Kirstin Widding

Title: Kirstin Widding: Innovator in Shoulder Implant Technology

Introduction

Kirstin Widding is a prominent inventor based in Austin, Texas, known for her contributions to the field of medical devices, particularly in shoulder implant technology. With a total of two patents to her name, she has made significant strides in improving the functionality and effectiveness of shoulder implants.

Latest Patents

Her latest patents focus on a shoulder implant system that includes several key components. The system features a humeral stem implant, a humeral neck implant component, a humeral head implant component, and a glenoid implant. The humeral stem implant is designed with a fin that is coupled to its exterior surface, which is inwardly tapered at an angle relative to vertical. This innovative design allows the fin to form a wedge that directly engages and compacts cancellous bone during the installation of the humeral stem implant. The humeral neck implant component is specifically configured to couple with the humeral stem implant, while the humeral head implant component is designed to connect to the humeral stem implant via the humeral neck implant component. Additionally, the glenoid implant is equipped with a plurality of peripheral pegs, each featuring multiple sets of resilient lobes.

Career Highlights

Kirstin Widding has established herself as a key figure in the medical device industry through her work at Encore Medical Corporation. Her innovative designs and patents have contributed to advancements in shoulder surgery and rehabilitation.

Collaborations

Throughout her career, Kirstin has collaborated with notable colleagues, including Stuart L Axelson, Jr. and Andrew M Dickson. These partnerships have further enhanced her work and the impact of her inventions in the medical field.

Conclusion

Kirstin Widding's contributions to shoulder implant technology exemplify her dedication to innovation in the medical device industry. Her patents reflect a commitment to improving patient outcomes and advancing surgical techniques.