Stanford University
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Miguel Novelo Cruz
Lecturer
BioMiguel Novelo (he/him/el) is an interdisciplinary artist, educator, and researcher who focuses on emerging media and community organizing—currently working on algorithmic video art, technoshammanic installations, thermodynamic hypnotism, and friendly computational virus-like software.
Novelo earned a Bachelor of Fine Arts from the San Francisco Art Institute in 2018, followed by a Master of Fine Arts from Stanford University in 2022. His work has been exhibited at various institutions, including the de Young Museum, the Stanford Institute for Human-Centered Artificial Intelligence (HAI), the Museo Universitario Arte Contemporáneo (MUAC) in Mexico City, and numerous international film festivals. -
Roberto Novoa, MD
Clinical Professor, Pathology
Clinical Professor, DermatologyCurrent Research and Scholarly InterestsMy research interests include the medical applications of artificial intelligence, cutaneous lymphoma, and the side effects of targeted therapies. I have served as the lead dermatologist in our ongoing effort to develop AI-augmented classification of skin lesions. We are in the process of establishing one of the first prospective studies examining the performance of a deep learning algorithm in real-world patients.
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Julia Novy
Director, Sustainability Science and Practice Master's Program
Current Research and Scholarly InterestsTransformative leadership, systems change, sustainability, resilience.
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Ethan Nowak
Assistant Professor of Philosophy
Current Research and Scholarly InterestsPhilosophy of language, social and political philosophy, East Asian philosophy
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Roeland Nusse
Virginia and Daniel K. Ludwig Professor of Cancer Research
Current Research and Scholarly InterestsOur laboratory studies Wnt signaling in development and disease. We found recently that Wnt proteins are unusual growth factors, because they are lipid-modified. We discovered that Wnt proteins promote the proliferation of stem cells of various origins. Current work is directed at understanding how Wnt signals lead to the proliferation of stem cells and on understanding Wnt signaling during repair and regeneration after tissue injury.
