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development and regeneration. Our research combines in vivo genetic models, in vitro organoid systems, advanced imaging, and high-dimensional sequencing approaches to uncover fundamental principles by which
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models and in vitro systems. A combination of state-of-the-art surgical, genetic, cellular, biochemical, imaging, and metabolic flux approaches is currently used in the lab. Following up with the new
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techniques include motor/behavioral tests of mice, in vivo compound administration, postmortem tissue harvesting and processing with a focus on the nervous system, cell tracing, immunohistochemistry, mouse
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methods with state-of-the-art technologies such as comprehensive mouse phenotyping, 3D tissue clearing & imaging, in vivo transplantation and 3D imaging of transplants, and single-cell and spatial multi
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and in combination with existing antifungal drugs. Areas of interest are: development of in vivo imaging assays for understanding efficacy of novel antifungal drugs, determination of resistance
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interested in the dynamics of beta-cell heterogeneity, islet organization and cell-cell interaction in fetal and neonatal development. The Dhawan lab utilizes genetic mouse models, molecular biology, imaging
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Disease Center, Advanced Medical Imaging Technology Institute, Medical Chip Research Institute, Clinical Research Center, and Medical Robotics Institute, among others. Leading with solid research
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) does not exceed 7 years. For general information on Postdocs at The ICR, more information can be found here . Department/Directorate Information The Division of Radiotherapy and Imaging brings together
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translated complex AI concepts for a non-specialist audience and indicate the outcome (policy change, prototype, engagement metrics, etc.). (Within the word limit, you may add a closing sentence indicating how
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genetics of disease models, human pluripotent stem cells derived neurons, high content imaging, electrophysiology, single cell RNA sequencing, bioinformatics, and spatial transcriptomics technologies. We