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Displaying 1 to 10 of 25 results for vascular

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  • 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.
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    Research Areas: stem cells, cell biology, heart regeneration, congenital heart disease, cardiovascular, molecular biology, cardiac cells

    Lab Website

    Principal Investigator

    Chulan Kwon, M.S., Ph.D.

    Department

    Medicine

  • Daniel Nyhan Lab

    The Daniel Nyhan Lab studies vascular changes that accompany aging to determine the underlying causes and find ways to reverse the process. One goal of our research is to identify the factors that cause vascular stiffness. Our hope is that our work in vascular biology will lead to new ways to improve vascular compliance and thereby improve cardiovascular function and perioperative risk.

    Research Areas: hypertension, cardiovascular, vascular biology, vascular diseases

  • Deborah Schwengel Lab

    Research in the Deborah Schwengel Lab focuses on perioperative care of pediatric patients with obstructive sleep apnea as well as anesthetic care for patients undergoing ethanol embolization of vascular malformations. Our team also explores topics within graduate medical education. In this field, our work has involved evaluating both an educational curriculum and a disaster preparedness curriculum for anesthesiology residents. We also have a long-standing interest in international adoption medicine.

    Research Areas: medical education, anesthesia, perioperative, pediatrics, sleep apnea

  • Dhananjay Vaidya Lab

    Research conducted in the Dhananjay Vaidya Lab focuses on the prevention of heart disease, with special emphasis on cardiometabolic risk factors, genetics in high-risk families, cardiovascular epidemiology, statistics and vascular biology. We also provide consultation on study design as well as plan and oversee data analyses for projects supported by the Center for Child and Community Health Research.

    Research Areas: heart disease, epidemiology, data analysis, cardiometabolic risk factors, statistics, study design, cardiovascular, genomics, vascular biology

    Principal Investigator

    Jay Vaidya, M.B.B.S., M.P.H., Ph.D.

    Department

    Medicine

  • Elizabeth Wagner Lab

    The Elizabeth Wagner Lab conducts research on several topics within the field of pulmonary medicine. Our key areas of investigation include angiogenesis of the lung and its dependence upon systemic vascularization to regions without pulmonary perfusion as well as the role of bronchial circulation in the uptake of hydrophilic particles that are delivered to the airway surface. In addition, we are conducting several specific studies that examine the relationship between the bronchial vasculature and the influx of inflammatory cells to a patientÕs airways.

    Research Areas: lung ischemia, pulmonary medicine, vascular remodeling, vascular biology, angiogenesis

    Principal Investigator

    Elizabeth Wagner, Ph.D.

    Department

    Medicine

  • Jeremy Nathans Laboratory

    The Jeremy Nathans Laboratory is focused on neural and vascular development, and the role of Frizzled receptors in mammalian development. We use gene manipulation in the mouse, cell culture models, and biochemical reconstitution to investigate the relevant molecular events underlying these processes, and to genetically mark and manipulate cells and tissues. Current experiments are aimed at defining additional Frizzled-regulated processes and elucidating the molecular mechanisms and cell biologic results of Frizzled signaling within these various contexts. Complementing these areas of biologic interest, we have ongoing technology development projects related to genetically manipulating and visualizing defined cell populations in the mouse, and quantitative analysis of mouse visual system function.

    Research Areas: vascular development, biochemistry, cell biology, neurodevelopment, genomics, Frizzled receptors, neuroscience

  • Jochen Steppan Lab

    Research in the Jochen Steppan Lab primarily focused on vascular stiffness related to aging. We are currently researching LOXL2 (lysine-oxidase-like-2), which might be intimately involved in the development or progression of vascular stiffness. We aim to better understand LOXL2's role in the vasculature and hope that this work leads to the characterization of a novel therapeutic target. This is important in the treatment of cardiovascular diseases in the aging population.

    Research Areas: aging, vascular stiffness, cardiovascular diseases

  • Josef Coresh Lab

    Research in the Josef Coresh Lab focuses on cardiovascular epidemiology, kidney disease and genetic epidemiology. Our team uses innovative methods to quantify disease burden and consequences in the population; studies the causes and consequences of vascular disease in the heart, kidneys and brain; and works to develop a strong scientific basis for quantifying the burden, causes and consequences of kidney disease. Working in collaboration with leading laboratories and specialists, we also aim to quantify the interplay of genes and environment in health and disease.

    Research Areas: epidemiology, genetics, kidney diseases, cardiovascular, vascular diseases

    Principal Investigator

    Josef Coresh, M.D., Ph.D.

    Department

    Medicine

  • Kayode Williams Lab

    The Kayode Williams Lab conducts translational research on neuromodulation. We primarily examine the mechanisms and efficacy of spinal cord stimulation in treating neuropathic pain, peripheral neuropathies and peripheral vascular disease. Our clinical trials explore spinal cord stimulation in the treatment of painful diabetic neuropathy and the treatment of critical non-reconstructible critical leg ischemia. We also have a longstanding interest in the business of medicine and seek to enhance value propositions for hospitals and physician groups through more effective management of resources.

    Research Areas: pain management, neuropathic pain, translational research, vascular diseases

  • Lakshmi Santhanam Lab

    Investigators in the Lakshmi Santhanam Lab examine the fundamental mechanisms behind cardiovascular disease. They are particularly interested in better understanding how nitric oxide-mediated S-nitrosylation (a post-translational protein modification) impacts protein function and trafficking in the vasculature as well as how this relationship influences matrix remodeling and vascular stiffening.

    Research Areas: vasculature trafficking, protein trafficking, S-nitrosation, protein function, nitric oxide, matrix remodeling, vascular stiffness, cardiovascular diseases

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