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Displaying 1 to 10 of 18 results for cognition

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  • Agrawal Lab

    The Agrawal Lab is focused on the medical and surgical treatment of otologic and neurotologic conditions. Research is focused on the vestibular system (the inner ear balance system), and how the function of the vestibular system changes with aging. Particular focus is given to study how age-related changes in vestibular function influence mobility disability and fall risk in older individuals.

    Research Areas: cognition, visuospatial ability, vertigo, aging, balance, vestibular system

  • Bakker Memory Lab

    Research in the Bakker Memory Laboratory is focused on understanding the mechanisms and brain networks underlying human cognition with a specific focus on the mechanisms underlying learning and memory and the changes in memory that occur with aging and disease. We use a variety of techniques including neuropsychological assessments, experimental behavioral assessments and particularly advanced neuroimaging methods to study these questions in young and older adults and patients with mild cognitive impairment, Alzheimer’s disease, Parkinson’s disease and epilepsy.

    Through our collaborations with investigators in both basic science and clinical departments, including the departments of Psychiatry and Behavioral Sciences, Psychological and Brain Sciences, Neurology and Public Health, our research also focuses on brain systems involved in spatial navigation and decision-making as well as cognitive impairment in neuropsychiatric conditions such as schizophrenia, eating disorders, obsessiv...e-compulsive disorders, depression and anxiety. view more

    Research Areas: epilepsy, depression, Parkinson's disease, Alzheimer's disease

  • Brown Lab

    The Brown Lab is focused on the function of the cerebral cortex in the brain, which underlies our ability to interact with our environment through sensory perception and voluntary movement. Our research takes a bottom-up approach to understanding how the circuits of this massively interconnected network of neurons are functionally organized, and how dysfunction in these circuits contributes to neurodegenerative diseases like amyotrophic lateral sclerosis and neuropsychiatric disorders, including autism and schizophrenia. By combining electrophysiological and optogenetic approaches with anatomical and genetic techniques for identifying cell populations and pathways, the Brown Lab is defining the synaptic interactions among different classes of cortical neurons and determining how long-range and local inputs are integrated within cortical circuits. In amyotrophic lateral sclerosis, corticospinal and spinal motor neurons progressively degenerate. The Brown Lab is examining how abnormal ...activity within cortical circuits contributes to the selective degeneration of corticospinal motor neurons in an effort to identify new mechanisms for treating this disease. Abnormalities in the organization of cortical circuits and synapses have been identified in genetic and anatomical studies of neuropsychiatric disease. We are interested in the impact these abnormalities have on cortical processing and their contribution to the disordered cognition typical of autism and schizophrenia. view less

    Research Areas: autism, neurodegenerative diseases, brain, electrophysiology, ALS, schizophrenia, cerebral cortex, optogenetics

    Lab Website

    Principal Investigator

    Solange Brown, M.D., Ph.D.

    Department

    Neuroscience

  • Center on Aging and Health

    The Center on Aging and Health pursues creative approaches to solve the important health and health care problems for an aging population. Research in our center involves population-based and clinical studies of the causes, correlates, and consequences of aging-related conditions, including frailty, disability, and social isolation. We house four distinct research working groups: the Frailty and Multisystem Dysregulation Working Group; the Family and Social Resources Working Group; the Cognitive and Sensory Functions Working Group; and the Biostatistics, Design and Analysis Working Group. We provide key infrastructure, such as the statistical data core, that supports clinical- and population-based research and education with expertise in research with older adults.

    Research Areas: cognition, disabilities, behavioral research, stroke, frailty, biostatistics, dementia, gerontology

    Lab Website

    Principal Investigator

    David Roth, M.A., Ph.D.

    Department

    Medicine

  • Daniel Weinberger Laboratory

    The Daniel Weinberger Laboratory focuses on the neurobiological mechanisms of genetic risk for developmental brain disorders. We study the genetic regulation of the transcriptome in normal human brain across the human life span and in brains from patients with various psychiatric disorders. We also study the impact of genetic variation on aspects of human brain development and function linked with risk for schizophrenia and related psychiatric disorders. Our lab uses unique molecular and clinical datasets and biological materials from a large sample of families with affected and unaffected offspring and normal volunteers. These datasets include DNA, lymphoblast and fibroblast cell lines, and extensive quantitative phenotypes related to genetic risk for schizophrenia, including detailed cognitive assessments and various neuroimaging assays. In other research, we are working on a human brain transcriptome project that is RNA sequencing over 1,000 human brain samples in various regi...ons and based also on sorting of specific celliular phentypes. We are exploring the molecular processing of the gene and its implications for cognition and aspects of human temperament. view less

    Research Areas: neurobiology, brain, transcriptome, schizophrenia, psychiatric disorders, genomics, developmental disorders, RNA

  • James Knierim Laboratory

    Research in the James Knierim Laboratory attempts to understand the flow of information through the hippocampal formation and the computations performed by the various subfields of the hippocampus and its inputs from the entorhinal cortex. To address these issues, we use multi-electrode arrays to record the extracellular action potentials from scores of well-isolated hippocampal neurons in freely moving rats.

    These neurons, or "place cells," are selectively active when the rat occupies restricted locations in its environment and help to form a cognitive map of the environment. The animal uses this map to navigate efficiently in its environment and to learn and remember important locations. These cells are thought to play a major role in the formation of episodic (autobiographical) memories. Place cells thus constitute a tremendous opportunity to investigate the mechanisms by which the brain transforms sensory input into an internal, cognitive representation of the world and then use...s this representation as the framework that organizes and stores memories of past events. view more

    Research Areas: cognition, place cells, memory, neurophysiology, hippocampus

    Principal Investigator

    James Knierim, Ph.D.

    Department

    Neuroscience

  • Jantzie Lab

    Dr. Jantzie, associate professor, received her Ph.D. in Neurochemistry from the University of Alberta in 2008. In 2013 she completed her postdoctoral fellowship in the Department of Neurology at Boston Children's Hospital & Harvard Medical School and became faculty at the University of New Mexico. Dr. Jantzie then joined the faculty Departments of Pediatrics (Neonatal-Perinatal Medicine) and Neurology at Johns Hopkins University and the Kennedy Krieger Institute in January 2019. Her lab investigates the pathophysiology of encephalopathy of prematurity, and pediatric brain injury common to infants and toddlers. Dr. Jantzie is dedicated to understanding disease processes in the developing brain as a means to identifying new therapeutic strategies and treatment targets for perinatal brain injury. Her lab studies neural substrates of cognition and executive function, inhibitory circuit formation, the role of an abnormal intrauterine environment on brain development, mechanisms of neurorepa...ir and microglial activation and polarization. Using a diverse array of clinically relevant techniques such as MRI, cognitive assessment, and biomarker discovery, combined with traditional molecular and cellular biology, the Jantzie lab is on the front lines of translational pediatric neuroscience.? view more

    Research Areas: Neonatology, neuroscience

    Principal Investigator

    Lauren Jantzie, Ph.D.

    Department

    Pediatrics

  • Johns Hopkins NIMH Center for Novel Therapeutics of HIV-associated Cognitive Disorders

    The Johns Hopkins NIMH Center for Novel Therapeutics of HIV-associated Cognitive Disorders is an interdisciplinary team of researchers who work together to study the nature of HIV-association neurocognitive disorders (HAND). The goal of their research is to translate discoveries of the pathophysiological mechanisms into new therapies for HAND.

    Research Areas: cognition, HIV, neurocognitive disorders

    Lab Website

    Principal Investigator

    Justin McArthur, M.B.B.S., M.P.H.

    Department

    Neurology

  • Kata Design Studio

    We started Kata to bridge the gap between professional experiential production and neuroscience, clinical neurology, and medical hardware. We strive to build experiences and technology from the ground up, with a focus on mission, and at a level that is consistent with the best productions in the industry. We mirror the thousands of hours that go into a level design in a video game, but with the crucial difference that the focus is on the subtleties required for patient treatment or wellness. Our designs require high-frequency iterative development with patients and users in countless game-play sessions in which they provide crucial feedback. Characters have been painstakingly crafted to elicit profound emotional responses. Some of the requirements for patients or the elderly population in this space are qualitatively different from what is needed in the entertainment marketplace. That said we have also understood the critical artistic similarities.

    The core ethos of Kata is that the... challenge of complex movement has profound benefits for cognition, wellness, and brain repair. Specifically, there is growing evidence that complex motor movement can have cognitive benefits that go beyond what has been reported for exercise alone. When designing experiences to treat motor impairments after stroke, maximizing rigorous and dynamic motor input is a requirement. New interactive technologies will allow people to engage in diverse and complex motor movements, even in the home, which was previously impossible.

    Overall it has been a very exciting journey, combining art, medicine, technology, and neuroscience. We continue to build, discover, and craft immersive experiences, side by side with physicians, physical therapists, and scientists, with the common goal of pushing clinical care and wellness forward. We believe this is only possible by having a mission focused design group embedded in an academic hospital. Ultimately, we wish to scale and perfect these innovations into other hospitals. Kata is a true hybrid of academia, and industry, doing what neither can do in isolation. We hope the ethos and design philosophy behind Kata provides the impetus for its expansion, partnerships, and growth.
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    Research Areas: ALS, stroke, vestibular disorders

    Lab Website

    Principal Investigator

    John Krakauer, M.A., M.D.

    Department

    Neurology

  • Marvel Cognitive Neuropsychiatric Research Laboratory

    The Cognitive Neuropsychiatric Research Laboratory (CNRLab) is part of the Division of Cognitive Neuroscience within the Department of Neurology at the Johns Hopkins University School of Medicine. Its current projects include investigating the motor system's contribution to cognitive function; HIV-related neuroplasticity and attention-to-reward as predictors of real world function; and brain function and cognition in Lyme disease.

    Research Areas: HIV, neuroplasticity, movement disorders, cognitive function

    Lab Website

    Principal Investigator

    Cherie Marvel, Ph.D.

    Department

    Neurology

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