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Displaying 21 to 27 of 27 results for vascular

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  • Ocular Vasculogenesis and Angiogenesis Lab (OVAL)

    The lab studies the development of blood vessels in the eye and how they change in diseases like retinopathy of prematurity, sickle cell and diabetic retinopathies, and age-related macular degeneration (AMD). The ultimate goal of the lab is to develop a new generation of therapies that, when delivered to the eye, allow the tissues of the eye to essentially treat themselves only when needed. The goal is to have the tissues generate their own therapeutics when needed, and stop production when the condition is resolved. These therapies will help reduce the need for repeated treatment and provide focused therapy, rather than treating the body with chemicals.

    Research Areas: vascular development, age-related mascular degeneration, sickle cell diseases, nanotechnology, retinopathy of prematurity, diabetic retinopathy

    Lab Website

    Principal Investigator

    Gerard Lutty, Ph.D.

    Department

    Ophthalmology

  • Peter Abadir Lab

    Research in the Peter Abadir Lab focuses on the renin-angiotensin system (RAS), a signaling pathway that regulates blood pressure and has been linked independently to both aging and inflammation. We’re particularly interested in changes in RAS that occur with aging. We also study signal transduction and the role of the crosstalk between angiotensin II receptor in aging and are interested in understanding the function of angiotensin II in the process of vascular aging.

    Research Areas: renin-angiotensin system, aging, inflammation, gerontology

    Principal Investigator

    Peter Abadir, M.D.

    Department

    Medicine

  • Rachel Damico Lab

    Work in the Rachel Damico Lab explores topics within the fields of vascular biology and pulmonary medicine, with a focus on acute lung injury and apoptosis in lung diseases. Our studies have included examining idiopathic and scleroderma-associated pulmonary arterial hypertension, vascular receptor autoantibodies, and the link between inflammation and the Warburg phenomenon in patients with pulmonary arterial hypertension. We have also researched the inhibitory factor of macrophage migration and its governing of endothelial cell sensitivity to LPS-induced apoptosis.

    Research Areas: critical care medicine, acute lung injury, lung disease, vascular biology, apoptosis

    Principal Investigator

    Rachel Damico, M.D., Ph.D.

    Department

    Medicine

  • Rasika Mathias Lab

    Research in the Rasika Mathias Lab focuses on the genetics of asthma in people of African ancestry. Our work led to the first genomewide association study of its kind in 2009. Currently, we are analyzing the whole-genome sequence of more than 1,000 people of African ancestry from the Consortium on Asthma among African-ancestry Populations in the Americas (CAAPA). CAAPA’s goal is to use whole-genome sequencing to expand our understanding of how genetic variants affect asthma risk in populations of African ancestry and to provide a public catalog of genetic variation for the scientific community. We’re also involved in the study of coronary artery disease though the GeneSTAR Program, which aims to identify mechanisms of atherogenic vascular diseases and attendant comorbidities.

    Research Areas: heart disease, African Americans, asthma, genomics, health disparities

    Principal Investigator

    Rasika Mathias, Sc.D.

    Department

    Medicine

  • Richard Rivers Lab

    The Richard Rivers Lab researches vascular communication with a focus on microcirculation physiology. Our team seeks to determine how metabolic demands are passed between tissue and the vascular network as well as along the vascular network itself. Our goal is to better understand processes of diseases such as cancer and diabetes, which could lead to the development of more targeted drugs and treatment. We are also working to determine the role for inwardly rectifying potassium channels (Kir) 2.1 and 6.1 in signaling along the vessel wall as well as the role of gap junctions.

    Research Areas: cancer, potassium, diabetes, vascular biology, vascular, microcirculation

  • Robert Fitzgerald Laboratory

    The Robert Fitzgerald Laboratory studies cardiopulmonary physiology, especially cardiopulmonary control. We have focused in particular on the operation of the carotid body and the role of acetylcholine in its functioning. We have also examined the reflex effects of carotid body stimulation in various organs as well as the reflex response of ACTH and adrenal cortical hormones to hypoxic peripheral arterial chemoreceptor stimulation. We are currently interested in the spleen, as it is the only organ other than the lung that demonstrates increased vascular resistance in response to local hypoxia.

    Research Areas: acetylcholine, carotid body, cardiopulmonary diseases, lung disease, hypoxia

    Principal Investigator

    Robert Fitzgerald, Ph.D.

    Department

    Medicine

  • Viachaslau Barodka Lab

    Work in the Viachaslau Barodka Lab focuses on key topics within the field of anesthesiology research, including vascular stiffness, blood transfusions and cardiovascular physiology. Our most recent studies have explored impaired red blood cell deformability following blood transfusions, the effects of erythrocyte storage duration on blood transfusions, perioperative use of angiotensin-converting enzyme inhibitors and the pathophysiology of vascular stiffness.

    Research Areas: blood transfusions, cardiovascular physiology, anesthesiology

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