Parinaz Abiri

Title: Innovations by Parinaz Abiri in Electrochemical Impedance Spectroscopy

Introduction

Parinaz Abiri is an accomplished inventor based in Los Angeles, CA. Her innovative work focuses on the field of biomedical engineering, specifically in the characterization of tissue regions through the use of advanced diagnostic devices. Her dedication to improving medical technologies has led to significant advancements in this field.

Latest Patents

Parinaz Abiri holds a patent for her invention related to electrochemical impedance spectroscopy. The invention provides devices designed to characterize regions of tissue and methods for utilizing these devices effectively. One notable aspect of her devices is their capability to locate, identify, and characterize tissue regions of interest in vivo. Additionally, the devices are equipped with ultrasound-guided features and utilize electrical impedance spectroscopy (EIS) sensors, making them vital in predicting plaque rupture by assessing the levels of oxidized low-density lipoprotein (oxLDL) and macrophage/foam cells present in an atheroma. These devices also aid in identifying metabolically active atherosclerotic lesions that may not be visible through traditional angiographic methods.

Career Highlights

Currently working at the University of California, Parinaz Abiri combines her research expertise with her commitment to developing cutting-edge technologies. Her work in electrochemical impedance spectroscopy has not only contributed to her recognition as an inventor but has also opened doors for further research and development in the medical diagnostics field.

Collaborations

Throughout her career, Parinaz has collaborated with esteemed coworkers, including Tzung Hsiai and Yu-Chong Tai. These collaborations have enhanced her research insights and expanded the potential applications of her inventions in practical medical environments.

Conclusion

Parinaz Abiri's innovative contributions to electrochemical impedance spectroscopy exemplify the power of invention in advancing medical technology. Her dedication to characterizing tissue regions in vivo through cutting-edge devices reflects her commitment to improving healthcare outcomes. As she continues her work at the University of California, the implications of her inventions may lead to significant advancements in the diagnosis and treatment of atherosclerosis and other related conditions.