Faculty Research Interests
The Department of Environmental Health and Engineering has a diverse range of research areas, which focus on the adverse influence of the environment on human health and with controlling these influences. In this regard, the Department considers “environment” in its broadest sense, including the natural, built and social environments.
Our faculty's research focuses on agents in the environment, including biological, chemical and physical environmental agents. The Department engages in a number of activities within this traditional approach, including studies of the sources and environmental distribution of such agents; human exposure to such agents; the body’s response at the molecular, cellular, organ system- and whole-body levels; environmental risk assessment; and prevention and intervention strategies (including environmental engineering, law, policy and communications solutions).
|Faculty Member||Research Focus|
Daniel Barnett, MD
Dr. Barnett's research includes best practice models to enhance all-hazards public health emergency readiness and response.
Shyam Biswal, PhD
Dr. Biswal's research focuses on understanding the host factor, Nrf2 that regulates stress response transcriptional program and protects against a range of pathological process (oxidative stress, inflammation, and apoptosis) in diseases such as COPD, lung cancer, and sepsis and develop a novel approach for intervention of these inflammatory diseases by targeting this host factor.
Bouwer Research Group
|Dr. Bouwer’s research interests encompass factors that influence biotransformation of contaminants; bioremediation for control of contaminated soils and groundwaters; biofilm kinetics; biological processes design in wastewater, industrial, and drinking water treatment; and transport and fate of microorganisms in porous media.|
Joseph Bressler, PhD
Dr. Bressler's laboratory has been studying transporters and their interaction with environmental toxins.
|Buckley Research Group|
Jessie Buckley, PhD
|Dr. Buckley’s Research Group focuses on characterizing chemical exposures during pregnancy and early life and determining their effects on child growth and development.|
Chen Research Group
|Dr. Chen's lab research focuses on the environmental and health implications of nanotechnology and the application of nanotechnology for water treatment, membrane processes, and environmental remediation.|
The Environmental Microbiology Laboratory of Dr. Meghan F. Davis
Dr. Davis' research examines the interface of bacteria and hosts to reduce microbe-mediated disease in humans and animals. Her research applies the principles of one health and microbial ecology, evaluating target microbes and bacterial genes specifically and the larger microbial community (microbiome) broadly.
John D. Groopman, PhD
Dr. Groopman’s research involves the development, validation and application of molecular biomarkers of exposure, dose, and effect from environmental carcinogens to high-risk populations. A major emphasis of the research has been in the elucidation of the role of aflatoxins, a common contaminate of the food supply, in the induction of liver cancer in high-risk populations living in Asia and Africa.
|Harman Research Group (Landscape Hydrology@JHU)|
Ciaran Harman, PhD
|Dr. Harman's research group studies water flow and transport. Their work combines field work, experimental studies, and numerical modeling.|
The Johns Hopkins Environmental Health Microbiology and Immunology Laboratory
Dr. Heaney's research in the Johns Hopkins Environmental Health Microbiology and Immunology Laboratory (JH-EHMIL) focuses on improving understanding of the dynamics and determinants of environmental and occupational stressors and infectious diseases.
Kirsten Koehler, PhD
Dr. Koehler's goals are to improve exposure assessment methods to inform occupational and public health policy. Her research goals involve the use of direct-reading instrumentation to improve spatiotemporal exposure assessment.
Kohr Laboratory of Cardiovascular Redox Signaling
The focus of the Kohr Laboratory of Cardiovascular Redox Signaling is to elucidate redox-sensitive signaling pathways and to define the mechanistic consequences of redox-based post-translational protein modifications in healthy and diseased myocardium, namely S-nitrosylation and other forms of oxidation.
Wayne Mitzner, PhD
Dr. Mitzner's lab emphasizes understanding the physiologic basis of lung health and disease.
Keeve Nachman, PhD, MHS
Dr. Nachman's research interests include arsenic, food systems, risk science, risk assessment, environmental epidemiology, industrial food animal production, animal waste, animal feed, foraging, urban gardens, agriculture, biosolids, veterinary drugs, Chesapeake Bay watershed protection, antimicrobial resistance, exposure assessment, regulatory toxicology, regulatory policy, chemical residues in food.
Roni A. Neff, PhD, MS
Dr. Neff's research interests in the Food system, food waste, Farm Bill, climate change, agriculture, policy, communication, sustainability, health disparities, Baltimore, history, occupational injury and illness, resilience.
Preheim Lab Group
|The Preheim Lab Group seeks to understand, predict and manipulate complex microbial community function with a goal towards protecting and sustaining human and environmental health.|
Research Program of Dr. Ramachandran
|Dr. Ramachandran has conducted research in various areas relating to human exposure assessment in occupational, residential, and outdoor settings. His research has included the development of occupational exposure assessment strategies for airborne contaminants. He has conducted pioneering studies in occupational hygiene decision-making that synthesizes mathematical exposure models, monitoring data, and probabilistic expert judgment within a Bayesian framework.|
Kellogg Schwab, PhD
Dr. Schwab’s research focuses on environmental microbiology and engineering with an emphasis on the fate and transport of pathogenic microorganisms in water, food and the environment. This work includes extensive laboratory-based research designed to develop and evaluate molecular detection methods with subsequent application of these methods in field-based investigations.
Winnie Tang Epigenetics Laboratory
Dr. Tang's current research focuses on deciphering how environmental pollutants/allergen and dietary factors alter the epigenome via DNA de/methylation and induce chromatin remodeling, leading to cancer or other common diseases like asthma and cardiovascular disease.
The Wang Laboratory of Human Environmental Epigenomes
The long-term goal of the Wang laboratory is to determine how epigenetic codes, including patterns of DNA methylation and combinatorial patterns of simultaneously occuring histone modifications, are established and how this establishment goes awry upon environmental stimuli, thus contributing to human diseases (such as cancers and autoimmune diseases).