Bio-X


Showing 61-70 of 73 Results

  • H. Peter Lorenz, MD

    H. Peter Lorenz, MD

    Professor of Surgery (Plastic and Reconstructive Surgery)

    Current Research and Scholarly InterestsWe have three areas of current investigation:
    1) Scarless skin wound healing biology
    2) Dot stem cell tissue regeneration biology
    3) Novel stem cell therapy for tissue engineering

  • Christopher Lowe

    Christopher Lowe

    Professor of Biology

    Current Research and Scholarly InterestsEvolution and development, specifically the evolution of the deuterostomes

  • Donald Lowe

    Donald Lowe

    Max Steineke Professor in Earth Sciences, Emeritus

    Current Research and Scholarly InterestsClastic sedimentology, deep-water sedimentation mechanics and facies; Archean depositional systems and crustal development

  • Henry J. Lowe, MD

    Henry J. Lowe, MD

    Associate Professor of Medicine (General Medical Disciplines) at the Stanford University Medical Center, Emeritus

    Current Research and Scholarly InterestsMy research in the field of biomedical informatics over the past 30 years has focused on the development of novel uses of information technology and computer science to improve human health. My current interests include the Electronic Health Record (EHR), biomedical knowledge representation, Internet applications in healthcare, clinical data warehouses, clinical data and text mining, academic social networking and the use of information technology to support clinical and translational research.

  • Sydney X. Lu

    Sydney X. Lu

    Assistant Professor of Medicine (Hematology)

    BioSydney Lu is a hematologist and medical oncologist in the Division of Hematology, Department of Medicine, studying novel therapeutics for challenging cancers and immune disorders.
    Sydney's research career started with graduate studies in the laboratory of Dr. Marcel van den Brink at Memorial Sloan Kettering Cancer Center (MSKCC) studying the biology of pathologic donor T cells during graft-versus-host-disease and beneficial T cells mediating graft-versus-tumor effects after allogeneic bone marrow transplant, as well as the role of the thymus in regenerating healthy and protective donor-derived T cells post-transplant.
    The direct relevance of these cellular therapies and their immediate translational applicability to patients inspired him to attend medical school at Stanford and further training in hematology and medical oncology at Memorial Sloan Kettering. There, as a fellow and junior faculty member, he studied disordered RNA splicing in cancer in the laboratory of Dr. Omar Abdel-Wahab, with the goal of developing novel drugs targeting RNA splicing. This work has led to observations that targeted degradation of the RNA binding protein RBM39 may be a feasible therapeutic for the treatment of myeloid cancers bearing RNA splicing factor mutations and that pharmacologic RNA splicing inhibition can generate MHC I-presented peptide neoantigens which are exploitable for immunotherapy in model systems.

    Sydney's laboratory is broadly interested in studying RNA processing and splicing in the contexts of:
    1) normal and pathologic immunity and immunotherapy
    2) cancer biology
    3) normal and malignant hematopoiesis

  • Stephen Luby

    Stephen Luby

    Lucy Becker Professor of Medicine, Senior Fellow at the Woods Institute for the Environment, Freeman Spogli Institute for International Studies and Professor, by courtesy, of Epidemiology and Population Health

    Current Research and Scholarly InterestsDr. Luby’s research interests include identifying and interrupting pathways of infectious disease transmission in low income countries.

  • Matthew Lungren

    Matthew Lungren

    Adjunct Professor, Biomedical Data Science

    BioDr. Lungren is Chief Data Science Officer for Microsoft Health & Life Sciences where he focuses on translating cutting edge technology, including generative AI and cloud services, into innovative healthcare applications. As a physician and clinical machine learning researcher, he maintains a part-time clinical practice at UCSF while also continuing his research and teaching roles as adjunct professor at Stanford University.

    Prior to joining Microsoft, Dr Lungren was a clinical interventional radiologist and research faculty at Stanford University Medical School where he led the Stanford Center for Artificial Intelligence in Medicine and Imaging (AIMI). He later served as Principal for Clinical AI/ML at Amazon Web Services in World Wide Public Sector Healthcare, focusing on business development for clinical machine learning technologies in the public cloud.

    His scientific work has led to more than 150 publications, including work on multi-modal data fusion models for healthcare applications, new computer vision and natural language processing approaches for healthcare specific domains, opportunistic screening with machine learning for public health applications, open medical data as public good, prospective clinical trials for clinical AI translation, and application of generative AI in healthcare. He has served as advisor for early stage startups and large fortune-500 companies on healthcare AI technology development and go-to-market strategy. Dr. Lungren's work has been featured in national news outlets such as NPR, Vice News, Scientific American, and he regularly speaks at national and international scientific meetings on the topic of AI in healthcare.

    Dr. Lungren is also a top rated instructor on Coursera where his AI in Healthcare course designed especially for learners with non-technical backgrounds has been completed by more than 20k students around the world - enrollment is open now: https://www.coursera.org/learn/fundamental-machine-learning-healthcare

  • Liqun Luo

    Liqun Luo

    Ann and Bill Swindells Professor and Professor, by courtesy, of Neurobiology

    Current Research and Scholarly InterestsWe study how neurons are organized into specialized circuits to perform specific functions and how these circuits are assembled during development. We have developed molecular-genetic and viral tools, and are combining them with transcriptomic, proteomic, physiological, and behavioral approaches to study these problems. Topics include: 1) assembly of the fly olfactory circuit; 2) assembly of neural circuits in the mouse brain; 3) organization and function of neural circuits; 4) Tool development.