Find a Research Lab

Enter a research interest, principal investigator or keyword

Displaying 1 to 10 of 25 results for translational research

Show: 10 · 20 · 50

  1. 1
  2. 2
  3. 3
  • Brain Science Institute (BSi)

    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

    Lab Website

    Principal Investigator

    Jeffrey Rothstein, M.D., Ph.D.

    Department

    Neurology

  • Cervical Dysplasia Research Lab

    We are interested in how immune responses occur in the cervix. The focus of our translational research is on developing immune therapies for disease caused by human papillomavirus (HPV). HPV infection causes more cancers than any other virus in the world. Cervical cancer is the most common cancer caused by HPV, and although we have known how to screen for it for over half a century, it remains the second most common cause of cancer death in women. Although the preventive vaccines are a public health milestone, they prevent HPV infections, but are not designed to make immune responses to treat HPV. We are testing different strategies to make immune responses that could treat HPV disease. Our dedicated researchers are working to extend the techniques used in HPV vaccine development to the creation of vaccines targeting other cancers with defined tumor antigens.

    Research Areas: cervical cancer, HPV, cancer vaccines

  • Christopher Chute Lab

    Work in the Christopher Chute Lab involves the management of clinical data to enable effective evidence-based clinical practice and translational research. Recently, we developed an EHR-based genetic testing knowledge base to be integrated into the genetic testing ontology (GTO) and identified potential barriers to pharmacogenomics clinical decision support (CDS) implementation.

    Research Areas: pharmacogenomics, genomics, electronic health records, bioinformatics, evidence-based medicine, phenotypes

  • Early Detection of Pancreatic Cancer Laboratory

    The goal of the lab's research is to identify molecular abnormalities that can improve the outcome of patients with pancreatic cancer and those at risk of developing this disease. Much of our work is focused on translational research evaluating markers and marker technologies that can help screen patients with an increased risk of developing pancreatic cancer.

    Thus, marker efforts have been focused mostly on identifying markers of advanced precancerous neoplasia (PanINs and IPMNs) that could improve our ability to effectively screen patients at risk of developing pancreatic cancer. We lead or participate in a number of clinical research protocols involved in the screening and early detection of pancreatic neoplasia including the CAPS clinical trials. We maintain a large repository of specimens from cases and controls with and without pancreatic disease and use this repository to investigate candidate markers of pancreatic cancer for their utility to predict pancreatic cancer risk.
    ...
    In addition, we have been working to identify familial pancreatic cancer susceptibility genes and identified BRCA2 as a pancreatic cancer susceptibility gene in 1996. We participate in the PACGENE consortium and the familial pancreatic cancer sequencing initiative. My lab also investigates pancreatic cancer genetics, epigenetics, molecular pathology, tumor stromal interactions and functional analysis of candidate genes and miRNAs. Dr. Goggins is the principal investigator of a phase I/II clinical trial evaluating the Parp inhibitor, olaparib along with irinotecan and cisplatin for patients with pancreatic cancer.
    view more

    Research Areas: pancreatic cancer

    Lab Website

    Principal Investigator

    Michael Goggins, M.B.B.Ch., M.D.

    Department

    Medicine

  • Elisseeff Lab

    The mission of the Elisseeff Lab is to engineer technologies to repair lost tissues. We aim to bridge academic research and technology discovery to treat patients and address clinically relevant challenges related to tissue engineering. To accomplish this goal we are developing and enabling materials, studying biomaterial structure-function relationships and investigating mechanisms of tissue development to practically rebuild tissues. The general approach of tissue engineering is to place cells on a biomaterial scaffold that is designed to provide the appropriate signals to promote tissue development and ultimately restore normal tissue function in vivo. Understanding mechanisms of cellular interactions (both cell-cell and cell-material) and tissue development on scaffolds is critical to advancement of the field, particularly in applications employing stem cells. Translation of technologies to tissue-specific sites and diseased environments is key to better design, understanding, and... ultimately efficacy of tissue repair strategies. We desire to translate clinically practical strategies, in the form of biomaterials/medical devices, to guide and enhance the body's natural capacity for repair. To accomplish the interdisciplinary challenge of regenerative medicine research, we maintain a synergistic balance of basic and applied/translational research. view less

    Research Areas: stem cells, biomedical engineering, tissues

    Lab Website

    Principal Investigator

    Jennifer Elisseeff, Ph.D.

    Department

    Ophthalmology

  • GI Early Detection Biomarkers Lab

    Dr. Meltzer is an internationally renowned leader in the molecular pathobiology of gastrointestinal malignancy and premalignancy. He invented molecular methods to detect loss of heterozygosity in tiny biopsies, triggering an avalanche of research on precancerous lesions. He was the first to comprehensively study coding region microsatellite instability, leading to the identification of several important tumor suppressor genes. He performed several groundbreaking genomic, epigenomic and bioinformatic studies of esophageal and colonic neoplasms, shifting the GI research paradigm toward genome-wide approaches. He directed an ambitious nationwide validation study of DNA methylation-based biomarkers for the prediction of neoplastic progression in Barrett’s esophagus.

    Dr. Meltzer founded and led the Aerodigestive Cancer and Biomarker Interdisciplinary Programs at the University of Maryland, also becoming associate director for core sciences at that school’s Cancer Center. He currently hol...ds an endowed professorship and is the director of GI biomarker research at Johns Hopkins.

    The laboratory group focuses its efforts on the molecular genetics of gastrointestinal cancers and premalignant lesions, as well as on translational research to improve early detection, prognostic evaluation, and treatment of these conditions. Below, some examples of this work are described.
    view less

    Research Areas: gastrointestinal cancer, gastrointestinal

    Principal Investigator

    Stephen Meltzer, M.D.

    Department

    Medicine

  • Hamid Rabb Lab

    The Hamid Rabb Lab is involved in translational research aimed at understanding the molecular pathogenesis of kidney ischemia/reperfusion injury. We’re interested in the development of novel treatments for kidney IRI.

    Research Areas: kidney diseases, kidney ischemia/reperfusion injuries, nephrology

    Principal Investigator

    Hamid Rabb, M.D.

    Department

    Medicine

  • IBD and Autoimmune Liver Diseases Laboratory

    Investigators in the IBD and Autoimmune Liver Diseases Laboratory conduct basic and translational research in inflammatory bowel disease (IBD) and autoimmune liver diseases. One area of focus is discovering and developing biomarkers for diagnosing and prognosticating IBD and other autoimmune liver diseases (AILDs). We also are exploring the molecular pathogenesis of—and developing novel therapies for—IBD. In addition, we are working to understand the molecular reason why many IBD patients fail to respond to mainstay drug therapies—and to develop diagnostic assays that can predict non-responders before starting them on those therapies. These biomarker studies have led to our application for four U.S. and international patents.

    Research Areas: inflammatory bowel disease, Crohn’s disease, gastrointestinal system, colitis, autoimmune diseases, pathogenesis, celiac disease, liver diseases

    Lab Website

    Principal Investigator

    Xu Li, Ph.D.

    Department

    Medicine

  • Ivan Borrello Lab

    The Ivan Borrello Lab focuses on the development of a novel approach of adoptive T cell therapy utilizing marrow-infiltrating lymphocytes (MILs) as a more tumor-specific T cell approach. This has led to establishing the first adoptive T cell trials at Johns Hopkins and an exploration of this approach in other diseases, including nonhematologic malignancies. The lab also examines strategies for treating minimal residual disease (MRD) in myeloma with the combination of immune modulation and whole cell-based vaccines.

    Research Areas: immunology, vaccines, multiple myeloma, cancer, translational research, immunotherapy, T cells

    Lab Website

    Principal Investigator

    Ivan Borrello, M.D.

    Department

    Oncology

  • Jean Kim Lab

    The Jean Kim Laboratory performs translational research in the
    area of chronic rhinosinusitis, with a niche interest in the pathogenesis of hyperplastic nasal
    polyposis. Studies encompass clinical research to basic wet laboratory research in
    studying the underlying immune and autoimmune mediated mechanism of polyp growth and
    perpetuation of disease. Human cell and tissue culture models are used. Techniques in the
    laboratory include cell and tissue culture, real time PCR, immunoblot, ELISA, flow cytometry,
    immunohistochemistry, electron microscopy, gene array analysis, and other molecular
    approaches including genetic knockdowns. Approaches used in Dr. Kim’s clinical study
    designs include prospective and retrospective analysis of patient outcomes and clinical
    biomarkers, as wells controlled clinical trials.

    Research Areas: nasal polyps, chronic rhinosinusitis, hyperplastic nasal polyposis

  1. 1
  2. 2
  3. 3