Company Filing History:
Years Active: 2007
Title: Innovations by Brian T. Fisher in Laser Refractive Surgery
Introduction
Brian T. Fisher is an accomplished inventor based in Sarasota, FL (US). He has made significant contributions to the field of laser refractive surgery, particularly through his innovative patent that enhances surgical precision and patient outcomes. His work is primarily associated with the University of Florida Research Foundation, Incorporated.
Latest Patents
Brian T. Fisher holds a patent for a "System and method for real-time feedback of ablation rate during laser refractive surgery." This advanced laser-based refractive surgery system includes a laser source with a controller that directs a portion of the incident beam to the target eye tissue of a patient. The system is designed to detect the reflected beam after it strikes the eye tissue, utilizing a detector that communicates with a computer or data processor. This processor generates a cross-correlation function using discrete points that represent the waveform of the reflected beam, allowing for real-time adjustments to the laser's operating parameters during the surgical procedure.
Career Highlights
Throughout his career, Brian T. Fisher has focused on developing technologies that improve the safety and effectiveness of laser refractive surgeries. His innovative approach has led to advancements that benefit both surgeons and patients alike. With a patent portfolio that includes 1 patent, he continues to push the boundaries of what is possible in medical technology.
Collaborations
Brian has collaborated with various professionals in his field, including David Worthington Hahn, to further enhance the development and application of his inventions. Their combined expertise has contributed to the success of their projects and the advancement of laser surgery techniques.
Conclusion
Brian T. Fisher's contributions to laser refractive surgery exemplify the impact of innovation in medical technology. His patented system not only improves surgical outcomes but also showcases the importance of real-time feedback in medical procedures. His work continues to inspire advancements in the field.