2/38

623 2032, 623 2029

Knee prostheses featuring components that more faithfully replicate the structure and function of the human knee joint in order to provide, among other benefits: greater flexion of the knee in a more natural way by promoting or at least accommodating internal tibial rotation in a controlled way, replication of the natural screw home mechanism, and controlled articulation of the tibia and femur respective to each other in a more natural way. In a preferred embodiment, such prostheses include an insert component disposed between a femoral component and a tibial component, the insert component preferably featuring among other things a reversely contoured posterolateral bearing surface that helps impart internal rotation to the tibia as the knee flexes. Other surfaces can also be specially shaped to achieve similar results, preferably using iterative automated techniques that allow testing and iterative design taking into account a manageable set of major forces acting on the knee during normal functioning, together with information that is known about natural knee joint kinetics and kinematics.

2010033, Dec 30, 2010

May 28, 2010

12/790227

Richard Michael Smith - Memphis TN, US
Zachary Christopher Wilkinson - Germantown TN, US
Nathaniel Milton Lenz - Southaven MS, US
Brian W. McKinnon - Bartlett TN, US
David A. Drucker - Staten Island NY, US

A61B 17/56, A61F 2/38

606 88, 623 2032

Methods and apparatus for performing knee arthroplasty, including, but not limited to, bicruciate retaining knee arthroplasty, are described herein. Methods and apparatus for preparing a distal femur for a femoral implant as well as methods and apparatus for preparing a proximal tibia for a tibial implant are described. These methods and apparatus, in at least some embodiments and uses, facilitate decreasing the complexity of knee arthroplasty procedures such as bicruciate retaining procedures, while maintaining, if not improving on, the safety, accuracy and/or effectiveness of such procedures.

2013022, Aug 29, 2013

Aug 15, 2011

13/814648

Brian W. Mckinnon - Bartlett TN, US
Ruxandra Cristiana Marinescu Tanasoca - Memphis TN, US
Randy C. Winebarger - Southaven MS, US
Nathaniel Milton Lenz - Germantown TN, US
Zachary Christopher Wilkinson - Germantown TN, US
Sean M. Haddock - Germantown TN, US
Ryan Lloyd Landon - Southaven MS, US

SMITH & NEPHEW, INC. - Memphis TN

A61B 19/00

606102

Systems and methods for optimizing parameters of an orthopaedic procedure for a particular patient, including parameters relating to the anatomic and biomechanic fit of an implant or implant system implanted into the patient's joint. These systems and methods may utilize patient-specific information gathered pre-operatively in conjunction with optimization algorithms to determine an optimal implant design and an optimal position and orientation for implantation of the implant into the particular patient's joint.

2010033, Dec 30, 2010

May 28, 2010

12/790002

Zachary Christopher Wilkinson - Germantown TN, US
Brian W. McKinnon - Bartlett TN, US
Jeffrey A. Sharp - Memphis TN, US
Katherine S. Anderson - San Jose CA, US
Christopher F. Scifert - Bartlett TN, US
Mark Ellsworth Nadzadi - Memphis TN, US
Scott Kennedy Laster - Memphis TN, US

A61B 17/56

606 88

Methods and apparatus for performing knee arthroplasty, including, but not limited to, bicruciate retaining knee arthroplasty, are described herein. Methods and apparatus for preparing a distal femur for a femoral implant as well as methods and apparatus for preparing a proximal tibia for a tibial implant are described. These methods and apparatus, in at least some embodiments and uses, facilitate decreasing the complexity of knee arthroplasty procedures such as bicruciate retaining procedures, while maintaining, if not improving on, the safety, accuracy and/or effectiveness of such procedures.

2013020, Aug 8, 2013

Aug 15, 2011

13/814531

Brian W. Mckinnon - Bartlett TN, US
Ruxandra Cristiana Marinescu Tanasoca - Memphis TN, US
Randy C. Winebarger - Southaven MS, US
Nathaniel Milton Lenz - Germantown TN, US
Zachary Christopher Wilkinson - Germantown TN, US
Sean M. Haddock - Germantown TN, US
Ryan Lloyd Landon - Southaven MS, US

SMITH & NEPHEW, INC. - Memphis TN

G09B 23/28

434262

Systems and methods for optimizing parameters of an orthopaedic procedure for a particular patient, including parameters relating to the anatomic and biomechanic fit of an implant or implant system implanted into the patient's joint. These systems and methods may utilize patient-specific information gathered pre-operatively in conjunction with optimization algorithms to determine an optimal implant design and an optimal position and orientation for implantation of the implant into the particular patient's joint.

7682398, Mar 23, 2010

Nov 28, 2006

11/605921

Michael A. Croxton - Germantown TN, US
Brian W. McKinnon - Bartlett TN, US

Smith & Nephew, Inc. - Memphis TN

A61F 2/32

623 2224, 623 2221

There is provided an acetabular shell liner, and particularly a constrained liner, having a variable rim surface geometry to improve the range of motion of a femoral component within the liner and decrease the incidence of dislocation and subluxation. There are also provided methods of making and using the acetabular shell liner. Prosthetic devices, and particularly hip joint prostheses, containing the acetabular shell liner having a variable rim surface geometry are also provided.