Shelby Kutty, M.D., Ph.D., is an authority on cardiovascular imaging, including echocardiography, magnetic resonance imaging and computed tomography of congenital heart disease. His areas of academic interest have focused on myocardial function assessment, therapeutic ultrasound and cardiovascular outcomes. Kutty’s research includes developing new imaging technology applications such as a smartphone application that uses patients’ echocardiographic images to track their progress. His work gives pediatric cardiologists better ways to predict outcomes in their patients and provide the most effective and appropriate treatments.

Research in the John Matthew Austin Lab explores health care performance measures, with a goal of improving patient care by enabling healthcare providers to view data about their performance, track patient outcomes and comply with best care practices. Our lab is currently working to develop performance measures for the ICU part, and we are part of The Leapfrog Group, an annual survey of U.S. hospitals that compares hospital performance on national measures of safety, quality and efficiency. Our research also explores the use of scientifically sound decision-support tools for guiding improvements in healthcare delivery systems.

Research in the Janet Record Lab focuses on medical education and patient-centered care. We’re currently developing a curriculum for internal medicine residents in the inpatient general medicine service setting. The curriculum teaches residents to use hand-carried ultrasound for imaging the inferior vena cava to assess volume status.

Our laboratory investigates the neural bases of sound processing in the human brain. We combine electrophysiology recordings (intracranial, scalp), behavioral paradigms, and statistical modeling methods to study the cortical dynamics of normal and impaired auditory perception. We are interested in measuring and modeling variability in spatiotemporal cortical response patterns as a function of individual listening abilities and acoustic sound properties. Current studies are investigating the role of high-frequency (>30 Hz) neural oscillations in human auditory perception.

The lab’s assets include three MRI systems available for pediatric studies, cardiac imaging processing, cardiovascular imaging and therapeutic ultrasound. A robust echocardiogram program conducts 10,000 transthoracic echocardiograms and 1,300 fetal echocardiograms per year, and maintains a database with 10 years of data.