Company Filing History:
Years Active: 2025
Title: Lorenzo Deveza - Innovator in Femoral Intramedullary Devices
Introduction
Lorenzo Deveza is a notable inventor based in Houston, TX (US). He has made significant contributions to the field of medical devices, particularly in the treatment of femoral bone fractures. His innovative approach has led to the development of a unique intramedullary device that addresses various challenges in orthopedic surgery.
Latest Patents
Lorenzo Deveza holds a patent for the "Antegrade retrograde recon femoral intramedullary nail system." This femoral intramedullary device is designed to treat a variety of femoral bone fractures. The device features an intramedullary nail that can be inserted either antegrade or retrograde into the femur. It includes a shank long enough to extend into the shaft of the long bone, reaching the corresponding distal or proximal area. The device also has sockets located intermediate the ends of the shank for receiving anchoring pins or screws that extend transversely or radially from the shaft of the long bone. The intramedullary nail is placed in the intramedullary canal of a portion of the bone, and the screws are fixed in the radial sockets or receivers at the level of the femoral neck to provide mechanical support across the bone. Additionally, transverse screws are placed through the transverse sockets to offer further support and secure the nail within the femur.
Career Highlights
Lorenzo Deveza is affiliated with the University of Kentucky Research Foundation, where he continues to innovate and develop medical technologies. His work has been instrumental in advancing orthopedic solutions that improve patient outcomes.
Collaborations
Lorenzo collaborates with talented individuals such as Arun Aneja and Shea Comadoll, contributing to a dynamic research environment focused on medical advancements.
Conclusion
Lorenzo Deveza's contributions to the field of orthopedic devices exemplify the impact of innovation in medicine. His patented intramedullary nail system represents a significant advancement in the treatment of femoral fractures, showcasing his dedication to improving healthcare solutions.