Company Filing History:
Years Active: 2000-2002
Title: Innovations in Cartilage Repair by Anthony Miniaci
Introduction
Anthony Miniaci is an accomplished inventor based in Thornhill, CA. He has made significant contributions to the field of medical technology, particularly in the area of cartilage repair. With a total of two patents to his name, Miniaci's work focuses on innovative methods and instruments that enhance surgical procedures.
Latest Patents
Miniaci's latest patents revolve around a method of repairing cartilage, specifically articular cartilage on the femur. The process involves removing damaged cartilage to expose the underlying bone. Grafts covered with cartilage, such as hyaline cartilage, are harvested from other areas of the body and inserted into holes drilled into the exposed bone. A guiding portion is included to orient surgical instruments perpendicularly to the bone surface during the procedure. This guide features a longitudinal axis for engaging the surgical instrument and a tissue-engaging portion oriented perpendicularly to the longitudinal axis. The set of surgical instruments used in this method includes the guide, a drill for forming graft-receiving holes, and an insertion tool for graft placement, along with other accessory instruments.
Career Highlights
Throughout his career, Miniaci has worked with notable companies in the medical field, including Smith & Nephew Pte. Limited and Smith & Nephew Inc. His experience in these organizations has contributed to his expertise in developing innovative solutions for cartilage repair.
Collaborations
Miniaci has collaborated with esteemed colleagues such as Paul Alexander Torrie and Michael Charles Ferragamo. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and advancements in medical technology.
Conclusion
Anthony Miniaci's contributions to cartilage repair through his innovative patents and collaborations highlight his commitment to improving surgical techniques. His work continues to influence the medical field and offers promising solutions for patients in need of cartilage repair.