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Displaying 61 to 80 of 120 results for cancer

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  • Jungsan Sohn

    Dr. Sohn's lab is interested in understanding how biological stress-sensors are assembled, detect danger signals and initiate stress response.

    Innate immunity is the first line of defense against invading pathogens in higher eukaryotes. We are using in vitro quantitative biochemical assays and mutagenesis and x-ray crystallography to investigate the underlying operating principles of inflammasomes, a component of the innate immune system, to better understand biological stress sensors.

    Research Areas: immunology, cell biology, cancer, eukaryotes, stress sensors

    Lab Website

    Principal Investigator

    Jungsan Sohn, Ph.D.

    Department

    Biophysics and Biophysical Chemistry

  • Kathleen Gabrielson Laboratory

    Research in the Kathleen Gabrielson Laboratory focuses on the signal transduction of cardiovascular toxicities in vitro, in cardiomyocyte culture and in vivo using rodent models. Specifically, the research focuses on understanding the mechanisms of various cancer therapies that induce cardiac toxicities.

    Currently, we are testing prevention strategies for these toxicities by studying the cardiac effects of the anthracycline doxorubicin (adriamycin) and the immunotherapeutic agent, Herceptin, anti-erbB2. We are focusing on the signal transduction pathways in the heart that are modulated by anti-erbB2 treatment, which in turn, worsens doxorubicin toxicity. Thus, understanding the mechanisms behind the combined toxicity of doxorubicin and anti-erbB2 will pave the way for the design of strategies to reduce toxicity, identify patients at risk and potentially allow higher levels of this effective combination therapy to be used with an improved long-term survival in patients.

    Research Areas: cardiovascular toxicity, cancer, pathology, signal transduction

    Principal Investigator

    Kathleen Gabrielson, D.V.M., Ph.D.

    Department

    Molecular and Comparative Pathobiology

  • Kathryn Carson Lab

    The Kathryn Carson Lab investigates ways to improve medical research, particularly in the areas of brain and thyroid cancer, Alzheimer’s disease, atherosclerosis, hypertension, HIV and lupus. Our team seeks to help researchers optimize their studies through better study design, protocol and grant writing, data cleaning and analysis, and publication writing. We work with investigators from a wide range of departments through the Johns Hopkins Institute for Clinical and Translational Research.

    Research Areas: epidemiology, lupus, research methods, data analysis, cancer, hypertension, clinical trials, HIV, biostatistics, Alzheimer's disease

    Principal Investigator

    Kathryn Carson, Sc.M.

    Department

    Medicine

  • 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

  • Kenneth W. Kinzler Laboratory

    Dr. Kinzler’s laboratory has focused on the genetics of human cancer. They have identified a variety of genetic mutations that underlie cancer, including mutations of the APC pathway that appear to initiate the majority of colorectal cancers and IDH1/2 mutations that underlying many gliomas. In addition, they have developed a variety of powerful tools for analysis of expression and genetic alterations in cancer.
    Most recently, they have pioneered integrated whole genome analyses of human cancers through expression, copy number, and mutational analyses of all the coding genes in several human cancer types including colorectal, breast, pancreatic and brain. The identification of genetic differences between normal and tumor tissues provide new therapeutic targets, new opportunities for the early diagnosis of cancer, and important insights into the neoplastic process.

    Research Areas: cancer, molecular genetics

    Lab Website

    Principal Investigator

    Kenneth Kinzler, Ph.D.

    Department

    Oncology

  • Konig Lab

    The Konig Lab focuses on chimeric T cell- and antibody-based strategies for the treatment of autoimmune rheumatic diseases and cancer. A primary goal of the translational research program is the development of antigen-specific and personalized immunotherapies for autoimmune diseases, with the intent to achieve sustained disease remission and functional cure. The lab further aims to establish precision T cell-targeting therapies for the treatment of various autoimmune diseases. Applying these tools to immuno-oncology, the lab utilizes cellular engineering strategies to augment the cytotoxic killing of solid cancers by the immune system.

    Research Areas: antigen-specific immunotherapy, myositis, autoimmunity, citrullination, rheumatology, antiphospholipid antibody syndrome, chimeric antigen receptor (CAR) T cell therapy, immuno-oncology, autoimmune rheumatic diseases, rheumatoid arthritis

    Principal Investigator

    Maximilian Konig, M.D.

    Department

    Medicine

  • Kristine Glunde Lab

    The Glunde lab is within the Division of Cancer Imaging Research in the Department of Radiology and Radiological Science. The lab is developing mass spectrometry imaging as part of multimodal molecular imaging workflows to image and elucidate hypoxia-driven signaling pathways in breast cancer. They are working to further unravel the molecular basis of the aberrant choline phospholipid metabolism in cancer. The Glunde lab is developing novel optical imaging agents for multi-scale molecular imaging of lysosomes in breast tumors and discovering structural changes in Collagen I matrices and their role in breast cancer and metastasis.

    Research Areas: breast cancer, mass spectrometry, imaging, cancer, metastasis, metabolism, optical imaging

  • Lee Bone Lab

    Research in the Lee Bone Lab uses community-based participatory approaches to promote health in underserved urban African-American populations. We conduct randomized clinical trials on cardiovascular disease, diabetes and cancer detection and control in order to test the success of community interventions. We focus in particular on making interventions sustainable and on implementing electronic education to improve communication.

    Research Areas: African Americans, cancer, diabetes, community outreach, cardiovascular diseases, community health education

    Principal Investigator

    Lee Bone, M.P.H.

    Department

    Medicine

  • Lei Zheng Lab

    Zheng’s research focuses on two R01-funded projects; first, the group has developed a pancreatic cancer immunotherapy research program on a neoadjuvant therapy platform as well as a number of preclinical models of pancreatic cancer for developing innovative immunotherapy strategies. The group has applied the knowledge gained from pancreatic cancer immune-based therapies to the development of a colorectal cancer GVAX vaccine. Second, the group is aimed at understanding the mechanistic roles of the tumor microenvironment in cancer development and metastasis and identifying new targets for pancreatic cancer therapies by dissecting the tumor microenvironment of pancreatic cancer.

    Research Areas: cancer, pancreatic cancer, translational research, tumor microenvironment, immunotherapy

    Lab Website

    Principal Investigator

    Lei Zheng, M.D., Ph.D.

    Department

    Oncology
    Surgery

  • Liliana Florea Lab

    Research in the Liliana Florea Lab applies computational techniques toward modeling and problem solving in biology and genetic medicine. We work to develop computational methods for analyzing large-scale sequencing data to help characterize molecular mechanisms of diseases. The specific application areas of our research include genome analysis and comparison, cDNA-to-genome alignment, gene and alternative splicing annotation, RNA editing, microbial comparative genomics, miRNA genomics and computational vaccine design. Our most recent studies seek to achieve accurate and efficient RNA-seq correction and explore the role of HCV viral miRNA in hepatocellular carcinoma.

    Research Areas: evolutionary genomics, vaccines, carcinoma, cancer, genomics, bioinformatics, RNA, comparative genomics

    Principal Investigator

    Liliana Florea, M.Sc., Ph.D.

    Department

    Medicine

  • Linda Smith-Resar Lab

    The Linda Smith-Resar Lab primarily investigates hematologic malignancy and molecular mechanisms that lead to cancer as well as sickle cell anemia. Recent studies suggest that education is an important and effective component of a patient blood management program and that computerized provider order entry algorithms may serve to maintain compliance with evidence-based transfusion guidelines. Another recent study indicated that colonic epithelial cells undergo metabolic reprogramming during their evolution to colorectal cancer, and the distinct metabolites could serve as diagnostic tools or potential targets in therapy or primary prevention.

    Research Areas: blood disorders, sickle cell diseases, blood management programs, hematologic malignancies

    Lab Website

    Principal Investigator

    Linda Smith Resar, M.D.

    Department

    Medicine

  • Lonny Yarmus Lab

    Clinical trials conducted in the Lonny Yarmus Lab focus primarily on minimally-invasive diagnostic testing for patients with lung cancer and local therapy options for malignant airway obstructions. We investigate ways to improve the early diagnosis of lung cancer, as well as the treatment of later-stage cancer, using the least invasive methods possible. We are also part of the LIBERATE clinical study for patients who have difficulty breathing and suffer from severe emphysema.

    Research Areas: emphysema, interventional pulmonology, airway stenosis, minimally-invasive diagnostic testing, lung cancer, central airway obstructions, lung transplant

    Principal Investigator

    Lonny Yarmus, D.O.

    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

  • Marcia Canto Lab

    Research interests in the Marcia Canto Lab include pancreatic neoplasms, Barrett’s esophagus and endomicroscopy. We are also interested in the use of endoscopic ultrasound to identify early-stage pancreatic cancer and its precursors.

    Research Areas: endomicroscopy, pancreatic cancer, endoscopy, Barrett's esophagus

    Principal Investigator

    Marcia Canto, M.D.

    Department

    Medicine

  • Marie-France Penet Lab

    The Penet lab is within the Division of Cancer Imaging Research in the Department of Radiology and Radiological Science. The lab research focuses on using multimodal imaging techniques to better understand the microenvironment and improve cancer early detection, especially in ovarian cancer. By combining MRI, MRS and optical imaging, we are studying the tumor microenvironment to understand the role of hypoxia, tumor vascularization, macromolecular transport and tumor metabolism in tumor progression, metastasis and ascites formation in orthotopic models of cancer. We also are studying the role of tumor-associated macrophages in tumor progression.

    Research Areas: tumor vascularization, prostate cancer, tumor metabolism, magnetic resonance spectroscopy, macromolecular transport, optical imaging, pancreatic cancer, MRI, tumor-associated macrophages, hypoxia, ovarian cancer, cancer-induced cachexia, cancer imaging

  • Martin G. Pomper Lab

    Recent advances in molecular and cellular biology, the emergence of more sophisticated animal models of human disease and the development of sensitive, high-resolution imaging systems enable the study of pathophysiology noninvasively in unprecedented detail. The overall goal of our work is to develop new techniques and agents to study human disease through imaging. We concentrate on two areas, i.e., cancer and central nervous system processes. Our work extends from basic chemical and radiochemical synthesis to clinical translation.

    Research Areas: imaging, cancer

    Lab Website

    Principal Investigator

    Martin Pomper, M.D., Ph.D.

    Department