Regina Yu
About Regina Yu
Regina Yu is a Quality Engineer I at Boston Scientific with a background in biomedical and bioengineering, having previously worked at Thermo Fisher Scientific, QLB Biotherapeutics, and Carney Laboratory.
Current Title and Role
Regina Yu currently holds the position of Quality Engineer I at Boston Scientific. She has been serving in this role since 2021 and is based in the Greater Boston area. Her responsibilities include ensuring the quality standards of medical devices, conducting inspections and tests, and participating in continuous improvement initiatives.
Previous Work Experience
Prior to her current role at Boston Scientific, Regina Yu gained valuable experience in various positions. In 2020, she worked at Thermo Fisher Scientific in Rochester, New York, focusing on Product Manufacturing and Quality Assurance. During the pandemic, she was involved in the manufacturing of COVID-19 testing kits. She also completed a year-long internship at QLB Biotherapeutics in Boston, where she focused on biotherapeutics research and development. Additionally, she served as a Research Assistant at the University of Rochester Medical Center's Carney Laboratory from 2018 to 2019.
Educational Background
Regina Yu obtained her Master of Science (MS) in Biomedical/Medical Engineering from the University of Rochester, where she studied from 2020 to 2021. She also earned a Bachelor of Science (BS) in Bioengineering and Biomedical Engineering from the same institution, completing her undergraduate degree from 2016 to 2020. Her academic focus provided her with a strong foundation in medical device design, bioprocessing, and bioengineering principles.
Industry Contributions and Projects
Throughout her professional and academic career, Regina Yu has been involved in several significant projects. She worked on maximizing antibody production for immunotherapy during a summer internship, contributing to advancements in bioprocessing techniques. Moreover, she played a role in the design and prototyping of a surgical medical device over the past year, showcasing her ability to innovate in the medical engineering field.