Bio-X
Showing 831-840 of 1,059 Results
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J Kenneth Salisbury, Jr.
Professor (Research) of Computer Science and of Surgery (Anatomy), Emeritus
BioSalisbury worked on the development of the Stanford-JPL Robot Hand, the JPL Force Reflecting Hand Controller, the MIT-WAM arm, and the Black Falcon Surgical Robot. His work with haptic interface technology led to the founding of SensAble Technology, producers of the PHANToM haptic interface and software. He also worked on the development of telerobotic systems for dexterity enhancement in the operating room. His current research focuses on human-machine interaction, cooperative haptics, medical robotics, and surgical simulation.
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Alberto Salleo
Hong Seh and Vivian W. M. Lim Professor
Current Research and Scholarly InterestsNovel materials and processing techniques for large-area and flexible electronic/photonic devices. Polymeric materials for electronics, bioelectronics, and biosensors. Electrochemical devices for neuromorphic computing. Defects and structure/property studies of polymeric semiconductors, nano-structured and amorphous materials in thin films. Advanced characterization techniques for soft matter.
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Julia Salzman
Associate Professor of Biomedical Data Science, of Biochemistry and, by courtesy, of Statistics and of Biology
Current Research and Scholarly Interestsstatistical computational biology focusing on splicing, cancer and microbes
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Peter L. Santa Maria, MBBS, PhD
Associate Professor of Otolaryngology - Head & Neck Surgery (OHNS) and, by courtesy, of Bioengineering
On Partial Leave from 08/01/2023 To 07/14/2024Current Research and Scholarly InterestsWe study chronic suppurative otitis media, a chronic biofilm infection of the middle ear predominantly involving pseudomonas and staph aureus. We are investigating mechanisms of sensory hearing loss, host microbe interactions and trialling novel therapeutics.
Our work in tympanic membrane regeneration has entered clinical trials.
Novel treatments for wound healing in intra oral wounds with potential applications to prevent post tonsillectomy wound healing and oral mucositis. -
Juan G. Santiago
Charles Lee Powell Foundation Professor
Current Research and Scholarly Interestshttp://microfluidics.stanford.edu/Projects/Projects.html
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Serena Sanulli
Assistant Professor of Genetics
Current Research and Scholarly InterestsWe study the organizing principles of the genome and how these principles regulate cell identity and developmental switches. We combine Biochemistry and Biophysical methods such as NMR and Hydrogen-Deuterium Exchange-MS with Cell Biology, and Genetics to explore genome organization across length and time scales and understand how cells leverage the diverse biophysical properties of chromatin to regulate genome function.
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Robert Sapolsky
John A. and Cynthia Fry Gunn Professor, Professor of Biology, of Neurology and of Neurosurgery
Current Research and Scholarly InterestsNeuron death, stress, gene therapy
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Kavita Sarin, MD, PhD
Associate Professor of Dermatology
Current Research and Scholarly InterestsMy research encompasses two main areas: 1) Using next-generation RNA, whole genome, and exome sequencing, we are investigating the genetic alterations involved in skin cancer progression, response to therapy, and other clinical outcomes and 2) We are developing and implementing genome-wide genetic risk prediction assessments for skin cancer into clinical use and studying the impact of this information on patient care.
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Peter Sarnow
Burt and Marion Avery Professor of Immunology
Current Research and Scholarly InterestsOur laboratory studies virus-host interactions with an emphasis microRNA-mediated gene regulation and on translational control. The mechanism by which a liver-specific microRNA regulates hepatitis C virus genome replication is under intense scrutiny. In addition, the mechanism of internal ribosome entry in certain cellular and viral mRNAs and its biological role in growth and development is being investigated.
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Ansuman Satpathy
Assistant Professor of Pathology
Current Research and Scholarly InterestsOur lab works at the interface of immunology, cancer biology, and genomics to study cellular and molecular mechanisms of the immune response to cancer. In particular, we are leveraging high-throughput genomic technologies to understand the dynamics of the tumor-specific T cell response to cancer antigens and immunotherapies (checkpoint blockade, CAR-T cells, and others). We are also interested in understanding the impact of immuno-editing on the heterogeneity and clonal evolution of cancer.
We previously developed genome sequencing technologies that enable epigenetic studies in primary human immune cells from patients: 1) 3D enhancer-promoter interaction profiling (Nat Genet, 2017), 2) paired epigenome and T cell receptor (TCR) profiling in single cells (Nat Med, 2018), 3) paired epigenome and CRISPR profiling in single cells (Cell, 2019), and high-throughput single-cell ATAC-seq in droplets (Nature Biotech, 2019). We used these tools to study fundamental principles of the T cell response to cancer immunotherapy (PD-1 blockade) directly in cancer patient samples (Nature Biotech, 2019; Nat Med, 2019).