School of Engineering
Showing 61-80 of 92 Results
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Luca Rosalia
Postdoctoral Scholar, Bioengineering
BioLuca Rosalia received his bachelor’s and master’s degrees in Biomedical Engineering from the University of Glasgow (UK). During his studies, he visited the National University of Singapore and the University of Cambridge, where he gained his first exposure to the fields of soft robotics and tissue biomechanics. He pursued doctoral studies in the Health Sciences and Technology (HST) Ph.D. program of Harvard University and Massachusetts Institute of Technology in the lab of Ellen Roche and he's currently at Stanford University as a Postdoctoral Scholar in Bioengineering in the Skylar-Scott lab.
His doctoral work primarily focused on high-fidelity and patient-specific soft robotic preclinical models of valvular heart disease, congenital defects, and heart failure with preserved ejection fraction. Luca leveraged these platforms for the testing and development of medical devices through several partnerships with industry. During his studies, he also worked as an R&D engineer in the Structural Heart division of Abbott Laboratories on the development of transcatheter aortic valve replacements (TAVR). He also gained clinical experience at the Veterans Affairs Medical Center in Boston and at Boston Children's Hospital. In the Skylar-Scott lab, Luca will be working on whole-heart bioprinting. -
Paul Schmiedmayer
Postdoctoral Scholar, Bioengineering
Current Research and Scholarly InterestsDr. Schmiedmayer's research investigates scalable, intelligent, data-driven systems that leverage patient data and connected devices to provide real-time, personalized healthcare. He aims to validate these solutions by deploying AI-based models on resource-constrained, patient-facing devices, such as smartphones and smart devices, ensuring that personalized medicine is both cost-effective and privacy-preserving.
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Paul Täufer
Graduate Visiting Researcher Student, Bioengineering-GRVR
BioPaul is a graduate physics student from Germany interested in research at the intersection of biology, medicine, engineering, and physics.
At Stanford, he is researching the biophysics of immune cells, focusing on NETosis, a process by which certain immune cells, particularly neutrophils, release extracellular traps (NETs) composed of DNA, histones, antimicrobial and cytotoxic proteins to capture and neutralize pathogens. This process plays a crucial role in the immune system's defense against infections but can also damage the host and correlate with the worsening of chronic inflammatory diseases. In particular, Paul investigates how membrane fluidity impacts membrane tension and the downstream cellular process of NETosis. He ultimately aims to comprehensively characterize NETosis and its influence on plasma membrane biophysics, shedding light on the underlying mechanisms of immune response.