Dr. Sperati’s group focuses on complement mediated kidney disorders, glomerular disease, and renal arterial disease secondary to fibromuscular dysplasia. His team has a particular interest in thrombotic microangiopathies involving the complement system.
Dr. Parikh's research focuses on the translation and validation of novel biomarkers for the diagnosis and prognosis of acute kidney injury. Progress in kidney diseases has been hamstrung by significant heterogeneity within the current disease definitions, which are largely based on serum creatinine. Dr. Parikh's research has addressed this critical challenge by developing biomarkers of renal tubular injury, repair, and inflammation to dissect this heterogeneity. He has assembled multicenter longitudinal prospective cohorts for translational research studies across several clinical settings of acute kidney injury and chronic kidney disease for the efficient translation of novel biomarkers.
His research is dedicated to the process of applying discoveries generated in the laboratory and in preclinical experiments, the development of clinical studies, and the design of clinical trials. Dr. Parikh's studies have refined the clinical definition in perioperative acute kidney in...jury and hepatorenal syndrome, developed strategies to reduce kidney discard in deceased donor transplantation, and advanced regulatory approvals of kidney injury biomarkers. He has also developed biomarkers to identify rapid progressors of early diabetic kidney disease before derangements in serum creatinine. Dr. Parikh's research goal is to translate our understanding of pathophysiological mechanisms into clinical practice and improve the outcomes in patients with kidney disease.
Dr. Parikh has also been the recipient of numerous honors, including the 2017 Young Investigator Award from the American Society of Nephrology. view more
Dr. Geetha’s team focuses on renal diseases in patients with systemic vasculitis as well as BK virus nephropathy in patients who have undergone renal transplant. Our studies include clinical trials on the effectiveness of rituximab versus cyclosporine in treating idiopathic membranous nephropathy and a multinational study of belimumab with azathioprine for maintaining remission of granulomatosis with polyangiitis and microscopic polyangiitis. We also have conducted research on the treatment of ANCA vasculitis, particularly in kidney transplant patients.
Research in the Edgar Miller Lab focuses on nutrition, hypertension and kidney disease. Current projects include a National Heart, Lung, and Blood Institute study on dietary carbohydrate and glycemic index effects on markers of oxidative stress, inflammation and kidney function; and a National Institute of Diabetes and Digestive and Kidney Diseases randomized controlled trial that examines the effects of omega-3 fatty acid supplementation on urine protein excretion in diabetic kidney disease.
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.
Dr. Rabb’s lab is involved in translational research aimed at understanding the molecular pathogenesis of kidney ischemia/reperfusion injury. The lab is interested in the development of novel treatments for kidney IRI.
Research in the J. Hunter Young Lab focuses on the genetic epidemiology and physiology of cardiovascular disease and its risk factors, especially hypertension, diabetes and obesity. Current activities include an observational study of hypertension among African Americans; a genetic epidemiology study of worldwide cardiovascular disease susceptibility patterns; and several population-based observational studies of cardiovascular and renal disease. A recent focus group study found that changes in housing and city policies might lead to improved environmental health conditions for public housing residents.
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 in the Liudmila Cebotaru Lab studies cystic fibrosis transmembrane conductance regulator (CFTR) mutants. We also investigate corrector molecules that are currently in clinical trials to get a better understanding of their mechanism of action. A major focus of our research is on developing more efficient gene therapy vectors with the ultimate goal of developing a gene therapy for cystic fibrosis.
Research in the Mark Sulkowski Lab focuses on hepatitis B and hepatitis C. We've conducted clinical research related to the management of viral hepatitis, including novel agents. Other studies focus on adult patients at the Johns Hopkins site of the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) Hepatitis B Clinical Research Network as well as the National Institute of Allergy and Infectious Diseases Adult AIDS Clinical Trials Group.
The Michael Klag Lab focuses on the epidemiology and prevention of kidney disease, cardiovascular disease and hypertension. Our research determined that the U.S. was experiencing an epidemic of end-stage kidney disease, pinpointed the incidence of kidney disease and published scholarship on risk factors for kidney disease such as race, diabetes and socioeconomic status. Our Precursors Study has shown that serum cholesterol measured at age 22 years is a predictor for midlife cardiovascular disease, a finding that has influenced policy about cholesterol screening in young adults. We also research health behaviors that lead to hypertension and study how differences in these behaviors affect urban and non-urban populations.
Dr. Atta and his research team explore the epidemiological and clinical interventions of a variety of kidney diseases. Our goal is not only to advance the understanding of many kidney diseases but also to capitalize on novel discoveries of basic science to treat a wide range of rare and common kidney disorders.
Multi-international observational study of a rare form of amyloid (LECT2 amyloid) to understand its natural history with the ultimate interest of treating this condition.
Our group has launched a project investigating the impact of COVID19 on the kidney to identify risk factors influencing outcome across different clinical phenotypes
In collaboration with the Division of Infectious Diseases and the School of Public Health, our research has focused on the epidemiology of HIV and kidney disease. We also study clinical markers and contributing factors in the progression of kidney disease, and the association between kidney disease and h...eart disease.
Our research group is participating in a multicenter consortium serving as a clinical core site to study the pathogenesis of HIV-associated kidney disease by providing well-characterized clinical specimens and corresponding clinical and laboratory data.
The Rakhi Naik Lab studies sickle cell disease. We focus on complications related to the disease, including chronic kidney disease and venous thromboembolism. By defining the risks and factors for diseases related to the sickle cell trait, we hope to improve genetic counseling and screening and treatment recommendations. Other research in the lab examines the epidemiology and unique mechanisms of thrombosis in patients with hemoglobin disorders. Specifically, we are trying to identify mechanisms of hypercoagulability and develop treatments for patients with hemoglobinopathies.
Work in the Raquel Greer Lab focuses primarily on health disparities in chronic kidney disease. Our most recent research explored the challenges perceived by primary care providers in educating patients about chronic kidney disease as well as physicians’ views on barriers to adequate preparation of patients for renal replacement therapy. We also are interested in examining how clinical-patient communication can impact quality of care in the primary care setting.
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.
Dr. Sozio’s research focuses on 1) Clinical research related to chronic kidney disease and end stage renal disease, and 2) Educational research in undergraduate and graduate medical education.
The Sozio lab pursues work related to stroke, cognitive impairment, manifestations of kidney disease, and systematic reviews on clinical topics, and collaborates on multiple projects with other key investigators. In particular, Dr. Sozio has been an active investigator in the Choices for Healthy Outcomes in Caring for ESRD (CHOICE) Study, Predictors of Arrhythmic and Cardiovascular Risk in End Stage Renal Disease (PACE) Study, Chronic Renal Insufficiency Cohort (CRIC) Study, and work funded through the Agency for Healthcare Research and Quality (AHRQ) and Johns Hopkins Evidence-Based Practice Center. In addition, the Sozio lab performs studies at the UME and GME levels, investing in understanding learners’ mentorship, research, and transitional experiences.
Dr. Paul A. Welling and his research team explore the genetic and molecular underpinnings of electrolyte physiology, potassium balance disorders, hypertension and kidney disease. A major thrust of current research activity is devoted to understanding how faulty genes and environmental stresses drive hypertension. The research is providing new insights into how the Western diet triggers deleterious responses of salt-sensitivity genes. The Welling laboratory employs a multidisciplinary approach, spanning from gene discovery, molecular biology, genetically engineered mouse models to translational studies in humans. By illuminating pathophysiological mechanisms and translating the discoveries to develop more effective diagnostic and therapeutic strategies, Welling’s group is striving to improve the health of at-risk individuals and patients with kidney disease and hypertension.
Dr. Welling is the Joseph S. and Esther Hander Professor of Laboratory Research in Nephrology. He ...has been continuously funded by the National Institutes of Health for over 25 years. Currently he serves as Coordinator of a Global Research Network, funded by the LeDucq Foundation. More about his research can be found at https://www.wellinglab.com/ view more
Work in the William B. Guggino Lab focuses on the structure of the cystic fibrosis transmembrane conductance regulator (CFTR) and water channels; the molecular structure of transport proteins in epithelial cell membranes; and gene therapies to treat cystic fibrosis (CF) patients. We are also working to identify CF’s specific defect in chloride channel regulation. One recent study showed that insulin-like growth factor 1 (IGF-1) enhances the protein expression of CFTR.