Research assistant
Michigan-Dearborn University
Dearborn, Michigan, United States
Mehdi Shoushtari Yeganeh, PhD
Research Assistant in Bioengineering
University of Michigan
Email Address: mehdiyeg@umich.edu
Advisor: Professor: Joe Fujiou Lo (jfjlo@umich.edu)
I believe I am a dedicated Research Assistant in the field of Bioengineering at the prestigious University of Michigan. With a strong academic foundation in Mechanical Engineering, specializing in heat and fluid dynamics during my bachelor's studies, and applied design in my master's degree, I have embarked on a transformative journey that bridges the gap between mechanical engineering and the intricate world of bioengineering.
My research endeavors are centered around the cutting-edge domain of microfluidics, where I employ mechanical engineering principles to unravel the complexities of Type 2 Diabetes. Driven by a profound passion for scientific innovation, my work is focused on forging a symbiotic connection between the realms of engineering and biology. Through this interdisciplinary approach, I strive to enhance our comprehension of Type 2 Diabetes, a multifaceted health challenge intricately linked to factors such as obesity and sedentary lifestyles.
My dedication to advancing knowledge and fostering collaboration between diverse fields exemplifies my commitment to addressing pressing global health issues. My research contributions hold the promise of improving the lives of individuals affected by Type 2 Diabetes and shedding light on innovative avenues for healthcare interventions.
In the pursuit of excellence, I continue to be a beacon of innovation at the University of Michigan, where I explore the synergies between engineering and biology to pave the way for a healthier future. My work represents the embodiment of interdisciplinary research, bridging the gap between mechanical engineering and bioengineering for the betterment of society.
Computational Model of Slip and Viscosity in a Boundary-Layer Pump.
Thursday, October 12, 2023
9:15 AM – 9:30 AM PDT