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to define the immune pathways that mediate the development of anti-factor antibodies in order to develop therapeutic strategies that evade or reverse the humoral immune response and promotes factor
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cancer cell therapies to develop advanced T cell immunotherapies for autoimmune diseases. Applicants will have the opportunity to work with a stellar team of interdisciplinary scientists. This position
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that mediate pressure sensing in the eye? 2) What physiological roles do these channels play in the eye? 3) Do these ion channels mediate the development of glaucoma and other ocular diseases? The successful
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to compartmentalized neuroprotective signaling in these cell types. Basic research concepts studied in the laboratory are being applied to the development of novel gene therapy vectors for the treatment of retinal
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the development of clinical deep learning and other machine learning models to enable improved diagnosis, prognostication, and prediction of treatment response for bladder cancer, specifically related to endoscopic
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development and in the adult. Our research is directed at neuroprotection and regeneration of retinal ganglion cells and the optic nerve, a major unmet need in glaucoma and other optic neuropathies. Multiple
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advanced technologies of patient-based iPS cells, CRISPR gene editing, optogenetics, and functional retinal imaging to discover the mechanism of disease and develop new treatments for these blinding diseases
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, especially leukemia. There will be opportunities to work with physicians, translational researchers, medicinal chemists, and advisors from drug companies with experience in drug development. Leukemia cell
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these ion channels mediate the development of glaucoma and other ocular diseases? The successful applicant will lead a project investigating the role of mechanosensitive ion channels in different cell types
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Center for Biomedical Informatics Research at Stanford University. This position emphasizes evaluating various cancer screening strategies by developing and applying microsimulation models for decision