-
the world's most prevalent diseases through cell revitalization and transplantation. Work in the laboratory of Arun Sharma, PhD, focuses on applying human induced pluripotent stem cells (hiPSCs) to model
-
regenerative medicine. Research conducted in the Rogers Lab stems largely from the pioneering work of Eduardo Marbán, MD, PhD, who mentored Dr. Rogers as a postdoctoral scholar. The Marbán Lab was first to
-
regenerative medicine. Research conducted in the Rogers Lab stems largely from the pioneering work of Eduardo Marbán, MD, PhD, who mentored Dr. Rogers as a postdoctoral scholar. The Marbán Lab was first to
-
and Research Scientist Piotr Slomka, PhD and in collaboration with other scientists, physicians and engineers, the incumbent is responsible for the development of machine learning software methods in
-
automated analysis of nuclear cardiology data using novel algorithms and machine learning techniques, and on the development of integrated motion-corrected analysis of positron emission tomography (PET
-
management. • Previous research involving large datasets including clinical meta-data and omics technologies • Familiarity with artificial intelligence, machine learning, and data science applications in
-
for fully automated analysis of nuclear cardiology data using novel algorithms and machine learning techniques, and on the development of integrated motion-corrected analysis of positron emission tomography
-
for fully automated analysis of nuclear cardiology data using novel algorithms and machine learning techniques, and on the development of integrated motion-corrected analysis of positron emission tomography