Company Filing History:
Years Active: 2024
Title: The Innovative Contributions of Inventor Travis Simpson
Introduction
Travis Simpson, an accomplished inventor based in Jacksonville, FL, has made significant strides in the field of surgical technology. With a total of two patents to his name, his inventions contribute greatly to the advancements in computer-aided orthognathic surgery.
Latest Patents
Simpson’s latest innovations include the "Surgical guides and implants having registration members," which is a surgical guide designed specifically for use in bone surgeries. This guide plays a crucial role in accurately locating osteotomy marking members and the implant fixation screw-receiving holes on a patient's bone surface. It features a bone-conforming member and a dental-interface member connected by a bridging member, ensuring a perfect fit to the contours of the patient’s anatomy. Additionally, he holds a patent for the "Orthognathic surgical implant assembly having pre-osteotomy and post-osteotomy alignment members." This invention is vital for the correct repositioning of bone segments during ortho surgery, incorporating removable alignment plates for both pre and post-surgical processes, along with a cutting guide to aid in precise surgical cuts.
Career Highlights
Travis Simpson is currently associated with Kls Martin, Inc., where he continues to push the boundaries of surgical innovation. His contributions have not only improved patient outcomes in complex surgeries but have also set new standards in orthopedic surgical procedures.
Collaborations
In his professional journey, Simpson collaborates closely with Tirth Patel, an equally skilled individual in the realm of surgical technology. Their joint efforts have been instrumental in refining the processes and devices that revolutionize surgical practices.
Conclusion
Travis Simpson stands out as a prominent inventor whose work in surgical guides and implants is paving the way for future advancements in orthognathic surgery. His commitment to innovation enhances surgical precision and ultimately improves patient care.