 Massachusetts Institute of Technology| Acronym | MIT | | Homepage | http://web.mit.edu/ | | Country | [nothing] | | ZIP, City | | | Address | | | Phone | | | Type | Academy | | Current organization | Massachusetts Institute of Technology | | Child organizations | |
Open OpportunitiesThis project revolves around creating implicit neural representations of cardiovascular organs for application to virtual patient generation. - Artificial Intelligence and Signal and Image Processing, Biomechanical Engineering
- Master Thesis
| This project focuses on implementing topological regularization techniques for generative models of cardiovascular anatomy. - Artificial Intelligence and Signal and Image Processing
- Master Thesis
| This masters thesis project revolves around developing a rapid annotation platform for the creation of patient-specific digital twins from intravascular imaging. - Artificial Intelligence and Signal and Image Processing
- Master Thesis
| Ingestable and implantable robots that can reside in the human body for long term are revolutionizing the future of personalized medicine. However, one of the most significant challenges facing the widespread adoption of these devices is ensuring a reliable and sustainable power source.Traditional power sources, such as batteries, are impractical for long-term use within these robots due to size constraints, limited energy capacity, and the need for repeated invasive procedures for replacement.
In the Traverso Lab at Brigham and Women’s Hospital (Harvard Medical School), We are exploring advanced engineering approaches to develop novel wireless power transfer (WPT) systems as sustainable powering sources.
- Biomedical Engineering
- Internship, Master Thesis
| The Traverso lab at Brigham and Women's Hospital, Harvard Medical School currently have several opening positions for students who are interested in interdisciplinary research in translational medicines. We are pushing the frontier of translational medicine by bridging the gap between engineering and clinical medicine. - Antenna Technology, Arithmetic and Logic Structures, Automotive Engineering, Composite Materials, Computer Communications Networks, Control Engineering, Databases and Ontologies, Diagnostic Applications, Electrical and Electronic Engineering, Flexible Manufacturing Systems, Mechanical Engineering, Modeling and Simulation, Polymerisation Mechanisms, Polymers, Sensor (Chemical and Bio-) Technology
- Bachelor Thesis, Lab Practice, Master Thesis, Semester Project
| The surface of the gastrointestinal (GI) tract is covered by a mucosal membrane, consisting of enormous health-related biochemical, physiologic, and pathophysiologic information, and serving for nutrition exchange. Progress has been made to access the GI mucosa for diagnostics and therapeutics in clinical settings. However, it is still extremely challenging to build a biocompatible and robust GI mucosa interface enabling real-time, continuous, and minimally invasive interactions with human body, due to the constant GI motility, fast cellular turnover rate, limited cavity space and extremely chemical and biological environments
In the Traverso Laboratories at Brigham and Women’s Hospital (Harvard Medical School), We are exploring novel engineering approaches to develop robust mucosal interfaces for long-term deployment of micro-electronics/drug reservoirs/physical barriers in the GI tract.
- Biomaterials, Biomechanical Engineering, Mechanical Engineering, Polymers
- Master Thesis
| Coronary atherosclerosis can be assessed with a wide array of imaging tools, each with its own strengths in diagnosis and treatment planning. However, aligning such imaging modalities is difficult and time-consuming. This project aims to develop a deep learning tool that can achieve multi-modal co-registration of computed tomography and intravascular images of coronary artery disease. Such a tool can be used to rapidly and automatically align large multi-modal imaging datasets, paving the way for various clinical and machine learning applications. - Cardiology, Computer Vision
- Master Thesis
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