Company Filing History:
Years Active: 2025
Title: Innovations by Lingfa Yang in Intravascular Imaging
Introduction
Lingfa Yang is an accomplished inventor based in Concord, MA, known for his contributions to medical imaging technology. He has developed innovative systems and methods that enhance the clarity and effectiveness of intravascular imaging procedures. His work is particularly significant in the field of cardiology, where accurate imaging of blood vessels is crucial for diagnosis and treatment.
Latest Patents
Lingfa Yang holds a patent for "Systems and methods for an automatic pullback trigger." This invention relates to the identification of when a blood vessel has been sufficiently cleared of blood to capture high-quality intravascular images of the vessel wall. The disclosed systems and methods enable the identification of initial and final blood clearing events by analyzing edges within scanlines of multiple image frames. This technology allows for the automatic initiation of a catheter pullback procedure once the final blood clearing event is identified, ensuring that images are captured over a length of the vessel that is adequately cleared of blood.
Career Highlights
Lingfa Yang is associated with Lightlab Imaging, Inc., where he applies his expertise in medical imaging technology. His innovative approach has contributed to advancements in the field, particularly in improving the accuracy and efficiency of intravascular imaging techniques. His patent reflects his commitment to enhancing patient care through technological innovation.
Collaborations
Lingfa Yang has worked alongside notable colleagues, including Christopher E. Griffin and Joel M. Friedman. Their collaborative efforts have furthered the development of cutting-edge imaging technologies that benefit the medical community.
Conclusion
Lingfa Yang's contributions to intravascular imaging through his innovative patent demonstrate his significant impact on medical technology. His work continues to pave the way for advancements in the field, ultimately improving patient outcomes.