Kenneth Kwong

Kenneth Kwong, PhD, has been conducting magnetic resonance imaging (MRI) research for more than 30 years with expertise in diffusion (R.1), functional imaging (R.2) and perfusion imaging (R.3). He was one of the earliest researchers to explore MR diffusion imaging of healthy subjects and patients...

Jason Stockmann

Jason Stockmann, PhD, is broadly interested in magnetic resonance imaging hardware and acquisition methods for improving data quality for both structural and functional imaging. He has worked on diverse MRI scanners ranging in field strength by two orders of magnitude, from low-field (80 mT) to u...

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...

Steven Stufflebeam

Steven Stufflebeam, MD, translates basic science and advanced imaging technology into everyday clinical practice. His laboratory aims to improve the health care for patients with epilepsy, schizophrenia, brain tumors and hearing impairments. His training is in biomedical engineering, mathematics ...

Bruce Rosen

Bruce Rosen, MD, PhD, is Director of the Athinoula A. Martinos Center for Biomedical Imaging at Massachusetts General Hospital and the Laurence Lamson Robbins Professor of Radiology at Harvard Medical School. He received his MD degree from Hahnemann Medical College in Philadelphia in 1982 and his...

Matthew Rosen

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 ...

Eric Gale

Dr. Gale applies chemistry to solve unmet challenges in radiology and biomedical imaging. A major area of current focus is developing magnetic resonance imaging probes to non-invasively map and quantify pathologic change at the molecular level. His group is capitalizing on the transition metal p...

Changning Wang

Changning Wang, PhD, has a unique and broad background in molecular imaging, medicinal chemistry, pharmaceutical sciences and neuroscience. After finishing his doctoral studies, he joined Martinos Center for Biomedical Imaging as a research fellow and later as a trainee in the Harvard/MGH Nuclear...

Robert Savoy

Dr. Savoy received his academic training in applied mathematics at MIT (BS 1971; MS 1975) and experimental psychology at Harvard University (PhD 1980). This period included 10 years of work at Polaroid Corporation’s Vision Research Laboratory, after which he joined the newly formed Rowland Instit...

Jean Augustinack

The main goal of Dr. Augustinack's research is to validate neuroimaging, such as MRI, with ground truth histologic analyses and to advance neuroanatomical and pathological biomarkers for in vivo imaging. Her laboratory bridges the domains of ground truth histologic staining and MRI tissue propert...

Mathias Davids

Mathias Davids, PhD, is currently an Instructor in Radiology at Harvard Medical School. He received a BSc in Biomedical Engineering at University of Luebeck in 2011, and an MSc and Ph.D. in Biomedical Physics at Heidelberg University in 2014 and 2018, respectively. Dr. Davids has a strong backgro...

Robert Barry

Dr. Barry's research aims to maximize the utility of high-field MR scanners to improve our understanding of central nervous system function and networks in normal and pathological populations. A focus of this work has been on the development and validation of methods for the acquisition, processi...

Ciprian Catana

Dr. Catana is director of Integrated MR-PET Imaging at the MGH Martinos Center for Biomedical Imaging and an Associate Professor in Radiology at Harvard Medical School. He has extensive experience in combining PET and MRI and is currently focusing on developing quantitative MR-PET for human use. ...

Seppo Ahlfors

Dr. Ahlfor's research focuses on non-invasive neuroimaging --- in particular, the analysis and interpretation of magnetoencephalography (MEG) signals. He has developed methodologies for multimodal integration of MEG, electroencephalography (EEG) and structural and functional magnetic resonance im...

Lawrence Wald

Lawrence L. Wald, PhD, is currently a Professor of Radiology at Harvard Medical School and Affiliated Faculty of the Harvard-MIT Division Health Sciences Technology. He received a BA in Physics at Rice University, and a PhD in Physics from the University of California at Berkeley in 1992 under th...

John Kirsch

John Kirsch, PhD, is a radiological physicist by training and education, whose interest and experience have been in MRI technology for the majority of his career. He contributed significantly to the early pioneering development of clinical applications for MRI as well as to the design and improve...

Christin Sander

Dr. Christin Sander's research focuses on multi-modal functional brain imaging with combined MRI (magnetic resonance imaging) and PET (positron emission tomography). Her main interests include (i) dynamic imaging of dopamine & glutamate neuroreceptor function through pharmacology and neuromod...

Ona Wu

The research goals of Dr. Wu's group are to improve the diagnosis, prognosis and management of patients with brain injury by quantifying and monitoring injury or recovery on an individual patient basis. The group focuses particularly on stroke, cardiac arrest and traumatic brain injury. Predictin...

Stephen Cauley

Stephen Cauley, PhD, is an Assistant Professor of Radiology at Harvard Medical School. He received his BS and PhD in Electrical & Computer Engineering (ECE) from Purdue University. Prior to joining the A.A. Martinos Center for Biomedical Imaging he held positions as a Visiting Assistant Profe...

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...