Company Filing History:
Years Active: 1983
Title: Bruce C. Hill: Innovator in Non-Invasive Medical Diagnostics
Introduction
Bruce C. Hill is a notable inventor based in Palo Alto, California. He has made significant contributions to the field of medical diagnostics through his innovative patent. His work focuses on non-invasive techniques that enhance the accuracy of physiological assessments following medical procedures.
Latest Patents
One of Bruce C. Hill's key patents is titled "Ultrasonic marker for physiologic diagnosis and method of using same." This invention addresses the need for non-invasive diagnosis of conditions that may arise after medical operations. The patent describes a method where a 'target' is sutured to tissue during surgery. Later, using an ultrasonic imaging system or other diagnostic instruments, the location of the target can be accurately determined. This allows for non-invasive techniques to assess physiological changes in the target area after the target has been implanted. For instance, a target made of a fused array of small stainless steel balls can be sutured to a coronary artery bypass graft. Subsequently, ultrasonic methods can be employed to locate the target and measure blood flow through the bypass graft using a Doppler-effect flowmeter. This technique is also believed to be beneficial in monitoring tumor growth at the site of the marker.
Career Highlights
Bruce C. Hill is associated with the Palo Alto Medical Research Foundation, where he continues to contribute to advancements in medical technology. His innovative approach to non-invasive diagnostics has the potential to improve patient outcomes significantly.
Collaborations
Bruce collaborates with various professionals in the medical research field, including his coworker Roger A. Stern. Their combined expertise fosters an environment of innovation and progress in medical diagnostics.
Conclusion
Bruce C. Hill's contributions to non-invasive medical diagnostics exemplify the impact of innovation in healthcare. His patented techniques offer promising solutions for monitoring patient health post-surgery.