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Displaying 1 to 20 of 37 results for biomarkers

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  • Chirag Parikh Lab

    Dr. Parikh's research focuses on the translation and validation of novel biomarkers for the diagnosis and prognosis of acute kidney injury. Progress in kidney diseases has been hamstrung by significant heterogeneity within the current disease definitions, which are largely based on serum creatinine. Dr. Parikh's research has addressed this critical challenge by developing biomarkers of renal tubular injury, repair, and inflammation to dissect this heterogeneity. He has assembled multicenter longitudinal prospective cohorts for translational research studies across several clinical settings of acute kidney injury and chronic kidney disease for the efficient translation of novel biomarkers.

    His research is dedicated to the process of applying discoveries generated in the laboratory and in preclinical experiments, the development of clinical studies, and the design of clinical trials. Dr. Parikh's studies have refined the clinical definition in perioperative acute kidney injury and hep...atorenal syndrome, developed strategies to reduce kidney discard in deceased donor transplantation, and advanced regulatory approvals of kidney injury biomarkers. He has also developed biomarkers to identify rapid progressors of early diabetic kidney disease before derangements in serum creatinine. Dr. Parikh's research goal is to translate our understanding of pathophysiological mechanisms into clinical practice and improve the outcomes in patients with kidney disease.

    Dr. Parikh has also been the recipient of numerous honors, including the 2017 Young Investigator Award from the American Society of Nephrology.
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    Research Areas: acute kidney injury, biomarkers, Kidney Transplantation, chronic kidney disease

    Lab Website

    Principal Investigator

    Chirag Parikh, M.B.B.S., Ph.D.

    Department

    Medicine

  • Christopher A. Ross Lab

    Dr. Ross and his research team have focused on Huntington's disease and Parkinson's disease, and now are using insights from these disorders to approach more complex diseases such as schizophrenia and bipolar disorder. They use biophysical and biochemical techniques, cell models, and transgenic mouse models to understand disease processes, and to provide targets for development of rational therapeutics. These then can provide a basis for developing small molecule interventions, which can be used both as probes to study biology, and if they have favorable drug-like properties, for potential therapeutic development. We have used two strategies for identifying lead compounds. The first is the traditional path of identification of specific molecular targets, such as enzymes like the LRRK2 kinase of Parkinson’s disease. Once structure is known, computational approaches or fragment based lead discovery, in collaboration, can be used. The second is to conduct phenotypic screens using ce...ll models, or in a collaboration, natural products in a yeast model. Once a lead compound is identified, we use cell models for initial tests of compounds, then generate analogs, and take compounds that look promising to preclinical therapeutic studies in animal models. The ultimate goal is to develop therapeutic strategies that can be brought to human clinical trials, and we have pioneered in developing biomarkers and genetic testing for developing strategies. view less

    Research Areas: psychiatric disorders

  • Clinical Laboratory and Biomarkers Core

    The Clinical Laboratory and Biomarkers Cores will coordinate access to laboratory expertise, testing, training, specimen repositories and Good Clinical Laboratory Practices (GCLP). The goals of this core are to assure that all JHU HIV investigators have access to and utilize appropriate, validated and, where applicable, certified laboratory assays. The core will also maintain a biomarker specimen repository for storage cataloguing and utilization of biological specimens.

    Research Areas: virology, immunology, biomarkers, HIV, pathogenesis

    Lab Website

    Principal Investigator

    Craig W. Hendrix, M.D.

    Department

    Medicine

  • Daria Gaykalova Lab

    The Daria Gakalova Lab defines the functional role of epigenetics in transcriptional regulation of head and neck squamous cell carcinoma (HNSCC) progression. To evaluate the whole-genome distribution of various histone marks, her team is using chromatin immunoprecipitation followed by massively parallel DNA sequencing (ChIP-Seq) for primary tissues, a method recently developed by her lab. The research group of Daria Gaykalova was the first to demonstrate the cancer-specific distribution of H3K4me3 and H3K27ac marks and their role in cancer-related gene expression in HNSCC. The research showed that an aberrant chromatin alteration is a central event in carcinogenesis and that the therapeutic control of chromatin structure can prevent the primary of secondary cancerization. Further preliminary data suggest that the differential enrichment of these disease-specific histone marks and DNA methylation correlate with alternative splicing events (ASE) formation. For this project, Dr. Gaykalova... and her team employed a novel bioinformatical tool for the detection of cancer-specific ASEs. Through thorough functional validation of the individual ASEs, the lab demonstrated that each of them has a unique mechanism of malignant transformation of the cells. Due to high disease specificity, ASEs represent the perfect biomarkers of the neoantigens and have direct application to clinical practice. view less

    Research Areas: Head and neck squamous cell carcinoma, Human papillomavirus, Alternative splicing, epigenetics, Chromatin structure, Cancer genomics, head and neck cancer

  • Eberhart, Rodriguez and Raabe Lab

    Utilizing a combination of tissue-based, cell-based, and molecular approaches, our research goals focus on abnormal telomere biology as it relates to cancer initiation and tumor progression, with a particular interest in the Alternative Lengthening of Telomeres (ALT) phenotype. In addition, our laboratories focus on cancer biomarker discovery and validation with the ultimate aim to utilize these novel tissue-based biomarkers to improve individualized prevention, detection, and treatment strategies.

    Research Areas: cancer therapies, preventing cancer metastasis, cancer, cancer biomarkers

    Lab Website

    Principal Investigator

    Charles Eberhart, M.D., Ph.D.

    Department

    Pathology

  • Eberhart, Rodriguez and Raabe Lab

    Utilizing a combination of tissue-based, cell-based, and molecular approaches, our research goals focus on abnormal telomere biology as it relates to cancer initiation and tumor progression, with a particular interest in the Alternative Lengthening of Telomeres (ALT) phenotype. In addition, our laboratories focus on cancer biomarker discovery and validation with the ultimate aim to utilize these novel tissue-based biomarkers to improve individualized prevention, detection, and treatment strategies.

    Research Areas: stem cells, eye tumor, tumor cell metastasis, brain tumor

    Lab Website

    Principal Investigator

    Charles Eberhart, M.D., Ph.D.

    Department

    Pathology

  • Elizabeth Selvin Lab

    The Elizabeth Selvin Lab examines the intersection of epidemiology, clinical policy and public health policy. One of our key goals is to use the findings of epidemiologic research to inform the screening, diagnosis and treatment of diabetes, cardiovascular disease and kidney disease. Much of our work looks at biomarkers and diagnostics related to diabetes and diabetes complications. Our findings — linking hemoglobin A1c (HbA1c) to diabetic complications and identifying the role of A1c in diabetes diagnosis — have influenced clinical practice guidelines.

    Research Areas: epidemiology, biomarkers, kidney diseases, obesity, diabetes, health care policy, cardiovascular diseases

    Principal Investigator

    Elizabeth Selvin, M.P.H., Ph.D.

    Department

    Medicine

  • Fisher Biomarker Research Laboratory

    The Veltri-Partin Fisher Biomarker Laboratory strives to improve the early detection, staging, monitoring and prognosis of prostate cancer and other urologic cancers with the use of biomarkers.

    Research Areas: prostate cancer, biomarkers, urologic cancers

    Principal Investigator

    Alan Partin, M.D., Ph.D.

    Department

    Urology

  • Franck Housseau Lab

    The Franck Housseau Lab focuses on the role of the microbiome in colorectal tumorigenesis and on developing a better understanding of the tumor immune microenvironment. The lab is currently working to define the biomarkers of a pre-existing antitumor immune response in metastatic colorectal cancer to define a population of patients eligible for checkpoint blockade therapies.

    Research Areas: microbiology, tumor immunology, microbiome, colorectal cancer, cancer, colon cancer, tumor microenvironment, immunotherapy

    Principal Investigator

    Franck Housseau, Ph.D.

    Department

    Oncology

  • GI Biomarkers Laboratory

    The GI Biomarkers Laboratory studies gastrointestinal cancer and pre-cancer biogenesis and biomarkers. The lab is led by Dr. Stephen Meltzer, who is known for his research in the molecular pathobiology of gastrointestinal malignancy and premalignancy. Research in the lab has led to several groundbreaking genomic, epigenomic and bioinformatic studies of esophageal and colonic neoplasms, shifting the gastrointestinal research paradaigm toward genome-wide approaches.

    Research Areas: gastrointestinal system, biomarkers, cancer, epigenetics, genomics, bioinformatics, biogenesis

    Lab Website

    Principal Investigator

    Stephen Meltzer, M.D.

    Department

    Medicine

  • 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.
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    Research Areas: gastrointestinal cancer, gastrointestinal

    Principal Investigator

    Stephen Meltzer, M.D.

    Department

    Medicine

  • Haughey Lab: Neurodegenerative and Neuroinfectious Disease

    Dr. Haughey directs a disease-oriented research program that address questions in basic neurobiology, and clinical neurology. The primary research interests of the laboratory are:

    1. To identify biomarkers markers for neurodegenerative diseases including HIV-Associated Neurocognitive Disorders, Multiple Sclerosis, and Alzheimer’s disease. In these studies, blood and cerebral spinal fluid samples obtained from ongoing clinical studies are analyzed for metabolic profiles through a variety of biochemical, mass spectrometry and bioinformatic techniques. These biomarkers can then be used in the diagnosis of disease, as prognostic indicators to predict disease trajectory, or as surrogate markers to track the effectiveness of disease modifying interventions.
    2. To better understand how the lipid components of neuronal, and glial membranes interact with proteins to regulate signal transduction associated with differentiation, motility, inflammatory signaling, survival, and neuronal excitab...ility.
    3. To understand how extracellular vesicles (exosomes) released from brain resident cells regulate neuronal excitability, neural network activity, and peripheral immune responses to central nervous system damage and infections.
    4. To develop small molecule therapeutics that regulate lipid metabolism as a neuroprotective and restorative strategy for neurodegenerative conditions.
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    Research Areas: multiple sclerosis, PTSD, HAND, HIV

    Lab Website

    Principal Investigator

    Norman Haughey, Ph.D.

    Department

    Neurology
    Neurosurgery

  • Healthy Brain Program

    The Brain Health Program is a multidisciplinary team of faculty from the departments of neurology, psychiatry, epidemiology, and radiology lead by Leah Rubin and Jennifer Coughlin. In the hope of revealing new directions for therapies, the group studies molecular biomarkers identified from tissue and brain imaging that are associated with memory problems related to HIV infection, aging, dementia, mental illness and traumatic brain injury. The team seeks to advance policies and practices to optimize brain health in vulnerable populations while destigmatizing these brain disorders.

    Current and future projects include research on: the roles of the stress response, glucocorticoids, and inflammation in conditions that affect memory and the related factors that make people protected or or vulnerable to memory decline; new mobile apps that use iPads to improve our detection of memory deficits; clinical trials looking at short-term effects of low dose hydrocortisone and randomized to 28 day...s of treatment; imaging brain injury and repair in NFL players to guide players and the game; and the role of inflammation in memory deterioration in healthy aging, patients with HIV, and other neurodegenerative conditions. view more

    Research Areas: HIV infection, mental illness, aging, traumatic brain injury, dementia

  • Heng Zhu Lab

    The Zhu lab is focused on characterizing the activities of large collection of proteins, building signaling networks for better understanding the mechanisms of biological processes, and identifying biomarkers in human diseases and cancers. More specifically, our group is interested in analyzing protein posttranslational modifications, and identifying important components involved in transcription networks and host-pathogen interactions on the proteomics level, and biomarkers in human IBD diseases.

    Research Areas: inflammatory bowel disease, biomarkers, cancer

  • 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

  • Integrated Research Center for Fetal Medicine

    Currently supported research includes pathophysiology of fetal brain development with intrauterine insults, ultrasound and bio- markers of fetal well-being and biomarkers for fetal disease stratification and response to treatment (such as magnesium sulfate administration or head cooling as in cases of neuroinflammation).

    Research Areas: fetal brain development

  • James Hamilton Lab

    The main research interests of the James Hamilton Lab are the molecular pathogenesis of hepatocellular carcinoma and the development of molecular markers to help diagnose and manage cancer of the liver. In addition, we are investigating biomarkers for early diagnosis, prognosis and response to various treatment modalities. Results of this study will provide a molecular classification of HCC and allow us to identify targets for chemoprevention and treatment. Specifically, we extract genomic DNA and total RNA from liver tissues and use this genetic material for methylation-specific PCR (MSP), cDNA microarray, microRNA microarray and genomic DNA methylation array experiments.

    Research Areas: cancer, molecular genetics, genomics, pathogenesis, liver diseases, hepatocellular carcinoma

    Principal Investigator

    James Hamilton, M.D.

    Department

    Medicine

  • 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

  • John Aucott Lab

    Research in the John Aucott Lab focuses on the development of accurate diagnostic tests for all stages of Lyme disease. We work closely with Dr. Mark Soloski on the Study of Lyme disease Immunology and Clinical Events (SLICE), a longitudinal, matched-control study of patients diagnosed with early untreated Lyme disease. The objective is to use the collected biological samples to help identify novel Lyme disease biomarkers that can inform diagnoses, outcomes and the knowledge about disease pathophysiology.

    Research Areas: clinical outcomes, gender differences, biomarkers, pathophysiology, immune heterogeneity, Lyme disease

    Principal Investigator

    John Aucott, M.D.

    Department

    Medicine

  • Jonathan Zenilman Lab

    The Jonathan Zenilman lab conducts research related to sexually transmitted diseases (STDs). We are working to develop biological markers for sexual behavior to use in other research. The lab studies sexual risk behaviors in highly vulnerable populations and studies datasets from the Baltimore City Health Department to understand STD trends and behaviors. Additionally, we study nosocomial infections at Johns Hopkins Bayview Medical Center, with a focus on developing an antimicrobial control program. We also conduct clinical research related to the natural history and microbiology of chronic wounds in the outpatient setting.

    Research Areas: behavioral research, biomarkers, sexually transmitted diseases, nosocomial infections

    Principal Investigator

    Jonathan Zenilman, M.D.

    Department

    Medicine

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