Dr. Jolley's research lab is focused on visualizing and quantifying congenitally abnormal heart structures using 3D imaging with the driving goal of informing surgical and interventional planning in children and adults with congenital heart disease.
Dr. Shah's research is centered on understanding obesity and its related complications. Her current work includes clinical and translational studies exploring pathophysiology and modulation of obesity-related adipose tissue and systemic inflammation using human cell lines and clinical trials. She is also involved in clinical studies of outcomes and risk factors of polycystic ovarian syndrome and type 2 diabetes in teens.
Dr. Serai is an MRI physicist who has developed and applied MR imaging-based methods for iron quantification, fat quantification, elastography for liver fibrosis, and T1/T2 mapping techniques to suit pediatric needs.
"There is a great sense of community and interconnectedness among the folks who are here," said an attendee of the 10th Annual Friedreich's Ataxia Symposium.
The Jolley Lab is focused on the visualization and quantification of congenitally abnormal heart structures using 3D images with the long-term goal of facilitating image-based structural phenotyping and patient-specific interventions.
Dr. Matthew Jolley's research lab is focused on the visualization and quantification of congenitally abnormal heart structures using 3D echocardiography and tomographic imaging.
The Shah Lab investigates obesity and its related complications. Current work includes clinical and translational studies exploring the pathophysiology and modulation of obesity-related adipose tissue and systemic inflammation using human cell lines and clinical trials.
Developing a deeper understanding of diseases that cause thoracic insufficiency syndrome (TIS) and pioneering new devices to provide the best care in the world for patients with TIS.
