Ohad Barsimantov

Title: Innovations in Cardiac Monitoring by Ohad Barsimantov

Introduction

Ohad Barsimantov is an accomplished inventor based in Staten Island, NY (US). He has made significant contributions to the field of cardiac monitoring, particularly through his innovative patents. With a total of 2 patents, Barsimantov's work focuses on non-invasive methods to assess cardiac output, a critical parameter in cardiovascular health.

Latest Patents

One of Barsimantov's latest patents is a system and method for infrasonic cardiac monitoring. Cardiac Output (CO) has traditionally been difficult, dangerous, and expensive to obtain. Surrogate measures such as pulse rate and blood pressure have therefore been used to permit an estimate of CO. MEMS technology, evolutionary computation, and time-frequency signal analysis techniques provide a technology to non-invasively estimate CO, based on precordial (chest wall) motions. The technology detects a ventricular contraction time point and stroke volume from chest wall motion measurements. As CO is the product of heart rate and stroke volume, these algorithms permit continuous, beat-to-beat CO assessment. Nontraditional Wavelet analysis can be used to extract features from chest acceleration. A learning tool is preferable to define the packets which best correlate to contraction time and stroke volume.

Career Highlights

Ohad Barsimantov is affiliated with the State University of New York, where he continues to advance research in cardiac monitoring technologies. His innovative approach has the potential to revolutionize how cardiac output is measured, making it safer and more accessible for patients.

Collaborations

Some of his notable coworkers include Kenneth J McLeod and J David Schaffer, who have collaborated with him on various projects related to cardiac monitoring.

Conclusion

Ohad Barsimantov's contributions to cardiac monitoring through his innovative patents highlight the importance of advancements in medical technology. His work not only enhances the understanding of cardiac output but also paves the way for safer, non-invasive monitoring methods.