Company Filing History:
8 out of 5,448 
2 out of 2 Years Active: 2016-2024
Title: The Innovative Contributions of Irene Y. Petrov
Introduction
Irene Y. Petrov is a distinguished inventor based in Galveston, Texas, known for her significant contributions to medical technology. With a total of nine patents to her name, she has made remarkable advancements in the field of optoacoustic monitoring and catheter localization. Her work has the potential to greatly enhance diagnostic capabilities in clinical settings.
Latest Patents
Among her latest patents is the invention titled "Ultrasound-guided optoacoustic monitoring of oxygen saturation." This apparatus and method provide diagnostic information for various clinical applications, particularly in measuring blood oxygenation in blood vessels and tissues. This innovation is crucial for the early diagnosis and management of circulatory shock, including that induced by hemorrhage. Another notable patent is the system for locating an inserted catheter tip. This system includes an implantable catheter with a pulsed light source co-located with its distal tip. The pulsed light source emits light pulses into surrounding tissue, while an optoacoustic sensor detects the resulting waves, allowing medical professionals to accurately locate the catheter tip.
Career Highlights
Irene has worked with prominent organizations, including the University of Texas System and Noninvasix, Inc. Her experience in these institutions has allowed her to develop and refine her innovative technologies, contributing to advancements in medical diagnostics and patient care.
Collaborations
Irene has collaborated with notable colleagues, including Rinat O. Esenaliev and Yuriy Petrov. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and expertise, further enhancing the impact of her inventions.
Conclusion
Irene Y. Petrov's contributions to medical technology through her patents and collaborations highlight her role as a leading inventor in her field. Her work continues to pave the way for advancements in patient diagnostics and treatment methodologies.