Dr. Matt Rosen is a physicist, tool-builder and inventor whose research bridges the spectrum from fundamental physics to applied bioimaging work in the field of MRI. He established the Low-Field MRI and Hyperpolarized Media Laboratory at the Athinoula A. Martinos Center for Biomedical Imaging to ...
Search Results: Hyperpolarization Development
Yi-Fen Yen
Over the past two decades, Dr. Yen has devoted herself to the development of advanced MRI techniques, for hyperpolarized metabolic imaging, cancer imaging and functional imaging in clinical and pre-clinical research. She is an MR physicist with >100 publications in peer-reviewed scientific jou...
Maria Angela Franceschini
Maria Angela Franceschini, PhD, is widely recognized as a leader in the field of diffuse optical imaging in both neuroscience and clinical neuro-monitoring applications. Her research interests lie mainly in the development of novel optical imaging methods to achieve a deeper understanding of the ...
Lilla Zollei
Dr. Lilla Zollei's research focuses on the design and development of quantitative analysis tools for neuroscientific problems. She builds and tests computational tools that can be used for both individual and group studies and investigate, through the combination of image information from multipl...
Stefan Carp
Dr. Carp's research group focuses on the development and clinical translation of light-based non-invasive sensing and imaging methods for disease detection and management. Major thrusts include the use of near-infrared spectroscopy and tomography as well as diffuse correlation spectroscopy to adv...
Christopher Bridge
Dr Bridge is trained as an engineer, with MEng (Distinction) and DPhil degrees from the University of Cambridge and University of Oxford, respectively. He has worked in the area of medical image analysis for nearly a decade. His work on his doctoral thesis involved the development of a system for...
Christopher Nguyen
The Nguyen lab focuses on the development and clinical application of novel imaging techniques to characterize the cardiovascular system including MRI, optical, and PET. Our primary research interests fall into four general areas: (1) bio- inspired design for heart assisted devices (Science Robot...
Susie Huang
Susie Huang, MD, PhD, is a board-certified neuroradiologist and physician-scientist specializing in the development and translation of novel MRI techniques for investigating structure, function and pathology within the brain. Her doctoral training in physical chemistry and subsequent residency in...
Karl Helmer
Karl Helmer, PhD, maintains research interests in several areas: (1) the creation of data management and sharing infrastructure; (2) the development of imaging protocols for multi-site MR imaging-based studies; (3) the creation of quality control and assessment software for MRI data; and (4) deve...
Berkin Bilgic
MRI has demonstrated ability to provide exquisite contrast for non-invasive imaging. What limits its efficiency and sensitivity are the tradeoffs between scan time, resolution and signal-to-noise ratio. Dr. Bilgic's research is devoted to breaking this stalemate by developing new acquisition and ...
Christian Farrar
The Farrar group's research program is focused on the development of novel Magnetic Resonance molecular imaging contrast agents and methods and on the development of innovative Magnetic Resonance Imaging (MRI) methods for characterizing vascular structure and function. The tools being developed i...
Clarissa Cooley
Dr. Cooley's research interests lie in the development of high-impact imaging systems based on new approaches to hardware, image encoding, and signal processing. Her primary scientific contribution has been the development of a portable MRI brain scanner that uses a new image encoding technique. ...
Ross Mair
As the Head of MR Physics at the Harvard University Center for Brain Science, Neuroimaging facility, Dr. Mair's role involves investigation and implementation of novel MRI methods for neuroimaging using the 3.0T MRI scanner, along with facility management duties. His research time has been split ...
Anand Kumar
Dr. Kumar's research is focused on development and translation of novel biomedical optical techniques for preclinical and clinical applications. He has more than 15 years of experience in theory, modeling and experimental aspects of biological optical imaging. Over the past decade, his group has ...
Mainak Jas
Dr. Jas completed his PhD from Telecom ParisTech. His thesis focused on automating MEG/EEG analysis pipelines. He is a proponent of open and reproducible science. He has been a key contributor to several open source neuroimaging tools: most notably MNE-Python, MNE-BIDS, and HNN-core. He develope...
Lucia Navarro de Lara
My research is focused on elucidating the mechanisms of network-level brain responses to non-invasive brain stimulation methods. Based on the development of the “RF-EEG Cap”, the first-of-its-kind wearable RF head coil and the related signal processing tools, I envision a complete solution for co...
Bastien Guerin
Dr. Guerin's research focuses on MRI (and to some extent PET) technology development and translation to neuro-imaging to help better understand the human brain. He has several areas of specialization: (i) Modeling and optimization of radio-frequency (RF) and gradient MR sub-systems. Dr. Geurin's...
Bin Deng
Bin Deng, PhD, is a biomedical scientist whose research interests revolve around near-infrared (NIR) spectroscopy, functional optical imaging, the interactions between NIR light and tissue, noninvasive optical biomarkers and the pathophysiology of diseases. Dr. Deng investigates the intersection ...
Kawin Setsompop
Dr. Setsompop is an Associate Professor of Radiology at Harvard Medical School and an affiliated faculty member at Harvard-MIT Division of Health Sciences and Technology (HST). He received his Master’s degree in Engineering Science from Oxford University and his PhD in Electrical Engineering and ...
Joseph Mandeville
Dr. Mandeville focuses on understanding relationships between imaging signals and physiology and using this information to improve information content derived from noninvasive neuroimaging. Research leverages all aspects of multimodal imaging to understand functional imaging methods and the brain...