SPACER BLOCKS, SYSTEMS AND METHODS FOR TRIALING KNEE JOINT

Organization Name

Unknown Organization

Inventor(s)

Tim Yoko of Granger IN (US)

SPACER BLOCKS, SYSTEMS AND METHODS FOR TRIALING KNEE JOINT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240016628 titled 'SPACER BLOCKS, SYSTEMS AND METHODS FOR TRIALING KNEE JOINT

Simplified Explanation

The provisional tibial prosthesis system described in the patent application includes a tibial component, a base component, and a shim. The tibial component has a rail that defines a pocket and a distal surface designed to fit on a resected proximal surface of a tibia. The base component can be placed within the pocket of the tibial component and has a flat proximal and distal surface. The shim has a feature that can be coupled with a second feature of the base component when placed on it, and it also has a flat proximal surface.

• The patent application describes a system for a provisional tibial prosthesis.
• The system includes a tibial component with a rail and a pocket, a base component with flat surfaces, and a shim with a coupling feature.
• The tibial component is designed to fit on a resected proximal surface of a tibia.
• The base component can be placed within the pocket of the tibial component.
• The shim can be placed on the base component and has a coupling feature that connects with the base component.
• The system provides a simplified and adjustable solution for tibial prosthesis.

Potential applications of this technology:

• Medical field: The provisional tibial prosthesis system can be used in orthopedic surgeries for patients requiring tibial prostheses.
• Prosthetics industry: The system can be utilized in the development of temporary tibial prostheses for testing and fitting purposes.

Problems solved by this technology:

• Simplified design: The system provides a simplified and adjustable solution for tibial prostheses, making it easier for surgeons to fit and adjust the prosthesis.
• Customization: The system allows for customization by combining different components to meet the specific needs of each patient.

Benefits of this technology:

• Improved fitting process: The system's adjustable components allow for a more precise and comfortable fit for patients.
• Versatility: The system's modular design allows for flexibility in adapting to different patient requirements.
• Cost-effective: The use of provisional tibial prostheses can potentially reduce costs associated with the development and fitting of permanent prostheses.

Original Abstract Submitted

in one aspect, a provisional tibial prosthesis system is shown and described. the provisional tibial prosthesis system optionally includes any one or combination of: a tibial component, a base component and a shim. the tibial component can have a rail that defines a pocket and a distal surface configured to seat on a resected proximal surface of a tibia. the base component can be configured to seat within the pocket of the tibial component when positioned thereon. when so positioned with the pocket, the base component can have a substantially flat proximal surface and a substantially flat distal surface. the shim can have a feature configured to couple with a second feature of the base component when disposed thereon. the shim can have a substantially flat proximal surface.