Company Filing History:
Years Active: 2013-2016
Title: Tami L. Hamlin: Innovator in Implantable Prostheses
Introduction
Tami L. Hamlin is a notable inventor based in Exeter, Rhode Island, recognized for her contributions to the field of medical devices. With a total of three patents to her name, she has made significant advancements in the design and manufacturing of implantable prostheses.
Latest Patents
Hamlin's latest patents include innovative designs for implantable mesh prostheses aimed at reinforcing and repairing defects in muscular or tissue walls. One of her patents details a method of manufacturing these prostheses that minimizes wasted mesh material while reducing the labor and time required for fabrication. The prosthesis features a plug body made of surgical mesh material, designed with a closed end and a larger open end, along with a filler body that consists of petals extending radially outward. This design allows for efficient use of materials, as both the plug and filler bodies are cut from the same sheet, leaving virtually no waste. Another patent focuses on an implantable prosthesis that promotes tissue ingrowth, thereby strengthening the area of the defect. This prosthesis is designed to minimize postoperative adhesions and includes layers of biologically compatible material, along with a support assembly to facilitate manipulation and deployment.
Career Highlights
Tami L. Hamlin has made a significant impact in her field through her work at C. R. Bard, Inc. Her innovative designs and methods have contributed to advancements in medical technology, particularly in the area of surgical implants.
Collaborations
Throughout her career, Hamlin has collaborated with talented individuals such as Shekhar Nimkar and Debra J. Ranucci, enhancing her work with diverse expertise and perspectives.
Conclusion
Tami L. Hamlin's contributions to the field of implantable prostheses demonstrate her commitment to innovation and improvement in medical technology. Her patents reflect a deep understanding of both material science and surgical needs, making her a valuable asset in the industry.