Oz Lab combines imaging, interventional radiology, radiotracers (novel and known), and animal models to study physiology and disease pathophysiology. 

Check out the latest research efforts of de Gracia Lux's Lab!

We work with you on data management and process, database and web application, experimental design and grant support.

Dr. Maldjian's ANSIR Lab is devoted to the application of novel image analysis methods (e.g. diffeomorphic registration, machine learning, graph theory, ASL) to research studies, as well as to robust clinical translation of these techniques.

The Burgess lab uses Nuclear Magnetic Resonance spectroscopy and Mass Spectrometry in conjunction with stable isotope (non-radioactive) tracers to study how metabolic flux is altered by disease, pharmacology, or targeted genetic interventions.

The Bowen Lab focuses on the development of hybrid positron emission tomography (PET) (e.g. PET-CT and PET-MR) tools to enable precision imaging for the care and study of oncology, neurology, and cardiology patients.

The long-term goal of Fiolka Lab's research is to develop and implement imaging technologies that provide unprecedented insight into cancer biology. 

The Busch Lab develops optical technologies for minimally and non-invasive bedside assessment of microvascular blood flow and oxygen saturation, allowing continuous assessment of aerobic metabolism. 

Jonathan Cheng's Lab performs a comprehensive suite of outcome measures to assess peripheral nerve recovery and chronic neural interfacing in the research setting.

Our mission is to innovate, develop, and apply biomedical technology to empower cancer research.