School of Medicine
Showing 701-720 of 742 Results
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Christin S Kuo
Assistant Professor of Pediatrics (Pulmonary Medicine)
BioDr. Kuo is a physician-scientist with expertise in single-cell genomics and pulmonary medicine. She has made pioneering contributions to pulmonary neuroendocrine cell (PNEC) biology by developing innovative strategies that established the first comprehensive framework for understanding the molecular and cellular diversity of normal PNECs and their roles in health and disease. Her discoveries have laid the foundation for this emerging field and her contributions are recognized internationally.
PNECs are exceedingly rare lung epithelial cells with specialized airway sensory, secretory, and stem cell functions. These neurosensory cells are thought to monitor airway oxygen, chemicals, mechanical deformation, infection, and injury, and serve as sentinels that signal this sensory information locally in the lung, to the brain through synapses with pulmonary sensory neurons and potentially globally throughout the body via secretion of myriad local signals and hormones. PNECs are also known to play critical roles in the control of breathing, cough, and respiratory physiology. Among their diverse physiologic functions, their response to injury has been most intensively studied in murine models and they are a cell of origin for high grade lung neuroendocrine tumors.
Dr. Kuo performed the first comprehensive anatomical mapping and lineage tracing studies of PNECs in mice which generated a foundational understanding of PNEC development (Kuo and Krasnow, Cell 2015). She also led single cell transcriptomic profiling studies that revealed a surprising diversity in PNEC sensors and signals (Kuo et al, eLife 2022). PNECs express over 25 different sensory receptor genes ("sensors") and over 40 different neuropeptide and peptide hormone genes ("signals"). Her scRNA-seq analysis of PNECs revealed a remarkable number and diversity of PNEC neuropeptide signals and their predicted cellular targets both within the lung and to innervating sensory neurons (Kuo et al., 2022, eLife).
In contrast to the advanced understanding of PNEC development, stem cell, and signaling function in mouse, little is known about human PNECs. To compare the findings of PNEC development, diversity, and function in mouse models to human diseases, her lab recently established a platform to systematically construct a human PNEC atlas. This foundational work created a molecular and anatomic framework for the entire human pulmonary neuroendocrine system and the diseases that are predicted to originate from distinct PNECs. Her lab has recently used this new PNEC atlas combined with single cell transcriptomic approaches to identify the molecular diversity of anatomically and functionally distinct human PNECs.
Dr. Kuo's studies with human models extends her lab’s current research aims to define the diverse neuroendocrine sensory and signaling interactions and the molecules that mediate them to their roles in lung cancer, neuroendocrine proliferative disorders such as diffuse idiopathic neuroendocrine cell hyperplasia (DIPNECH), neuroendocrine cell hyperplasia of infancy (NEHI) and major inflammatory and obstructive pulmonary diseases. Dr. Kuo’s lab engages a network of collaborators to develop and implement clinical protocols and strategically apply cutting-edge technologies to studying minor, but physiologically diverse airway sentinels.
Please visit the research website for additional information and current research areas (https://kuo.stanford.edu). -
Shin-Huei Kuo, M.D., M.S.
Affiliate, Genetics
Visiting Scholar, GeneticsBioDr. Kuo is a Visiting Scholar in the Department of Genetics at Stanford University School of Medicine and an attending physician in the Division of Infectious Diseases at Kaohsiung Medical University Chung-Ho Memorial Hospital in Taiwan. Her clinical and research interests include HIV care, comorbidities, and prognosis modeling. At Stanford, she collaborates with faculty in the Snyder Lab to explore precision medicine approaches to infectious diseases and inflammaging.
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WILLIAM T. KUO, MD, FSIR, FCCP, FSVM, FACR, FCIRSE
Professor of Radiology (Interventional Radiology)
Current Research and Scholarly Interests1) LASER-ASSISTED AND COMPLEX IVC FILTER RETRIEVAL
2) CATHETER-DIRECTED THERAPY FOR ACUTE PULMONARY EMBOLISM
3) INTERNATIONAL PE REGISTRY
4) IVC FILTER REGISTRY
5) ENDOVASCULAR TREATMENT OF CAVAL AND DEEP VENOUS THROMBOSIS -
Clair Mariam Kuriakose
Clinical Assistant Professor, Medicine - Primary Care and Population Health
BioClair Kuriakose is a Physician Assistant with a clinical background in Pediatric Surgery. She joined Stanford September 2014 as the first Manager of Advanced Practice with the Center for Advanced Practice and officially transitioned to the Executive Director of Advanced Practice on August 2017. Clair is passionate about the value advanced practice providers bring to the complex and ever-changing healthcare industry and truly enjoys collaborating with the various Advanced Practice Providers in the organization to ensure the best care for our patients.
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Allison W. Kurian, M.D., M.Sc.
Colleen Haas Chair in the School of Medicine, Professor of Medicine (Oncology) and of Epidemiology and Population Health
Current Research and Scholarly InterestsI aim to understand cancer burden and improve treatment quality at the population level. I have a strong focus on genetic risk assessment and precision oncology. I lead epidemiologic studies of cancer risk factors, clinical trials of novel approaches to genetic testing and cancer risk reduction, and decision analyses of strategies to optimize cancer outcomes.
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Lianne Kurina
David and Lucile Packard Foundation Professor of Human Biology and Professor (Teaching), by courtesy, of Epidemiology and Population Health
Current Research and Scholarly InterestsMy recent research has focused on the physical and mental health of military service members. I'm now working with colleagues at the VA.
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David Kurtz
Adjunct Clinical Assistant Professor, Medicine - Oncology
Current Research and Scholarly InterestsImplementation of noninvasive detection of malignancies in the clinic remains difficult due to both technical and clinical challenges. These include necessary improvements in sensitivity and specificity of biomarkers, as well as demonstration of clinical utility of these assays. My research focuses on technical development and implementation of assays to detect and track cancers in order to facilitate personalized disease management.