Sort by
Refine Your Search
-
involve working directly with school districts to implement ROAR, designing best practices around multi-tiered systems of support, and building out the recommendations and professional development
-
Posted on Thu, 03/20/2025 - 22:13 Important Info Deprecated / Faculty Sponsor (Last, First Name): Dirbas, Frederick MD Other Mentor(s) if Applicable: Billy Loo, MD, PhD, Ted Graves, PhD Stanford
-
initiative, Individually Measured Phenotypes to Advance Computational Translation in Mental Health (IMPACT-MH), and a P50 Center of Excellence. The overarching goal is to use brain imaging-derived circuit
-
collaborative culture. The Division of Pain Medicine is at the forefront of innovation in pain research, education, and patient care. Our postdoctoral program has successfully transitioned fellows
-
actions on their behalf. This project aims to advance the design and implementation of AI agents that prioritize user autonomy, consent, and benefit, while also delivering real-world impact and contributing
-
to longitudinal observational, interventional, and qualitative research designs, and a range of methodologies including psychosocial assessment and intervention, clinical trials, digital health interventions
-
, time-resolved data, collaborate with faculty across AI, informatics, and emergency medicine, and receive mentorship designed to support growth as an independent investigator. The position includes active
-
their knowledge and skillset in mitochondrial biology would best fit this position. Required Qualifications: PhD in cell biology, molecular biology, stem cell biology, developmental biology, immunology, or cancer
-
of behavior. Required Qualifications: a PhD (must be conferred before appointment start date) research experience in a related field at least one peer reviewed scientific publication able to collaborate in
-
lab in Stanford’s Psychiatry Department, led by Neir Eshel, MD, PhD. We are looking to hire curious and ambitious postdocs to join our team. Lab projects focus on the neural circuitry of reward-seeking