School of Engineering

Showing 41-50 of 99 Results

  • Theodore Terence Ho

    Theodore Terence Ho

    Basic Life Research Scientist, Bioengineering

    BioHonors & Awards

    1. Cum Laude Society, National Cum Laude Society 2008
    2. Harvard College Research Program Fellowship, Harvard University 2009-2011
    3. 1st Place, Therapeutics Category, University Research and Entrepreneurship Symposium 2011
    4. Quantitative Biosciences Consortium Fellowship, University of California San Francisco 2012
    5. Honorable Mention, National Science Foundation Graduate Research Fellowship Program 2013
    6. Honorable Mention, Ford Foundation Fellowship 2014
    7. American Heart Association Fellowship, American Heart Association 2015
    8. Best Poster, Bay Area Aging Meeting 2015
    9. Hillblom Center for the Biology of Aging Fellowship, Hillblom Center for the Biology of Aging 2016
    10. Travel Award Winner, ASCB, Else Kröner-Fresenius, Keystone Symposium NIA Scholarship, ISSCR, Seahorse Bioscience, UCSF 2013-2017
    11. Merit Award Winner, International Society for Stem Cell Research 2017
    12. Forbes 30 Under 30, Forbes 2019
    13. Jane Coffin Childs Fellowship, Jane Coffin Childs Memorial Fund and Howard Hughes Medical Institute 2019
    14. Invited speaker, Tedx Middlebury 2019


    Professional Education

    Bachelor of Arts, Harvard University (2012)
    Masters of Science, Harvard University (2012)
    Doctor of Philosophy, University of California San Francisco (2017)


    Stanford Advisors

    Karl Deisseroth, Postdoctoral Faculty Sponsor


    Publications

    1. Autophagy maintains the metabolism and function of young and old stem cells, Nature 2017 (PubMed ID – 28241143)
    2. Aged hematopoietic stem cells are refractory to bloodborne systemic rejuvenation interventions, J Exp Med 2021 (PubMed ID – 34032859)
    3. Metabolic regulation of stem cell function in tissue homeostasis and organismal ageing, Nature Cell Biology 2016 (PubMed ID – 27428307)
    4. siRNA Delivery Impedes the Temporal Expression of Cytokine-Activated VCAM1 on Endothelial Cells, Annals of biomedical engineering 2016 (PubMed ID – 26101035)
    5. Functional evidence implicating chromosome 7q22 haploinsufficiency in myelodysplastic syndrome pathogenesis, Elife 2015 (PubMed ID – 26193121)
    6. Lysosome activation clears aggregates and enhances quiescent neural stem cell activation during aging, Science 2018 (PubMed ID – 29590078)

  • KC Huang

    KC Huang

    LeRa Professor and Professor of Microbiology and Immunology

    Current Research and Scholarly InterestsHow do cells determine their shape and grow?
    How do molecules inside cells get to the right place at the right time?

    Our group tries to answer these questions using a systems biology approach, in which we integrate interacting networks of protein and lipids with the physical forces determined by the spatial geometry of the cell. We use theoretical and computational techniques to make predictions that we can verify experimentally using synthetic, chemical, or genetic perturbations.

    • Contact Info
    • Other Names:
      Casey Huang
  • Possu Huang

    Possu Huang

    Assistant Professor of Bioengineering

    Current Research and Scholarly InterestsProtein design: molecular engineering, method development and novel therapeutics

  • Joshua Jennings

    Joshua Jennings

    Basic Life Research Scientist

  • Michael Christopher Jewett

    Michael Christopher Jewett

    Professor of Bioengineering and, by courtesy, of Chemical Engineering

    BioMichael Jewett is a Professor of Bioengineering at Stanford University. He received his B.S. from UCLA and PhD from Stanford University, both in Chemical Engineering. He completed postdoctoral studies at the Center for Microbial Biotechnology in Denmark and the Harvard Medical School. Jewett was also a guest professor at the Swiss Federal Institute of Technology (ETH Zurich). His research group focuses on advancing synthetic biology research to support planet and societal health, with applications in medicine, manufacturing, sustainability, and education.

  • Nathan Johns

    Nathan Johns

    Basic Life Research Scientist

  • Robert Jones

    Robert Jones

    Senior Research Engineer

    • Contact Info
    • Other Names:
      Bob Jones
  • Sarah Harrington Klass

    Sarah Harrington Klass

    Lecturer

  • Julie Kolesar

    Julie Kolesar

    Research Engineer

    BioJulie Kolesar is a Research Engineer in the Human Performance Lab, supporting teaching and interdisciplinary research at the crossroads of engineering, sports medicine, and athletics. Her work aims to understand the underlying mechanisms relating biomechanical changes with function and quality of life for individuals with musculoskeletal disorders and injuries. As part of the Wu Tsai Human Performance Alliance, Dr. Kolesar engages in collaborations which seek to optimize human health and performance across the lifespan. Her expertise and research interests include experimental gait analysis, musculoskeletal modeling and simulation, and clinical interventions and rehabilitation.

  • Siddharth Krishnan

    Siddharth Krishnan

    Assistant Professor of Electrical Engineering, and by courtesy, of Bioengineering and of Materials Science and Engineering

    Current Research and Scholarly InterestsThe Krishnan Lab develops bioelectronic devices, tools and systems for closed loop disease management. Our work is divided into the following broad areas:
    1. Biohybrid electronics for therapy and sensing: we combine living cells as functional parts of implantable devices, leveraging their ability to produce complex biologic therapeutics in a constitutive or triggerable manner, and their ability to sense their complex dynamic environment. These efforts are focused on developed functional cures for diseases like Type I Diabetes and other conditions requiring the regular infusion of proteins, peptides or antibody drugs.
    2. Digital drug release systems for particulate forms of biologic drugs: Many complex protein and peptide drugs are not stable in solution, thereby frustrating the ability to delivery them through pumps and autoinjectors. This need is particularly acute for drugs that need to be administered as emergency rescue therapies, such as glucagon in the context of type 1 Diabetes. We develop implantable, miniaturized microelectromechanical devices that can store particulate (powders, pills) forms of these drugs and release them in a close loop manner based on wireless inputs from sensors.
    3. Wearable sensors: Wearables to detect biophysical (temperature, flow, cardiac activity) and biochemical markers of health are gaining importance for closed-loop disease management and personalized medicine. We design hardware for on-chip molecular profiling based on sampling biofluids in noninvasive or minimally invasive formats.
    4. New wireless power architectures for implantable bioelectronics: We develop high-power, high-efficiency strongly coupled power harvesting system to power battery-free implant systems.