Biomedical Imaging and Cancer Engineering research revolves around the relentless pursuit of innovating and appraising novel imaging modalities and methodologies. This vast domain encompasses device and system development, pioneering signal acquisition and reconstruction techniques, synthesis of imaging contrast agents and therapeutic substances, and the artistry of algorithm design and computational analysis.
Our dedicated researchers delve into various research areas, embracing ultrasound, MRI, PET, CT, cardiotocography, and functional and molecular probes. We explore the frontiers of advanced image analysis methods, striving to unravel intricate patterns and glean valuable insights from complex datasets. Our focus extends to pre-clinical decision support, employing state-of-the-art tools to aid in the formulation of informed clinical judgments.
By synergizing these multidisciplinary efforts, we aim to redefine the landscape of biomedical imaging and cancer engineering, ultimately contributing to the advancement of diagnostic capabilities and personalized treatment strategies in the ongoing battle against cancer.
Application Field
- PET
- Large animal and small animal ultrasound
- CT
- Advanced image analysis
- Image-guided interventions
- Histopathology
Biomedical Imaging and Cancer Engineering Faculty
- Mary Kathryn (M.K.) Sewell-Loftin, Ph.D.
- Anna Sorace, Ph.D.
- Jianli Zhou, M.D.