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Displaying 21 to 30 of 37 results for biomarkers

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  • Kenneth J. Pienta Lab

    The Kenneth J. Pienta laboratory has championed the concept that cancer tumorigenesis and metastasis can best be understood utilizing the principles of Ecology. As a result, the Pienta laboratory is working to develop new treatments for cancer utilizing network disruption.

    Research Areas: biomarkers, cancer, metastasis

    Lab Website

    Principal Investigator

    Kenneth Pienta, M.D.

    Department

    Urology

  • Laura Hummers Lab

    The Laura Hummers Lab participates in a number of clinical trials and clinical investigations at the Scleroderma Center at Johns Hopkins. We have a particular interest in the predictors of outcomes in scleroderma. We’ve established a prospective cohort of 300 scleroderma patients to identify incident vascular outcomes in the hopes of identifying new biomarkers for disease development and progression.

    Research Areas: rheumatology, biomarkers, scleroderma

    Lab Website

    Principal Investigator

    Laura Hummers, M.D.

    Department

    Medicine

  • Livia Casciola-Rosen Lab

    Work in the Livia Casciola-Rosen Lab explores the shared mechanisms present in autoimmune rheumatic diseases, specifically scleroderma, Sjogren's syndrome and myositis. We use disease-specific autoantibodies to identify the factors that cause the autoimmune response in such diseases. Our current research involves identifying the antigen targets of autoimmune diseases, investigating the autoantigens targeted in cancers associated with rheumatic diseases and finding unique clinical biomarkers, such as the anti-HMGCR antibody specificity.

    Research Areas: autoantibodies, myositis, rheumatology, Sjogren's syndrome, scleroderma, autoimmune rheumatic diseases

    Principal Investigator

    Livia Casciola-Rosen, Ph.D.

    Department

    Medicine

  • Machine Biointerface Lab

    Dr. Fridman's research group invents and develops bioelectronics for Neuroengineering and Medical Instrumentation applications. We develop innovative medical technology and we also conduct the necessary biological studies to understand how the technology could be effective and safe for people.

    Our lab is currently focused on developing the "Safe Direct Current Stimulation" technology, or SDCS. Unlike the currently available commercial neural prosthetic devices, such as cochlear implants, pacemakers, or Parkinson's deep brain stimulators that can only excite neurons, SDCS can excite, inhibit, and even sensitize them to input. This new technology opens a door to a wide range of applications that we are currently exploring along with device development: e.g. peripheral nerve stimulation for suppressing neuropathic pain, vestibular nerve stimulation to correct balance disorders, vagal nerve stimulation to suppress an asthma attack, and a host of other neuroprosthetic applications.

    M...edical Instrumentation MouthLab is a "tricorder" device that we invented here in the Machine Biointerface Lab. The device currently obtains all vital signs within 60s: Pulse rate, breathing rate, temperature, blood pressure, blood oxygen saturation, electrocardiogram, and FEV1 (lung function) measurement. Because the device is in the mouth, it has access to saliva and to breath and we are focused now on expanding its capability to obtaining measures of dehydration and biomarkers that could be indicative of a wide range of internal disorders ranging from stress to kidney failure and even lung cancer.
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    Research Areas: medical instruments, bioelectricities, neuroengineering, nerve stimulation

  • Morgan Grams Lab

    Research in the Morgan Grams Lab focuses on preventing and improving the complications associated with chronic kidney disease. Recent work includes examining the racial differences in and prognostic value of biomarkers of hyperglycemia. We’ve also developed an online tool to help identify living kidney donor candidates. The tool assesses the long-term risk of end-stage renal disease (ESRD) by weighing a variety of factors.

    Research Areas: organ donors, hyperglycemia, biomarkers, chronic kidney disease, health disparities

    Principal Investigator

    Morgan Grams, M.D., M.H.S., Ph.D.

    Department

    Medicine

  • Qian-Li Xue Lab

    The primary area of statistical expertise in the Qian-Li Xue Lab is the development and application of statistical methods for: (1) handling the truncation of information on underlying or unobservable outcomes (e.g., disability) as a result of screening, (2) missing data, including outcome (e.g., frailty) censoring by a competing risk (e.g., mortality) and (3) trajectory analysis of multivariate outcomes. Other areas of methodologic research interests include multivariate, latent variable models. In Women's Health and Aging Studies, we have closely collaborated with scientific investigators on the design and analysis of longitudinal data relating biomarkers of inflammation, hormonal dysregulation and micronutrient deficiencies to the development and progression of frailty and disability, as well as characterizing the natural history of change in cognitive and physical function over time.

    Research Areas: epidemiology, disabilities, longitudinal data, hormonal dysregulation, women's health, inflammation, frailty, biostatistics, gerontology, latent variables

    Principal Investigator

    Qian-Li Xue, Ph.D.

    Department

    Medicine

  • Richard F. Ambinder Lab

    Epstein-Barr virus and Kaposi's sarcoma herpesvirus are found in association with a variety of cancers. Our laboratory studies are aimed at better defining the role(s) of the virus in the pathogenesis of these diseases and the development of strategies to prevent, diagnose or treat them. We have become particularly interested in the unfolded protein response in activation of latent viral infection. Among the notions that we are exploring is the possibility that activation of virus-encoded enzymes will allow the targeted delivery of radation. In addition, we are investigating a variety of virus-related biomarkers including viral DNA, antibody responses, and cytokine measurements that may be clinically relevant.

    Research Areas: virology, antiviral therapy

  • Srinivasan Yegnasubramanian Lab

    Dr. Yegnasubramanian directs a Laboratory of Cancer Molecular Genetics and Epigenetics at the Sidney Kimmel Comprehensive Cancer Center (SKCCC), and is also the Director of the SKCCC Next Generation Sequencing Center.


    Our lab research is focused on understanding the complex interplay between genetic and epigenetic alterations in carcinogenesis and disease progression, and to exploit this understanding in developing novel biomarkers for diagnosis and risk stratification as well as in identifying targets for therapeutic intervention.

    Research Areas: cancer therapies, biomarkers, genetics, cancer, epigenetics

  • Suzanne Topalian Lab

    Our lab currently focuses on three areas of immunotherapy research: gaining a deeper knowledge of the biological underpinnings of human autoimmune response; discovering biomarkers that will help us identify which patients and tumor types are most likely to respond to various immune therapies; and developing immune-based treatment combinations that could deliver a more powerful anti-tumor response than monotherapies.

    Research Areas: cancer, PD-1, melanoma, immunotherapy, cancer immunology

    Principal Investigator

    Suzanne Topalian, M.D.

    Department

    Oncology

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