Sarah Duenwald Kuehl
About Sarah Duenwald Kuehl
Sarah Duenwald Kuehl is a Research and Development Project Manager at Beyond Air™, with a PhD in Biomedical/Medical Engineering from the University of Wisconsin-Madison. She has extensive experience in statistical data analysis, mechanical testing, and mathematical modeling within the medical device industry.
Work at Beyond Air
Currently, Sarah Duenwald Kuehl serves as a Research and Development Project Manager at Beyond Air™. She has held this position since 2021, contributing to the company's initiatives in the medical device sector. Her role involves overseeing projects that focus on the development and enhancement of medical technologies, particularly in areas related to biomedical engineering.
Education and Expertise
Sarah Duenwald Kuehl has an extensive educational background in Biomedical/Medical Engineering. She earned her Doctor of Philosophy (PhD) from the University of Wisconsin-Madison, where she studied from 2009 to 2011. Prior to that, she completed her Master of Science (MS) at the same institution from 2007 to 2009. She also holds a Bachelor of Science (BS) from the University of Minnesota-Twin Cities, obtained between 2003 and 2007. Her expertise includes statistical data analysis, mechanical testing, and mathematical modeling.
Background
Sarah Duenwald Kuehl has a diverse professional background in biomedical engineering. She began her career as a Research Associate at the University of Wisconsin-Madison from 2011 to 2014. Following this, she worked at Mueller Sports Medicine, first as a Project Engineer from 2014 to 2019 and later as Engineering Manager from 2019 to 2021. This progression reflects her growth and development within the field of medical devices.
Achievements
Throughout her career, Sarah Duenwald Kuehl has developed a strong skill set in various areas relevant to biomedical engineering. She has experience in medical ultrasound, which highlights her focus on imaging technologies. Additionally, her expertise in constitutive modeling allows her to create mathematical models that describe material behavior, a critical aspect of her work in the medical device industry.