Location History:
- Smithfield, RI (US) (2003 - 2004)
- Warwick, RI (US) (2015)
Company Filing History:
Years Active: 2003-2015
Title: Debra J Ranucci: Innovator in Medical Prosthetics
Introduction
Debra J Ranucci is a prominent inventor based in Warwick, Rhode Island, known for her significant contributions to the field of medical prosthetics. With a total of three patents to her name, Ranucci has made strides in developing innovative solutions for anatomical repairs.
Latest Patents
One of her latest patents is an implantable prosthesis designed for repairing anatomical defects, such as tissue or muscle defects. This prosthesis promotes tissue or muscle ingrowth, thereby strengthening the area of the defect. It is designed to be easy to manipulate and minimizes the risk of postoperative adhesions between the prosthesis and surrounding tissues or organs. The prosthesis incorporates layers of biologically compatible material suitable for defect repair and includes a support assembly to facilitate its manipulation and deployment. Another notable patent is a fluid management assembly featuring a vented outlet line for use in endoscopic procedures. This system is designed to aspirate fluid from surgical sites, utilizing an outlet tube that connects to a suction canister. The inclusion of an anti-siphon adapter allows atmospheric pressure to enter the outlet tube, enhancing the pressure at the outflow of the endoscopic device.
Career Highlights
Debra Ranucci is currently employed at C. R. Bard, Inc., a company renowned for its advancements in medical technology. Her work has significantly impacted the development of innovative medical devices that improve patient outcomes.
Collaborations
Throughout her career, Ranucci has collaborated with notable colleagues, including Augustus Felix and Tami L Hamlin, contributing to a dynamic team focused on innovation in medical solutions.
Conclusion
Debra J Ranucci's work exemplifies the spirit of innovation in the medical field, particularly in the development of prosthetic solutions that enhance surgical outcomes. Her contributions continue to influence the industry and improve the quality of care for patients.