Donna Schultz Torres

Title: Innovations by Donna Schultz Torres

Introduction

Donna Schultz Torres is a notable inventor based in Attleboro, MA (US). She has made significant contributions to the field of medical devices, particularly in the area of implantable prosthetics. With a total of 2 patents, her work focuses on innovative solutions for repairing anatomical defects.

Latest Patents

One of her latest patents is an implantable prosthesis designed for repairing anatomical defects, such as tissue or muscle wall hernias. This prosthesis is particularly useful for preventing the occurrence of hernias at small openings or weaknesses in tissue or muscle walls, including those left after laparoscopic procedures. The design includes a patch that covers or extends across the opening, with at least one tether, such as a strap, that can be manipulated to position and secure the patch relative to the defect. The tether is configured to extend through the defect and outside the patient's body, allowing surgeons to position and manipulate the patch from outside. Additionally, a support member may be integrated into the patch to assist in deployment and to prevent collapse or buckling.

Another patent focuses on the same concept, emphasizing the tether's role in aiding surgeons during the procedure. An indicator on the tether helps determine when the patch has been inserted sufficiently within the patient. The patch may also feature a pocket or cavity to facilitate its deployment and positioning over the anatomical defect.

Career Highlights

Donna Schultz Torres is currently associated with C. R. Bard, Inc., a company known for its innovative medical devices. Her work at the company has been instrumental in advancing the field of implantable prosthetics.

Collaborations

She collaborates with Steven Palmer Ford, contributing to the development of groundbreaking medical technologies.

Conclusion

Donna Schultz Torres is a pioneering inventor whose work in implantable prosthetics has the potential to significantly improve surgical outcomes. Her innovative designs and patents reflect her commitment to advancing medical technology.