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(mouse) handling/manipulations: Perform surgeries/implantations (will train), biopsies, bioluminescence imaging, and drug administration. Extensive tissue culture required. Flow cytometry and microscopy
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. Investigate vascular dysfunction and neuroinflammation in three-dimensional cellular models, Utilize cutting-edge techniques including confocal microscopy, physiological and shear flow, and artificial
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features. Build and test pipelines for pose detection, object tracking, optical-flow analysis, and gaze–scene alignment, in collaboration with computer vision researchers. Analyze large multimodal datasets
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funded by the National Institutes of Health. The current lab research is focused on the pathogenesis and molecular mechanism of diabetes and obesity, fatty liver disease, and cancer using both cell systems
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; we are particularly interested in candidates whose research complements and enhances current department strengths and who will collaborate directly with department faculty. The department’s research
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, and hybrid models integrating computer-vision–derived features. Build and test pipelines for pose detection, object tracking, optical-flow analysis, and gaze–scene alignment, in collaboration with
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immunology, nanotechnology, materials science, and molecular engineering, bringing together tools such as flow cytometry, animal models, and bio/nanomaterial synthesis. Our long-term goal is to establish
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demineralization efficacy profile of novel industrial prototypes with respect to carious and erosive lesions. The position will be for a period of one year, with the possibility of a one-year extension subject to
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be required for participant recruitment and study coordination when participants are available. Attend relevant conferences to stay current with advances in the field. Two mandatory in-person meetings