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effects of collagen IV mutation in cells. Modification of disease development in animal models Techniques used: State of the art imaging techniques including 3-dimensional electron microscopy, confocal
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continuous measurements in moving, active subjects. To this aim, we will explore two approaches: a miniaturized laser speckle contrast imager and a diffuse correlation spectroscopy device, both incorporated
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the neurobiological interpretation of MRI- based metrics, we employ virtual histology (spatial correlation between gene expression and cortical phenotypes). To validate findings obtained in cohort studies, we use ex
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project. This is a project studying changes in resting state MRI and cognition in pediatric brain tumor patients. Research responsibilities will include patient recruitment and enrollment, image acquisition
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well as diabetes and obesity. This project investigates the neural correlates of Speed of Processing and its subcomponents, translating into a more complete understanding of the mechanisms involved and their role in
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analyzing software and cryogenic sample transfer suite Competent in using transmission electron microscopes (TEM) and related techniques such as scanning TEM and correlative imaging protocol Competent in
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delivery, imaging, or diagnosis. Characterize, understand, the interaction of particulate materials with cells or tissues. Pioneered investigations on particle bio-functionalization, particles uptake
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correlates). Participants then undergo a training phase where they are taught Spanish via an app-based platform. Finally, participants' proficiency in Spanish are assessed at the end of the training phase
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for enhanced water use efficiency in Arabidopsis thaliana model. The leading theme for the project will be to track variation in stomatal patterning across Begonias in correlation with environment and lineages
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virtual histology (spatial correlation between gene expression and cortical phenotypes). To validate findings obtained in cohort studies, we use ex vivo (e.g., brain organoids) and in vivo (e.g., mice