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  • Bowditch Research Group

    Lab Website

    Bowditch Research Group conducts research regarding speech discrimination in background noise, ...cochlear implants and osseointegrated hearing devices view more

    Research Areas: implantable technology, audiology, cochlear implant, hearing loss, hearing aids
  • Bradford Winters Lab

    The Bradford Winters Lab conducts research on patient safety and quality of care. Our team focu...ses on the topics of patient care in the intensive care unit, evidence-based medicine, quality health care, and the measurement and evaluation of safety efforts. Currently our work involves evaluating pain management techniques in post-craniotomy patients, developing guidelines for policy development of patient safety initiatives and creating measures for rapid-response system outcomes. view more

    Research Areas: patient safety, ICU, evidence-based medicine, quality of care
  • Bradley Undem Lab

    Principal Investigator:
    Bradley Undem, Ph.D.
    Medicine

    Research in the Bradley Undem Lab centers around the hypothesis that the peripheral nervous sys...tem is directly involved in the processes of inflammation. This hypothesis is being studied primarily in the central airways and sympathetic ganglia. We are addressing this in a multidisciplinary fashion, using pharmacological, electrophysiological, biochemical and anatomical methodologies. view more

    Research Areas: biochemistry, electrophysiology, inflammation, pharmacology, nervous system
  • 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 gene...tic 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 large 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. view more

    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. view more

    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 train...ees, 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.
    view more

    Research Areas: brain tumor drug delivery, brain tumor
  • Braunstein Lab

    Lab Website
    Principal Investigator:
    Evan Braunstein, M.D., Ph.D.
    Medicine

    Dr. Braunstein's research focuses on inherited predisposition to hematologic diseases. His labo...ratory studies the inherited genetic changes in DNA that increase susceptibility to disease. Blood cancers such as myeloproliferative neoplasms and myelodysplastic syndromes are traditionally thought to be acquired disorders, however there is increasing evidence that inherited genetic changes play a role. In addition, Dr. Braunstein studies non-malignant blood diseases including atypical hemolytic uremic syndrome (aHUS) and related thrombotic disorders such as APLS, TTP and HELLP syndrome which are caused in part by genetic mutations. His work has identified a germline variants in the ERBB genes that predispose to hematologic malignancies. In addition, his research group found that patients with catastrophic APLS and HELLP syndrome frequently harbor germline mutations in complement regulatory genes. This has led directly to clinical trials designed to test the efficacy of complement inhibition in patients with these disorders. Dr. Braunstein continues to work toward translating the scientific findings from the laboratory into improved care and treatment for patients. view more

    Research Areas: Myeloproliferative neoplasms, complement disorders
  • Brendan Cormack Laboratory

    The Brendan Cormack Laboratory studies fungal pathogenesis, particularly the host-pathogen inte...raction for the yeast pathogen Candida glabrata.

    We are trying to identify virulence genes (genes that evolved in response to the host environment) by screening transposon mutants of C. glabrata for mutants that are specifically altered in adherence to epithelial cells, in survival in the presence of macrophages and PMNs. We also screen mutants directly in mice for those unable to colonize or persist in the normal target organs (liver, kidney and spleen).

    We also focus research on a family of genes--the EPA genes--that allow the organism to bind to host cells. Our research shows that a subset of them are able to mediate adherence to host epithelial cells. We are trying to understand the contribution of this family to virulence in C. glabrata by figuring out what the ligand specificity is of different family members, how genes are normally regulated during infection, and what mechanisms normally act to keep the genes transcriptionally silent and how that silence is regulated.
    view more

    Research Areas: candida glabrata, pathogenesis, virulence genes, yeast, molecular biology
  • Brendan J. Canning Lab

    Principal Investigator:
    Brendan Canning, Ph.D.
    Medicine

    Research in the Brendan J. Canning Lab is focused on mechanistic studies of the cough reflex. T...hrough our work, we identified the afferent nerves that play an essential role in regulating cough. We have also been characterizing the CNS pathways regulating the cough reflex and interactions amongst various afferent nerve subtypes in regulating cough. We have identified key sites of integration of airway afferent nerve input and mechanisms by which afferent nerve subtypes act synergistically to regulate cough. Our experimental approaches include electrophysiological recordings, CNS microinjection techniques, in vivo preparations for monitoring cough and reflex bronchospasm, neuronal tracing and immunohistochemistry. view more

    Research Areas: airway reflexes, coughs, immunohistochemistry
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