Mehnaz S
About Mehnaz S
Mehnaz S is a Biomedical Engineer and DCRI Specialized Project Team Lead at the National Institutes of Health, where she has worked since 2022. She holds a Bachelor's degree in Biomedical/Medical Engineering and a Master's degree in Translational Medicine, and possesses advanced skills in programming and biomechanical instrumentation.
Work at National Institutes of Health
Mehnaz S has been serving as a Biomedical Engineer and DCRI Specialized Project Team Lead at the National Institutes of Health since 2022. Located in Bethesda, Maryland, she has contributed to various projects within the organization for two years. Her role involves leading specialized project teams and applying her engineering expertise to advance biomedical research.
Education and Expertise
Mehnaz S holds a Bachelor's degree in Biomedical/Medical Engineering from the City University of New York City College, where she studied from 2012 to 2015. She further pursued a Master's degree in Translational Medicine at the same institution, completing her studies in 2016. Additionally, she earned an Associate of Science (A.S.) in Civil Engineering from Laguardia Community College between 2009 and 2012. Her educational background equips her with a strong foundation in biomedical engineering and related fields.
Programming Skills
Mehnaz S is an accomplished programmer with proficiency in several programming languages, including MATLAB, Python, and C++. Her programming skills are essential for her work in biomedical engineering, allowing her to develop and analyze complex algorithms and models relevant to her projects.
Biomechanical Instrumentation Knowledge
Mehnaz S possesses advanced knowledge in biomechanical instrumentation. She is experienced with tools such as GaitRite, GaitMat, Novel, and Biodex, which are crucial for assessing and analyzing human movement. This expertise supports her work in understanding biomechanics and improving health outcomes.
Motion Capture Expertise
Mehnaz S has expertise in motion capture technology and relevant software, including Cortex, OrthoTrak, and Visual3D. These tools are utilized for analyzing human movement data, which is a vital aspect of her role in biomedical engineering. Her skills in this area enhance her ability to conduct research and develop solutions in the field.