The David Graham Lab studies the consequences of HIV interactions with the immune system, the resulting pathogenesis and how to sabotage these interactions. We apply advanced technologies like mass spectrometry to dissect processes at the molecular level. We are also actively involved in cardiovascular research and studies the ways proteins are organized into functional units in different cell types of the heart. Major projects in our lab are organized into three major areas: (1) H/SIV pathogenesis and neuropathogenesis, (2) Cardiovascular disease, and (3) High technology development

The Dara Kraitchman Laboratory focuses on non-invasive imaging and minimally invasive treatment of cardiovascular disease. Our laboratory is actively involved in developing new methods to image myocardial function and perfusion using MRI. Current research interests are aimed at determining the optimal timing and method of the administration of mesenchymal stem cells to regenerate infarcted myocardium using non-invasive MR fluoroscopic delivery and imaging. MRI and radiolabeling techniques include novel MR and radiotracer stem cell labeling methods to determine the location, quantity and biodistribution of stem cells after delivery as well as to noninvasively determine the efficacy of these therapies in acute myocardial infarction and peripheral arterial disease. Our other research focuses on the development of new animal models of human disease for noninvasive imaging studies and the development of promising new therapies in clinical trials for companion animals.

The Elizabeth Selvin Lab examines the intersection of epidemiology, clinical policy and public health policy. One of our key goals is to use the findings of epidemiologic research to inform the screening, diagnosis and treatment of diabetes, cardiovascular disease and kidney disease. Much of our work looks at biomarkers and diagnostics related to diabetes and diabetes complications. Our findings — linking hemoglobin A1c (HbA1c) to diabetic complications and identifying the role of A1c in diabetes diagnosis — have influenced clinical practice guidelines.

Research in the Eliseo Guallar Lab focuses on the epidemiology and prevention of cardiovascular diseases. We have a special interest in the roles played by mercury, arsenic, lead and cadmium in cardiovascular disease development. Our methodological interests include determining threshold effects in epidemiological studies and applying statistical methods to epidemiological problem-solving.

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 in the Lisa Yanek Lab focuses on cardiovascular disease in families and risk factor modification. Recently, we conducted a study to determine the association of lean versus fat mass with fitness in healthy, overweight and obese African Americans from families with early-onset coronary disease.

The Lima Lab’s research is concentrated on the development and application of imaging and technology to address scientific and clinical problems involving the heart and vascular system. Specifically, our research is focused on developing magnetic resonance imaging (MRI) contrast techniques to investigate microvascular function in patients and experimental animals with myocardial infarction; functional reserve secondary to dobutamine stimulation and myocardial viability assessed by sodium imaging; and cardiac MRI and computed tomography (CT) program development of techniques to characterize atherosclerosis in humans with cardiovascular or cerebrovascular disease. Current projects include: • The Coronary Artery Risk Development in Young Adults (CARDIA) Study • The MESA (Multi-Ethnic Study of Atherosclerosis) Study • The Coronary Artery Evaluation using 64-row Multidetector Computed Tomography Angiography (CORE64) Study Joao Lima, MD, is a professor of medicine, radiology and epidemiology at the Johns Hopkins School of Medicine.

Work in the Lewis Romer Lab focuses on the responses of vascular systems to disease and injury. Using cultured human endothelial cells and fibroblasts from mice that lack expression of the FAK- or Src-family kinases, we’re exploring several topics. These include the effect of inflammatory cytokine on cell adhesion to the extracellular matrix; the role of FAK signaling in inhibiting apoptosis; and the function of FAK- and Src-family kinases in cell-matrix interactions during adhesion and motility.

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 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.