Mount Sinai's Neuroscience PhD graduate program provides rigorous, multidisciplinary and highly collaborative training that emphasizes translational and transformative discoveries about the genes, molecules, cells, circuits and behaviors that constitute nervous system function in health and disease. Here you will find a world-class faculty spanning multiple Departments, Institutes and Centers of Excellence who investigate brain structure and function in a variety of model systems (e.g. worms, flies, fish, rodents, non-human primates and the human brain itself) using sophisticated approaches that are at the forefront of technological and conceptual advances. The Nash Family Department of Neuroscience is currently ranked #1 in the nation in NIH funding, reflecting the outstanding research programs of our faculty. Additionally, Mount Sinai is committed to promoting and supporting diversity and inclusion throughout our research, clinical and educational realms among students, faculty and staff. In support of this mission, the GRE test is no longer required for admissions to Mount Sinai's Neuroscience graduate program.
Unique Program Features
Mount Sinai’s Neuroscience graduate program provides rigorous, broad-based, individualized and multidisciplinary training in basic, translational and clinical neuroscience research, thereby enhancing the ability of our trainees to acquire critical skillsets necessary for high-quality doctoral dissertation research and a productive and impactful career in the science-related workforce. To accomplish this, our graduate program leverages the intimate association between the Mount Sinai Hospital and Health System, the Icahn School of Medicine and the Graduate School to expose trainees to the enormous breadth of basic, translational and clinical scientific approaches and model systems represented by an outstanding faculty, ranging from structure/function analysis of individual synapses, to computational modeling of gene, protein and connectivity networks in healthy and diseased brains, to behavioral, electrophysiological and imaging studies of a variety of organisms, including humans. Trainees participate in an integrated program of Core courses (spanning genes, molecules, cells, synapses, circuits, systems, behaviors and brain pathophysiology) and includes a course with direct patient contact. Courses are team-taught by an exceptional faculty using different teaching styles, including flipped classrooms and other approaches. Additional first-year courses include Responsible Conduct in Research, Rigor and Reproducibility, an intensive Biostatistics course (with a parallel lab in R-programming) a Journal Club/WIP and research rotations. By the end of the first year, trainees select a thesis lab, and during their second year, commence dissertation research while taking at least two Advanced Electives from a large number of courses offered across the Institution. This allows each trainee to customize their coursework to their particular research and training goal needs. Trainees in our program also benefit from numerous activities that enhance their research experience, including science theme-based Clubs, seminars, career development opportunities, teaching and peer-mentoring activities, an annual retreat and other cohesion-building events.