The Elizabeth Daugherty Lab conducts research on patient safety, critical care infection control and critical care disaster response. We investigate methods of improving patient safety through improved infection control, with a focus on clinical outcomes, nosocomial infection rates and the individual and organizational obstacles to personal protective equipment adherence.
Researchers in the Elizabeth Hunt Lab study innovative ways to improve the care quality and clinical outcomes of children who suffer cardiopulmonary arrest. Our work includes implementing rapid-response systems, capturing and analyzing cardiac-arrest data, and redesigning medical devices and simulators. We've introduced novel simulation approaches to education, including data-driven debriefing and the Rapid Cycle Deliberate Practice approach.
Work in the Eric Bass Lab focuses on evidence-based medicine, comparative effectiveness research, and community health partnerships. Our work is closely aligned with the Center for Health Services and Outcomes Research and the Johns Hopkins Evidence-Based Practice Center.
Research in the Erica Johnson Lab investigates infection control in military deployment environments as well as infections that are associated with combat trauma. We explore topics such as HIV outcomes, gender-based health issues and disparities in care.
Dr. Al Ammary’s research focuses on (1) increasing live kidney donation safely to ensure optimal outcomes for donors and (2) advancing utilization of digital health technology and electronic health records to impact the precision and value of health care for live kidney donors and kidney transplant recipients.
The main focus of Dr. Gilotra's research is understanding the pathophysiology and outcomes in inflammatory cardiomyopathies including myocarditis and sarcoidosis, as well as improvement of heart failure patient care through noninvasive hemodynamic monitoring and studying novel strategies to reduce heart failure hospitalizations. Additional investigations involve clinical research in advanced heart failure therapies including heart transplantation and mechanical circulatory support. Dr. Gilotra is the site Principal Investigator for the NIH/NHLBI funded Heart Failure Network trials.
Work in the Graham Mooney Lab focuses on the history of public health interventions as well as the impact of public health policies on population health outcomes. Our research includes topics such as the history of public health in the United Kingdom and United States during the 19th and 20th centuries, and the historical geographies of health and medicine. We also explore infectious disease surveillance and control and historical epidemiology and demography.
Research in the Grant (Xuguang) Tao Lab explores environmental and occupational epidemiology topics, including workers' compensation and injuries, and nosocomial infections. We conduct research through clinical trials and systematic literature reviews, and also use cancer registry data and GIS applications in environmental epidemiological research. Our recent studies have explored topics such as the effectiveness of lumbar epidural steroid injections following lumbar surgery, the effect of physician-dispensed medication on workers' compensation claim outcomes and how the use of opioid and psychotropic medications for workers' compensation claims impacts lost work time.
Research in the Gregory Kirk Lab examines the natural history of viral infections — particularly HIV and hepatitis viruses — in the U.S. and globally. As part of the ALIVE (AIDS Linked to the Intravenous Experience) study, our research looks at a range of pathogenetic, clinical behavioral issues, with a special focus on non-AIDS-related outcomes of HIV, including cancer and liver and lung diseases. We use imaging and clinical, genetic, epigenetic and proteomic methods to identify and learn more about people at greatest risk for clinically relevant outcomes from HIV, hepatitis B and hepatitis C infections. Our long-term goal is to translate our findings into targeted interventions that help reduce the disease burden of these infections.
Research in the Hanan Aboumatar Lab focuses on advancing patient-centered outcomes through improved patient and family involvement. We also focus on multilevel methods to increase the patient-centered focus of care delivery. Recent research examined the impact of a quality-improvement intervention on patient involvement in primary care and treatment with respect and dignity in intensive care.
Led by Stephen Wegener, Ph.D, this research group focuses on projects that have the potential to improve function and quality of life and reduce disability following injury or illness. These projects include research on cognitive, behavioral, psychological and health care system factors that affect outcomes following injury.
Our group is interested in a broad array of clinical and translational investigations spanning the evaluation of basic pathophysiology in patients undergoing cardiac procedures, development and evaluation of new therapeutic strategies, and improving patient selection and outcomes following interventional procedures. We are comprised of a core group of faculty and dedicated research nurses as well as fellows, residents, and students. Projects range from investigator-initiated single-center observational studies to industry-sponsored multicenter phase 3 randomized controlled trials. We have established a database of all patients who have undergone TAVR at Johns Hopkins, which is providing the basis for several retrospective analyses and will serve as the foundation for future studies of TAVR. We are also engaged in collaborative projects with other groups from the Department of Medicine and other Departments including Cardiac Surgery, Anesthesiology, Radiology, Psychiatry, and Biomedical... Engineering. Members of our group are actively involved with the Johns Hopkins Center for Bioengineering Innovation and Design (CBID) in the development of novel minimally-invasive cardiovascular devices. view more
The Jean Kim Laboratory performs translational research in the
area of chronic rhinosinusitis, with a niche interest in the pathogenesis of hyperplastic nasal
polyposis. Studies encompass clinical research to basic wet laboratory research in
studying the underlying immune and autoimmune mediated mechanism of polyp growth and
perpetuation of disease. Human cell and tissue culture models are used. Techniques in the
laboratory include cell and tissue culture, real time PCR, immunoblot, ELISA, flow cytometry,
immunohistochemistry, electron microscopy, gene array analysis, and other molecular
approaches including genetic knockdowns. Approaches used in Dr. Kim’s clinical study
designs include prospective and retrospective analysis of patient outcomes and clinical
biomarkers, as wells controlled clinical trials.
Dr. Zhou's research focuses on developing new in vivo MRI and MRS methodologies to study brain function and disease. His most recent work includes absolute quantification of cerebral blood flow, quantification of functional MRI, high-resolution diffusion tensor imaging (DTI), magnetization transfer mechanism, development of chemical exchange saturation transfer (CEST) technology, brain pH MR imaging, and tissue protein MR imaging. Notably, Dr. Zhou and his colleagues invented the amide proton transfer (APT) approach for brain pH imaging and tumor protein imaging. His initial paper on brain pH imaging was published in Nature Medicine in 2003 and his most recent paper on tumor treatment effects was published in Nature Medicine in 2011. A major part of his current research is the pre-clinical and clinical imaging of brain tumors, strokes, and other neurologic disorders using the APT and other novel MRI techniques. The overall goal is to achieve the MRI contrast at the protein and peptide ...level without injection of exogenous agents and improve the diagnostic capability of MRI and the patient outcomes.view more
Research in the John Aucott Lab focuses on the development of accurate diagnostic tests for all stages of Lyme disease. We work closely with Dr. Mark Soloski on the Study of Lyme disease Immunology and Clinical Events (SLICE), a longitudinal, matched-control study of patients diagnosed with early untreated Lyme disease. The objective is to use the collected biological samples to help identify novel Lyme disease biomarkers that can inform diagnoses, outcomes and the knowledge about disease pathophysiology.
Research in the John Matthew Austin Lab explores health care performance measures, with a goal of improving patient care by enabling healthcare providers to view data about their performance, track patient outcomes and comply with best care practices. Our lab is currently working to develop performance measures for the ICU part, and we are part of The Leapfrog Group, an annual survey of U.S. hospitals that compares hospital performance on national measures of safety, quality and efficiency. Our research also explores the use of scientifically sound decision-support tools for guiding improvements in healthcare delivery systems.
Research in the John McCloskey Lab focuses on quality improvements in the operating room and pediatric intensive care unit (PICU). Our work aims to improve the throughput of adolescents undergoing spinal fusions in order to better define interventions to ameliorate anesthesia emergence delirium and to improve protocols for sedation. One of our projects established an early oral feeding program for critically ill patients. Our goal is to enhance the delivery and quality of children’s health care while making it safer and more affordable.
The Jon Russell lab focuses on thyroid and parathyroid pathology as well as improving patient safety and education using healthcare technology. Additional focuses include utilizing new technology to advance on the techniques of minimally invasive neck surgery. Current and previous efforts include the development of mobile and web-based applications to educate physicians and patients, utilizing ultrasound for vocal cord imaging, understanding the nuances of advanced thyroid cancer, and exploring the role of scarless thyroid surgery in a North American population.
Research in the Jonathan Orens Lab examines topics such as clinical outcomes of lung transplantation, chronic allograft rejection and ischemic reperfusion injury, also known as primary graft dysfunction.
The Karen Bandeen-Roche Lab explores the application of underlying variable methods in epidemiologic and psychosocial research. Our team seeks to improve the ability to measure key outcomes like functional status and psychological disorders. Our other areas of statistical research include the study of classification and variance structure and multivariate survival analysis. We are deeply invested in the field of gerontology as well as ophthalmology and neurology.