Research Lab Results
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Christine Durand Lab
Dr. Christine Durand, assistant professor of medicine and oncology and member of the Johns Hopkins Kimmel Cancer Center, is involved in clinical and translational research focused on individuals infected with HIV and hepatitis C virus who require cancer and transplant therapies. Her current research efforts include looking at outcomes of hepatitis C treatment after solid organ transplant, the potential use of organs from HIV-infected donors for HIV-infected solid organ transplant candidates, and HIV cure strategies including bone marrow transplantation. Dr. Durand is supported by multiple grants: • R01 from the National Institute of Allergy and Infectious Diseases (NIAID) to study HIV-to-HIV organ transplantation in the US. • K23 from the National Cancer Institute (NCI) to study antiretroviral therapy during bone marrow transplant in HIV-1 infection. • U01 from the NIAID to study HIV-to-HIV deceased donor kidney transplantation. U01 from the NIAID to study HIV-to-HIV deceased donor liver transplantation. -
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 cell 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. -
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. -
Christopher Potter Lab
The Christopher Potter Lab functions at an intersection between systems and cellular neuroscience. We are interested in how neurons and circuits function in the brain to achieve a common goal (olfaction), but we also develop, utilize and build tools (molecular and genetic) that allow us to directly alter neuronal functions in a living organism. The specific focus of my laboratory is to understand how the insect brain receives, interprets, and responds to odors. Insects rely on their sense of smell for all major life choices, from foraging to mating, from choosing where to lay eggs to avoiding predators and dangers. We are interested in understanding at the neuronal level how odors regulate these behaviors. Our long-term aim is to apply this knowledge to better control insects that pose a threat to human health. Our general approach towards achieving this goal is to develop and employ new genetic methods that enable unprecedented control over neural circuits in both the model organism Drosophila melanogaster and human malaria vector Anopheles gambiae. -
Chulan Kwon Laboratory
The C. Kwon Lab studies the cellular and molecular mechanisms governing heart generation and regeneration. The limited regenerative capacity of the heart is a major factor in morbidity and mortality rates: Heart malformation is the most frequent form of human birth defects, and cardiovascular disease is the leading cause of death worldwide. Cardiovascular progenitor cells hold tremendous therapeutic potential due to their unique ability to expand and differentiate into various heart cell types. Our laboratory seeks to understand the fundamental biology and regenerative potential of multi-potent cardiac progenitor cells – building blocks used to form the heart during fetal development — by deciphering the molecular and cellular mechanisms that control their induction, maintenance, and differentiation. We are also interested in elucidating the maturation event of heart muscle cells, an essential process to generate adult cardiomyocytes, which occurs after terminal differentiation of the progenitor cells. We believe this knowledge will contribute to our understanding of congenital and adult heart disease and be instrumental for stem cell-based heart regeneration. We have developed several novel approaches to deconstruct the mechanisms, including the use of animal models and pluripotent stem cell systems. We expect this knowledge will help us better understand heart disease and will be instrumental for stem-cell-based disease modeling and interventions for of heart repair. Dr. Chulan Kwon is an assistant professor of medicine at the Johns Hopkins University Heart and Vascular Institute. -
Chung-Ming Tse
The Tse Lab does basic and translational research on the function and regulation of sodium/hydrogen exchange-2 isoform, and molecular biology of nucleoside transporters. -
Claire Snyder Lab
Researchers in the Claire Snyder Lab study the quality of cancer care, with a special focus on two areas: the quality of life for cancer patients undergoing treatment and the coordination of care between cancer specialists and primary care providers. As part of our quality-of-life research, we're investigating the use of patient-reported outcome questionnaires in routine oncology practice as well as developing a website for collecting the questionnaires and linking them with the electronic medical record. As part of our cancer-survivorship research, we've conducted large database studies to identify the physician specialties involved in the care of cancer survivors and to determine how that relates to survivors receiving recommended follow-up care. We're also working with investigators in the Sydney Kimmel Comprehensive Cancer Center to develop care strategies for breast cancer survivors. -
Clare Rock Lab
Dr. Clare Rock is an assistant Professor of Medicine, Division of Infectious Diseases at the Johns Hopkins University School of Medicine, Associate hospital Epidemiologist at the Johns Hopkins Hospital, and Faculty Member at Armstrong Institute for Patient Safety and Quality. Her research interest focuses the prevention of pathogen transmission in the hospital environment. This includes novel strategies of improving patient room cleaning and disinfection, including human factors engineering approaches, and conducting robust clinical trials to examine effectiveness of ""no touch"" novel technologies such as UV-C light. She has particular interest in carbapenem-resistant Enterobacteriaceae transmission in the hospital environment, including outbreak management, and transmission and epidemiology of Clostridium difficile. Her other area of interest is diagnostic stewardship, and the behavioral, cultural and human factors aspects of implementation of initiatives to enhance appropriate use of diagnostic tests. She leads a national initiative, as part of the High Value Practice Academic Alliance, examining strategies for appropriate testing for Clostridium difficile. This is a wider implementation of work that Dr. Rock conducted with The Johns Hopkins Health System facilities. Dr. Rock has multiple sources of grant funding including from the Agency of Healthcare Research and Quality, Centers for Disease Control and Prevention, and industry. Dr. Rock is Vice Chair of the Society for Healthcare Epidemiology of America Research Network, and serves on the SHEA research committee. Dr. Rock earned her M.B.B.Ch. at the University College Dublin School of Medicine, National University of Ireland, and her MS masters of clinical science of research at the University of Maryland, where she received the MS scholar award for epidemiology. -
Clifton O. Bingham III Lab
Research in the Clifton O. Bingham III Lab focuses on defining clinical and biochemical disease phenotypes related to therapeutic responses in rheumatoid arthritis and osteoarthritis; developing rational clinical trial designs to test new treatments; improving patient-reported outcome measures; evaluating novel imaging modalities for arthritis; and examining the role of oral health in inflammatory arthritis. -
Clinical and Computational Auditory neuroscience
Our laboratory investigates the neural bases of sound processing in the human brain. We combine electrophysiology recordings (intracranial, scalp), behavioral paradigms, and statistical modeling methods to study the cortical dynamics of normal and impaired auditory perception. We are interested in measuring and modeling variability in spatiotemporal cortical response patterns as a function of individual listening abilities and acoustic sound properties. Current studies are investigating the role of high-frequency (>30 Hz) neural oscillations in human auditory perception.