Company Filing History:
Years Active: 2021-2024
Title: Madhi Dehestani: Innovator in Bioresorbable Orthopaedic Implants
Introduction
Madhi Dehestani is a notable inventor based in West Lafayette, IN (US). He has made significant contributions to the field of orthopaedic applications through his innovative work on bioresorbable porous metals. With a total of 2 patents, his inventions are paving the way for advancements in medical technology.
Latest Patents
Dehestani's latest patents focus on bioresorbable porous metals for orthopaedic applications. One of his patents details methods of producing bioresorbable porous biocomposites specifically designed for orthopaedic use. In an exemplary embodiment, the resorbable orthopaedic implant comprises a porous alloy made from at least a first metal and a second metal sintered together. This alloy is engineered to resorb into the body at an atomic level without flaking off. The porosity of the implant is characterized by a first plurality of interconnected holes of varying sizes. His second patent also emphasizes the development of bioresorbable porous biocomposites for similar applications, showcasing his commitment to improving patient outcomes in orthopaedic treatments.
Career Highlights
Madhi Dehestani is affiliated with the Purdue Research Foundation, where he continues to innovate and contribute to research in his field. His work is instrumental in advancing the technology behind orthopaedic implants, making them safer and more effective for patients.
Collaborations
Dehestani collaborates with esteemed colleagues, including Lia Antoaneta Stanciu and Michael J Heiden. Their combined expertise enhances the research and development of bioresorbable materials, furthering the impact of their work in the medical field.
Conclusion
Madhi Dehestani's contributions to the field of bioresorbable orthopaedic implants highlight his innovative spirit and dedication to improving healthcare technology. His patents represent a significant step forward in the development of safer and more effective medical implants.