Company Filing History:
Years Active: 1996
Title: Martin O'Sullivan - Innovator in Noninvasive Blood Pressure Monitoring
Introduction
Martin O'Sullivan is a notable inventor based in Mountain View, CA (US). He has made significant contributions to the field of medical technology, particularly in noninvasive blood pressure monitoring. His innovative approach has led to the development of a unique arterial sensor that enhances the accuracy of blood pressure measurements.
Latest Patents
O'Sullivan holds a patent for an arterial sensor that utilizes strips of piezoelectric material. This sensor noninvasively measures the surface force and displacement resulting from a blood pressure wave traveling through an artery. The invention effectively cancels noise artifact signals, allowing for more precise readings. The sensor is designed with three sensing elements: a central signal sensing element and two noise sensing elements positioned on either side. This configuration enables the center element to generate a signal that reflects the pressure wave in the artery while minimizing noise interference.
Career Highlights
Martin O'Sullivan is associated with Vital Insite, Inc., where he has been instrumental in advancing medical sensor technology. His work focuses on improving the reliability of blood pressure monitoring through innovative sensor designs. The arterial sensor he developed not only measures blood pressure but also incorporates a mechanism for maintaining appropriate hold-down pressure and a wrist stabilization device for enhanced monitoring accuracy.
Collaborations
O'Sullivan has collaborated with notable colleagues, including Lawrence W Brendlen, Jr. and Donald Q Dong. Their combined expertise has contributed to the successful development and implementation of advanced medical technologies.
Conclusion
Martin O'Sullivan's contributions to the field of noninvasive blood pressure monitoring exemplify the impact of innovation in medical technology. His patented arterial sensor represents a significant advancement in the accuracy and reliability of blood pressure measurements.