Stanford University

Showing 131-140 of 151 Results

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  Emily Kraus

  Clinical Assistant Professor, Orthopaedic Surgery
  

  BioDr. Kraus is a Clinical Assistant Professor at Stanford Children’s Orthopedic and Sports Medicine Center trained in the specialty of Physical Medicine and Rehabilitation (PM&R) sports medicine. She has research and clinical interests in endurance sports medicine, injury prevention, running biomechanics, prevention of bone stress injuries, and the promotion of health and wellness at any age of life. Dr. Kraus is the director of the FASTR Program, which stands for Female Athlete Science and Translational Research. The FASTR program is supported by the Wu Tsai Human Performance Alliance and seeks to close the gender gap in sports science research with an emphasis on early identification and interventions to prevent injury and identify ways to optimize performance in female athletes. Dr. Kraus is also a member of the U.S. Olympic and Paralympic Committee Women's Health Task Force and is the medical director of the Stanford Children's Motion Analysis and Sport Performance Lab. She has completed nine marathons including the Boston Marathon twice and one 50k ultramarathon. With running and staying physically active as one of her personal passions, she recognizes the importance of fitness for overall wellbeing and the prevention of chronic medical conditions.
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  Alan M. Krensky, M.D.

  Shelagh Galligan Professor in the School of Medicine, Emeritus
  

  Current Research and Scholarly InterestsMechanisms and therapies for infection, cancer, autoimmunity and transplantation.
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  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.
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  Catharine Kristian

  University Manager, FSI
  
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  George Krompacky

  Publications Manager, FSI - S-APARC
  

  Current Role at StanfordPublications Manager at the Walter H. Shorenstein Asia-Pacific Research Center
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  Sharon Krossa

  Affiliate, Geballe Laboratory for Advanced Materials
  

  BioSharon blames (in chronological order) her parents, CS Lewis, Brother Alfred, Clan Colin & the original Renaissance Pleasure Faire North, HyperCard, Grant G. Simpson, Stanford, her therapist, Drupal, and her husband for where she is now. Note that her bio, honors and awards, and publications are bogus. (Well, the bio is real, but the rest are purely for testing purposes. It's her job, honest.)
• Kasia Krow-Lucal

  Lab Services Coordinator, Stanford Nano Shared Facilities
  
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  Thomas M. Krummel, MD, FACS/FAAP

  Emile Holman Professor, Emeritus
  

  Current Research and Scholarly InterestsSurgical Innovation, Simulation and Virtual Reality in Surgical Education, Fetal Healing-Cellular and Biochemical Mechanisms
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  Joy Ku

  Research Technical Manager, Wu Tsai Human Performance Alliance
  

  Current Role at StanfordJoy Ku is focused on biocomputation and the advancement of their use through teaching, science communications, community building, and the promotion of research resource sharing efforts, particularly as related to reproducibility and open-source science.
  
  She is currently Senior Director of the Wu Tsai Human Performance Alliance at Stanford (https://humanperformance.stanford.edu) and also leads the education and outreach efforts for the overall Wu Tsai Human Performance Alliance, which consists of institutions across the country, including Salk, UC San Diego, the University of Kansas, the University of Oregon, and the Women's Health, Sports & Performance Institute. The Alliance's mission is to discover biological principles to optimize human performance and catalyze innovations in human health.
  
  Dr. Ku is also the Director of Promotions and Didactic Interactions for the NIH-funded Restore Center (https://restore.stanford.edu), as well as the Director of Education and Communications for the Mobilize Center (https://mobilize.stanford.edu), an NIH Biomedical Technology Resource Center. Both Centers provide tools, infrastructure, and training to support the research community. The Mobilize Center's emphasis is on biomechanical modeling and machine learning algorithms to provide new insights into human movement from data sources, such as wearables, video, and medical images. The Restore Center's mission is to advance rehabilitation research using mobile sensor and video technology for real-world assessments of movement and factors affecting movement.
  
  She also manages SimTK (https://simtk.org), a software, model, and data-sharing platform for the biocomputation research community.
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  Ellen Kuhl

  Catherine Holman Johnson Director of Stanford Bio-X, Walter B Reinhold Professor in the School of Engineering, Professor of Mechanical Engineering and, by courtesy, of Bioengineering
  

  Current Research and Scholarly Interestscomputaitonal simulation of brain development, cortical folding, computational simulation of cardiac disease, heart failure, left ventricular remodeling, electrophysiology, excitation-contraction coupling, computer-guided surgical planning, patient-specific simulation