Senior Investigator Research Interests
Whether through ultrasound, x-rays, or magnetic resonance imaging (MRI), the ability to peer noninvasively into the human body has been an enormous boon to medicine. New technological advances provide an expanding horizon of better diagnostics through imaging. Dr. Wen’s primary research focus is the development of biomedical imaging and microscopy technologies. He applies physics discoveries to engineer novel solutions to challenges in medical imaging.
Dr. Wen also has a longstanding interest in MRI. He and his colleagues previously developed a protocol to measure the function of the myocardium at very high spatial resolution. This technology has since been licensed and used in clinical laboratories. The sensitivity of the technology has allowed his clinical collaborators to detect early signs of weakening myocardial function in patients with type II diabetes. It is also used as a standard to validate other ultrasound and MRI techniques of tissue movement and function.
In the early days of high field MRI Dr. Wen studied extensively the behavior of electromagnetic wave propagation in the human body and contributed to our understanding of the benefit and challenges of high field MRI today. While studying the interaction of MRI RF fields with the body, he realized that the effect offered an opportunity to non-invasively image the electrical properties of the human body with MRI. Those properties reflect physiological conditions such as water and electrolyte content. His theoretical work and experimental demonstration laid the groundwork for a subfield of MRI called MR electrical property tomography (MR EPT), which is advancing rapidly in recent years with the rise of ultra-high field MRI.
In addition to his interest in diagnostic applications, Dr. Wen is also interested in basic discovery research with broad potential. In the 1990s, he and his colleagues invented Hall-effect imaging and explored its 3D capabilities, an ultrasonic method for noninvasively sensing the passive electrical properties of tissues. This work opened a field of research now called magneto-acoustic imaging, which are actively pursued by several laboratories as technological advances have made it more feasible in application.
More recently, Dr. Wen and his colleagues focus on developing x-ray imaging technologies and image analysis tools to enhance the power of x-ray scans to diagnose and evaluate lung disease. They discovered a basic physics effect that lead to highly sensitive imaging devices at low radiation doses. They created image analysis tools that precisely characterize changes in the lungs due to cystic lung disease.
Meet the Team
Han Wen, Ph.D.
Han Wen graduated from Peking University in Beijing with a B.S. in physics earned his Ph.D. in physics from the University of Maryland through the CUSPEA Scholarship. Dr. Wen has been a principal investigator at NIH since 1997. He has served on the editorial boards of Magnetic Resonance in Medicine and Scientific Reports, as well as a number of professional societies. Some of his honors include National Heart, Lung and Blood Institute Director’s Award, the Orloff Science Award and Distinguished Service Award to the ISMRM Society as a Reviewer for MRM.