Gianna Marano
About Gianna Marano
Gianna Marano is a Data Engineer with extensive experience in analyzing and visualizing high-dimensional clinical data, currently serving as a Graduate Research Assistant at ETH Zurich's Laboratory for Bone Biomechanics. She holds a Master of Science in Biomedical Engineering from ETH Zurich and has contributed to scientific conferences and research in bone remodeling and image registration techniques.
Work at Eth Zurich
Gianna Marano currently serves as a Graduate Research Assistant at the Laboratory for Bone Biomechanics at ETH Zurich, a position she has held since 2017. Her role involves analyzing and visualizing high-dimensional clinical data, particularly in relation to bone biomechanics. Previously, she worked as a Teaching Assistant at the Institute for Biomechanics for three months in 2013 and completed an internship at the Laboratory for Movement Biomechanics in 2014. Additionally, she conducted her Master's Thesis Research Project at the Laboratory for Bone Biomechanics in 2016.
Education and Expertise
Gianna Marano completed her Bachelor of Science in Biomedical Engineering at ETH Zurich from 2010 to 2014. She then pursued a Master of Science in Medical Engineering from 2011 to 2016 at the same institution. Her academic background has equipped her with expertise in image-derived quantification techniques for analyzing bone remodeling during fracture healing. She specializes in comparing optimization methods for the registration of bone fracture images.
Background in Clinical Data Analysis
Gianna Marano has significant experience in analyzing and visualizing high-dimensional clinical data. Her work focuses on the biomechanics of bone healing and fracture analysis. She has developed skills in image-derived quantification techniques, which are essential for understanding the complexities of bone remodeling processes.
Scientific Contributions
Gianna Marano has contributed to the scientific community by writing and presenting conference abstracts related to her field. Her presentations highlight her research findings and advancements in the area of biomechanics, particularly concerning bone health and recovery.