Company Filing History:
Years Active: 2018
Title: Tianshi Wang: Innovator in Intravascular Optical Imaging
Introduction
Tianshi Wang is a notable inventor based in Rotterdam, Netherlands. He has made significant contributions to the field of medical imaging, particularly through his innovative work on intravascular optical imaging systems. His expertise and dedication to advancing medical technology have positioned him as a key figure in this area.
Latest Patents
Tianshi Wang holds a patent for an intravascular optical imaging system. This catheter-based optical imaging system is designed to enhance the imaging of a patient's vascular structures. The system includes a catheter-based imaging device that directs optical radiation towards a vessel wall and receives reflected radiation. A displacement mechanism allows for the variation of the imaging device's position relative to the catheter during an imaging scan. Additionally, the system incorporates an input for receiving cardiac event timing data, such as ECG data, from the patient. A trigger module initiates imaging scans based on this cardiac event timing, effectively reducing or eliminating artifacts in the image data.
Career Highlights
Tianshi Wang is affiliated with Erasmus University Medical Center Rotterdam, where he continues to work on innovative medical technologies. His research and development efforts have contributed to advancements in the field of intravascular imaging, improving diagnostic capabilities and patient outcomes.
Collaborations
Tianshi Wang collaborates with esteemed colleagues, including Charles Theodoor Lancee and Antonius Franciscus Wilhelmus Van Der Steen. These partnerships enhance the research and development process, fostering innovation in medical imaging technologies.
Conclusion
Tianshi Wang's contributions to intravascular optical imaging represent a significant advancement in medical technology. His innovative patent and collaborative efforts at Erasmus University Medical Center Rotterdam highlight his commitment to improving patient care through enhanced imaging techniques.