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  • Marshall Shuler Laboratory

    The Marshall Shuler Laboratory aims to understand the means by which brain reward systems convey reward value, expectancy, quality, probability and utility, and the rules by which such activity is used to affect synaptic weight within brain networks to encode stimulus-action associations. We use an interdisciplinary approach combining multisite recordings of neural activity, targeted pharmacological manipulation, viral-mediated gene transfer and behavior to study the neural mechanisms of reward-based interval learning in the primary visual cortex.

    Research Areas: neural circuits, reward-based systems, brain, vision, pharmacology

    Lab Website

    Principal Investigator

    Marshall Shuler, Ph.D.

    Department

    Neuroscience

  • Maura McGuire Lab

    The Maura McGuire Lab focuses on the improvement of quality and safety in ambulatory medicine through care management, point-of-care laboratory testing, and electronic health records and care delivery optimization. We also study the use of assessment and technology to augment learning in health care professionals and primary care physicians.

    Research Areas: primary care, educational technology, safety, point-of-care diagnostics, care coordination, electronic health records

    Principal Investigator

    Maura McGuire, M.D.

    Department

    Medicine

  • Michael A. Jacobs Lab

    The Jacobs lab is within the Division of Cancer Imaging Research in the Department of Radiology and Radiological Science. The lab translates radiological imaging (MRI/PET/CT) from research to the clinical setting. The Jacobs lab is establishing the use of multi-parametric/multinuclear/modality imaging to monitor treatment response in different cancers and co-developed a new metric for DWI/ADC mapping to discern treatment response. They are developing and implementing a new method for diagnosis of cancer using machine and deep learning to measure different types of lesions. The Jacobs lab is also developing novel segmentation of radiological images using non-linear dimensionality reduction. In addition, we are investigating methods to integrate Radiomics and Informatics and prognostic markers for disease. Other research areas include diagnostic medical physics and novel computer science applications. The medical physics research includes MRI quality assessments, X-ray, fluoroscopy, ultr...asound and applications to therapeutic medical physics. We are developing a residency using the Commission on Accreditation of Medical Physics Education Program in Diagnostic Medical Physics. view more

    Research Areas: treatment response, PET/CT, prostate, cancer, metastasis, pancreatic disease, liver diseases, cancer imaging

  • Motion Analysis Laboratory

    Our team is focused on understanding how complex movements are normally learned and controlled, and how damage to specific brain areas impairs these processes. We employ several techniques to quantify movement including: 3-dimensional tracking and reconstruction of movement, recordings of muscle activity, force plate recordings, and calculation of joint forces and torques. These techniques allow for very precise measurements of many different types of movements including: walking, reaching, leg movements, hand movements and standing balance. All studies are designed to test specific hypotheses about the function of different brain areas, the cause of specific impairments and/or the effects of different interventions.

    Research Areas: cerebellar function, neurological diseases, motor learning

  • Neuroimaging and Modulation Laboratory (NIMLAB)

    The neuroimaging and Modulation Laboratory (NIMLAB) investigates neural correlates of cognition and behavior using neuroimaging methods such as functional magnetic resonance imaging (fMRI) and neuromodulation techniques such as transcranial magnetic stimulation (TMS). We are looking in depth at the contributions of the cerebellum and cerebro-cerebellar circuits to cognition; the effects of chronic heavy alcohol consumption on cognition and brain activation underlying cognitive function; how aging in humans affects neural systems that are important for associative learning and stimulus awareness; and the integration of transcranial magnetic stimulation with functional MRI.

    Research Areas: cognition, alcohol, functional magnetic resonance imaging, imaging, aging, neuroscience, neuroimaging, transcranial magnetic stimulation

    Lab Website

    Principal Investigator

    John Desmond, M.S., Ph.D.

    Department

    Neurology

  • Ocular Motor Physiology Laboratory

    Our research is directed toward how the brain controls the movements of the eyes (including eye movements induced by head motion) using studies in normal human beings, patients and experimental animals. The focus is on mechanisms underlying adaptive ocular motor control. More specifically, what are mechanisms by which the brain learns to cope with the changes associated with normal development and aging as well as the damage associated with disease and trauma? How does the brain keep its eye movement reflexes properly calibrated? Our research strategy is to make accurate, quantitative measures of eye movements in response to precisely controlled stimuli and then use the analytical techniques of the control systems engineer to interpret the findings.

    Research areas: 1) learning and compensation for vestibular disturbances that occur either within the labyrinth or more centrally within the brain, 2) the mechanisms by which the brain maintains correct alignment of the eyes to prevent d...iplopia and strabismus, and 3) the role of ocular proprioception in localizing objects in space for accurate eye-hand coordination.
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    Research Areas: diplopia, Labyrinth, eye movement, strabismus, vestibular

  • Paul Worley Lab

    The Paul Worley Lab examines the molecular basis of learning and memory. In particular, we cloned a set of immediate early genes (IEGs) that are rapidly transcribed in neurons involved in information processing, and that are essential for long term memory. IEG proteins can directly modify synapses and provide insight into cellular mechanisms that support synapse-specific plasticity.

    Research Areas: synaptic plasticity, neurons, memory, learning, immediate early genes

    Lab Website

    Principal Investigator

    Paul Worley, M.D.

    Department

    Neuroscience

  • Robert Bollinger Lab

    The key research interests in the Robert Bollinger Lab include identifying biological and behavioral risk factors for HIV transmission as well as characterizing the clinical progression and treatment of HIV and related infectious diseases. We also have a long-standing interest in optimizing health care capacity and delivery in settings with limited resources. Our work includes implementing science research projects to explore the effectiveness of initiatives such as task-shifting, clinical education, distance learning and mobile health programs as a way to improve health care in these locations.

    Research Areas: mobile health, international health, infectious disease, HIV, public health, point-of-care diagnostics, tropical medicine, tuberculosis, health care capacity

    Principal Investigator

    Robert Bollinger, M.D., M.P.H.

    Department

    Medicine

  • Robert Shochet Lab

    The Robert Shochet Lab focuses on medical education research, including the impact of learning communities on students' perceptions of the learning environment in medical school.

    Research Areas: medical education, learning communities

    Principal Investigator

    Robert Shochet, M.D.

    Department

    Medicine

  • Ruth Faden Lab

    Research in the Ruth Faden Lab focuses on biomedical ethics and health policy. Our specific areas of interest include justice theory; national and global challenges in learning health care systems, health-system design and priority setting; access global investments benefits in biomedical research; and ethical challenges in biomedical science and women’s health.

    Research Areas: genetics, biomedical engineering, health care policy, women's health, bioethics

    Principal Investigator

    Ruth Faden, Ph.D.

    Department

    Medicine

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