Company Filing History:
Years Active: 2016-2021
Title: Innovations of Morshed Khandaker
Introduction
Morshed Khandaker is a prominent inventor based in Edmond, OK (US). He has made significant contributions to the field of biomedical engineering, particularly in the development of advanced implant technologies. With a total of 11 patents to his name, Khandaker's work focuses on improving the integration and functionality of intraosseous implants.
Latest Patents
Khandaker's latest patents include a method and apparatus for improving osseointegration, functional load, and overall strength of intraosseous implants. This invention enables the modification of an intraosseous implant device to be biologically active, stimulating bone and vascular growth while decreasing localized inflammation and combating local infections. The method involves using nanofibers with various growth factors, such as PDGF and BMP2, which can be applied to the implant surface through techniques like spiral micro-notching or complete coating with a mesh of nanofibers. Another notable patent is the process to create a 3D tissue scaffold using an electrospun nanofiber matrix and photosensitive hydrogel. This innovative process allows for the deposition and alignment of electrospun fiber layers, combined with a biomedical polymer liquid, to create effective 3D scaffolds for tissue engineering.
Career Highlights
Khandaker is affiliated with the University of Central Oklahoma, where he continues to advance his research and development efforts. His work has garnered attention for its potential to revolutionize the field of implant technology and improve patient outcomes.
Collaborations
Some of Khandaker's notable coworkers include Shahram Riahinezhad and William Paul Snow. Their collaborative efforts contribute to the innovative research being conducted at the University of Central Oklahoma.
Conclusion
Morshed Khandaker's contributions to biomedical engineering through his patents and research are paving the way for advancements in implant technology. His innovative approaches are set to enhance the effectiveness of intraosseous implants and improve the quality of life for patients.