Artificial Intelligence in Medicine
Suitable for pre-med and/or computer science majors
Developing quantitative molecular imaging methods for cancer research
Join force for developing molecular imaging markers from cells to animal models to human patients!
Cancer Metabolic Imaging
Metabolic modulation for enhanced therapeutic response in prostate cancer
Developing a Clinical Decision Support Tool Towards Creating a Therapy Agnostic Model for Response Assessment in Neuro-Oncology Using Metabolic and Physiologic MR Imaging
To use advanced magnetic resonance imaging and spectroscopy methods to study patients with brain tumors.
Molecular and Cellular Technologies Lab
We create small molecules, engineered proteins and cell-based tools that can "light up" and control in vivo biology using principles of chemical and synthetic biology.
Probing Redox State in Health and Diseases by Imaging and Spectroscopy
Work across disciplines and have fun
Develop novel MRS/MRI techniques to enhance diagnosis and treatment of pediatric diseases
Develop novel MRS/MRI techniques to enhance diagnosis and treatment of pediatric diseases
PET Imaging and Instrumentation
Research projects cover aspects of hardware development (electronics, radiation detectors, mechanical design), Monte Carlo simulation for new system designs, optimization of imaging protocols, data corrections for generating quantitative images, and task-based image analysis.
Characterization of radioligands for studying neurodegeneration in the Alzheimer's disease-related dementias (ADRDs)
The goal of this project is to conduct the in vitro characterization of radioligands under development as potential PET radiotracers.
Interventional Radiology and Medical Education
We have numerous projects focusing on clinical aspects of minimally invasive therapies for cancer treatment and other conditions. We also have projects related to post-graduate medical education in radiology which intersect with informatics and evaluation/management