The fellow will specifically work on novel time domain (fluorescence lifetime-based) optical imaging technologies for clinical and preclinical applications in cancer, neuropathology, and cardiac disease
Job Summary
The fellow will specifically work on novel time domain (fluorescence lifetime-based) optical imaging technologies for clinical and preclinical applications in cancer, neuropathology, and cardiac disease.
Research can focus on development, maintenance and operation of optical imaging systems and image reconstruction algorithms, developing and designing animal and human protocols, performing preclinical imaging studies, and conducting clinical studies.
This is an exciting opportunity to work in clinical and preclinical fluorescence molecular imaging, which combines the use of cutting edge imaging technology, recent advances in our understanding of the molecular underpinnings of disease and advances in development of molecular probes to target disease pathology in vivo.
Matching Summary
The fellow will specifically work on novel time domain (fluorescence lifetime-based) optical imaging technologies for clinical and preclinical applications in cancer, neuropathology, and cardiac disease.
Skills & Requirements
Must-have
time domain optical imaging
fluorescence lifetime imaging
cancer research
neuropathology research
cardiac disease research
optical imaging systems
image reconstruction algorithms
Nice-to-have
independent thinking
advancing biomedical science
cutting edge imaging technology
molecular probes
disease pathology in vivo
Key Requirements
PhD/MD required
PhD/MD in Biomedical Engineering or related fields preferred
Previous experience in experimental optics
Previous experience in imaging
Computational physics programming experience in C/C++/Matlab