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Research Lab Results for brain

Displaying 1 to 10 of 87 results
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  • Adam Sapirstein Lab

    Lab Website

    Researchers in the Adam Sapirstein Lab focus on the roles played by phospholipases A2 and their lipid metabolites in brain injury. Using in vivo and in vitro models of stroke and excitotoxicity, the team is examining the roles of the cytosolic, Group V, and Group X PLA2s as well as the function of PLA2s in cerebrovascular regulation. Investigators have discovered that cPLA2 is necessary for the early electrophysiologic changes that happen in hippocampal CA1 neurons after exposure to N-methyl-d-aspartate (NMDA). This finding has critical ramifications in terms of the possible uses of selective cPLA2 inhibitors after acute neurologic injuries.

    Research Areas: phospholipases A2, brain, stroke, lipid metabolites, excitotoxicity, brain injury, neurological disorders
  • Aliaksei Pustavoitau Lab

    The Aliaksei Pustavoitau Lab conducts research on models and mechanisms of impaired consciousness in patients who have suffered acute brain injury. Examples of our work include a study on the mechanisms of neurologic failure in critical illness and another on the use of intensivist-driven ultrasound at the PICU bedside. We also have a longstanding interest in patient safety and quality of care in the ICU setting.

    Research Areas: patient safety, brain, consciousness, ICU, brain injury
  • Amit Pahwa Lab

    Principal Investigator:
    Amit Pahwa, M.D.
    Medicine

    The Amit Pahwa Lab conducts research on a variety of topics within internal medicine. Our most recent studies have explored misanalysis of urinalysis results, urinary fractional excretion indices in the evaluation of acute kidney injury and nocturnal enuresis as a risk factor for falls in older women. We also investigate cancer diagnostics and treatments. In this area, our recent research has included studying cutaneous shave biopsies for diagnosing primary colonic adenocarcinoma as well as growth inhibition and apoptosis in human brain tumor cell lines using selenium.

    Research Areas: acute kidney injury, cancer, internal medicine, urology
  • Auditory Brainstem Laboratory

    Lab Website

    The overall goal of the Auditory Brainstem Library is to understand how abnormal auditory input from the ear affects the brainstem, and how the brain in turn affects activity in the ear through efferent feedback loops. Our emphasis is on understanding the effects of different forms of acquired hearing loss (genetic, conductive, noise-induced, age-related, traumatic brain injury-related) and environmental noise. We are particularly interested in plastic changes in the brain that compensate for some aspects of altered auditory input, and how those changes relate to central auditory processing deficits, tinnitus, and hyperacusis. Understanding these changes will help refine therapeutic strategies and identify new targets for treatment. We collaborate with other labs in the Depts. of Otolaryngology, Neuroscience, Neuropathology, the Wilmer Eye Institute, and the Applied Physics Laboratory at Johns Hopkins, in addition to labs outside the university to increase the impact and clinical relev...ance of our research. view more

    Research Areas: hearing disorders, compound action potentials, auditory brainstem response, otoacoustic emissions, operation conditions, audiology, acoustic startle modification, hearing, neurology
  • Bakker Memory Lab

    Lab Website

    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
  • Biophotonics Imaging Technologies (BIT) Laboratory

    Lab Website
    Principal Investigator:
    Xingde Li, Ph.D.
    Biomedical Engineering

    Research in the Biophotonics Imaging Technologies (BIT) Laboratory focuses on developing optical imaging and nano-biophotonics technology to reduce the random sampling errors in clinical diagnosis, improve early disease detection and guidance of biopsy and interventions, and improve targeted therapy and monitoring treatment outcomes. The imaging technologies feature nondestructiveness, unique functional and molecular specificity, and multi-scale resolution (from organ, to architectural morphology, cellular, subcellular and molecular level). The nano-biophotonics technologies emphasize heavily on biocompatibility, multi-function integration and fast track clinical translation. These imaging and nano-biophotonics technologies can also be potentially powerful tools for basic research such as for drug screening, nondestructive assessment of engineered biomaterials in vitro and in vivo, and for studying brain functions on awake animals under normal or controlled social conditions.

    Research Areas: drug screening, imaging, brain, nano-biophotonics
  • Brain Cancer Biology and Therapy Lab

    Lab Website
    Principal Investigator:
    Gregory Riggins, M.D., Ph.D.
    Neurosurgery

    The goal of the Johns Hopkins Brain Cancer Biology and Therapy Laboratory is to locate the genetic and genomic changes that lead to brain cancer. These molecular changes are evaluated for their potential as therapeutic targets and are often mutated genes, or genes that are over-expressed during the development of a brain cancer. The brain cancers that the Riggins Laboratory studies are medulloblastomas and glioblastomas. Medulloblastomas are the most common malignant brain tumor for children and glioblastomas are the most common malignant brain tumor for adults. Both tumors are difficult to treat, and new therapies are urgently needed for these cancers. Our laboratory uses large-scale genomic approaches to locate and analyze the genes that are mutated during brain cancer development. The technologies we now employ are capable of searching nearly all of a cancer genome for molecular alterations that can lead to cancer. The new molecular targets for cancer therapy are first located by l...arge scale gene expression analysis, whole-genome scans for altered gene copy number and high throughput sequence analysis of cancer genomes. The alterations we find are then studied in-depth to determine how they contribute to the development of cancer, whether it is promoting tumor growth, enhancing the ability for the cancer to invade into normal tissue, or preventing the various fail-safe mechanisms programmed into our cells. view more

    Research Areas: brain cancer
  • Brain Science Institute (BSi)

    Lab Website
    Principal Investigator:
    Jeffrey Rothstein, M.D., Ph.D.
    Neurology

    The Brain Science Institute (BSi) brings together both basic and clinical neuroscientists from across the Johns Hopkins campuses. The BSi represents one of the largest and most diverse groups in the university. The BSi's mission is to solve fundamental questions about brain development and function and to use these insights to understand the mechanisms of brain disease. This new knowledge will provide the catalyst for the facilitation and development of effective therapies. The goals of our research are to foster new programs in basic neuroscience discovery; initiate a translational research program that will develop new treatments for brain-based diseases; and encourage collaboration, interdisciplinary teams, and new thinking that will have a global influence on research and treatment of the nervous system.

    Research Areas: brain, neuroscience, neurology, nervous system
  • Brain Tumor Cancer Genetics Lab

    Lab Website

    The lab explores the genetic underpinnings that drive the pathogenesis of a variety of primary central nervous system neoplasms. We are interested in exploiting genetic changes for both diagnostic and therapeutic purposes. Our lab is currently working on understanding the extreme responders and extreme clinical phenotypes of brain and spinal cord tumors to identify factors that may modulate responses to therapy.

    Research Areas: brain tumor genetics, brain tumor
  • Brain Tumor Laboratory

    Lab Website
    Principal Investigator:
    Henry Brem, M.D.
    Neurology
    Neurosurgery

    At the brain tumor laboratory, Henry Brem, M.D. and Betty Tyler, along with more than 350 trainees, have conducted scientific research, contributed to scientific literature, amended clinical practice, and illuminated new pathways for improving clinical outcomes.



    The laboratory has advanced the understanding of gene therapy, angiogenesis, intracranial implantation of biodegradable polymers to treat malignant glioma, tumor genetics and proteomics, microchip drug delivery and drug resistance studies. Dr. Brem and his colleagues have designed and led many multi-institutional clinical trials to improve and expand the range of therapeutic options for patients with brain tumors.

    Research Areas: brain tumor drug delivery, brain tumor
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