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Rita Kalyani Lab
Research in the Rita Kalyani Lab examines the decreased physical functioning observed in patients with diabetes as they age. Through several ongoing epidemiological cohorts, we are investigating the association of high blood glucose and high insulin levels with accelerated muscle loss, and possible contributions to the physical disability observed in diabetes. We are currently involved in clinical studies that aim to understand the underlying mechanisms for these associations and to facilitate the development of novel strategies to prevent muscle loss and disability in people with diabetes.
The Gabelli lab research is focused on structural, mechanistic and functional aspects of enzyme activation that play a role in the biology of human diseases such as cancer, parasitic infection and cardiovascular disease. Their work seeks to:
1. Understand how molecular events at the recognition level coordinate and trigger events in the cells
2. Translate structural and mechanistic information on protein:protein interactions at the cytoplasmic level into preventive and therapeutic treatment for human disease.
To achieve a comprehensive understanding, they are studying cytoplasmic protein-protein interactions involved in regulation of pathways such as PI3K and Sodium Voltage gated channels. Their research integrates structural biology and chemical biology and it is focused on drug discovery for targeted therapies.
Sharon Turban Lab
Research in the Sharon Turban Lab focuses on the effects of sodium and potassium on blood pressure and on kidney function. We lead the Chronic Kidney Disease-Potassium (CKD-K) clinical trial, funded by American Heart Association, which examines the benefits and safety of two levels of potassium intake in patients with kidney disease. Other research includes the Chronic Renal Insufficiency Cohort (CRIC) study, which aims to improve the understanding of chronic kidney disease and related cardiovascular illness.
Sherita Golden Lab
Research in the Sherita Golden Lab focuses on identifying endocrine risk factors associated with the development of diabetes and cardiovascular disease. We conduct our research by incorporating measures of hormonal function into the design of clinical trials of cardiovascular risk modification, observational studies of incident cardiovascular disease and diabetes, and studies evaluating diabetic complications.
Our research laboratory is staffed by a dedicated and experienced team of sleep scientists, fellows, technicians, engineers, and students. Currently, we are focused on the following areas:
-Novel treatments for sleep apnea using electrical and nerve stimulation and chemogenetic techniques
-Cardiovascular and metabolic effects of sleep apnea and hypoxia
-Leptin and its impact on breathing and cardiovascular physiology
-Sleep disordered breathing at high altitude
-Dietary impacts on asthma
Steven Beaudry Lab
Research in the Steven Beaudry Lab aims to better understand the cellular and molecular mechanisms behind cardiovascular disease in pregnancy. Our goal is to develop more effective treatments and improve patient outcomes.
Systems Biology Laboratory
The Systems Biology Lab applies methods of multiscale modeling to problems of cancer and cardiovascular disease, and examines the systems biology of angiogenesis, breast cancer and peripheral artery disease (PAD).
Using coordinated computational and experimental approaches, the lab studies the mechanisms of breast cancer tumor growth and metastasis to find ways to inhibit those processes.
We use bioinformatics to discover novel agents that affect angiogenesis and perform in vitro and in vivo experiments to test these predictions. In addition we study protein networks that determine processes of angiogenesis, arteriogenesis and inflammation in PAD. The lab also investigates drug repurposing for potential applications as stimulators of therapeutic angiogenesis, examines signal transduction pathways and builds 3D models of angiogenesis.
The lab has discovered over a hundred novel anti-angiogenic peptides, and has undertaken in vitro and in vivo studies testing their activity unde...r different conditions. We have investigated structure-activity relationship (SAR) doing point mutations and amino acid substitutions and constructed biomimetic peptides derived from their endogenous progenitors. They have demonstrated the efficacy of selected peptides in mouse models of breast, lung and brain cancers, and in age-related macular degeneration.
The Arking Lab
The Arking Lab studies the genomics of complex human disease, with the primary goal of identifying and characterizing genetics variants that modify risk for human disease. The group has pioneered the use of genome-wide association studies (GWAS), which allow for an unbiased screen of virtually all common genetic variants in the genome. The lab is currently developing improved GWAS methodology, as well as exploring the integration of additional genome level data (RNA expression, DNA methylation, protein expression) to improve the power to identify specific genetic influences of disease.
The Arking Lab is actively involved in researching:
• autism, a childhood neuropsychiatric disorder
• cardiovascular genomics, with a focus on electrophysiology and sudden cardiac death (SCD)
• electrophysiology is the study of the flow of ions in biological tissues
Dan E. Arking, PhD, is an associate professor at the McKusick-Nathans Institute of Genetic Medicine and Department of Medicine, D...ivision of Cardiology, Johns Hopkins University. view more
The Atlantic Cardiovascular Patient Outcomes Research Team - Atlantic C-PORT
Our research is centered on the safety, efficacy and outcomes of PCI performed at hospitals without on-site cardiac surgery.
C-PORT Randomized Studies and Registries; New Jersey Angioplasty Demonstration Project; InCar-decision support tools for performance of PCI at hospitals without on-site cardiac surgery.
For more information please visit Cport.org.