The Aliaksei Pustavoitau Lab conducts research on models and mechanisms of impaired consciousness in patients who have suffered acute brain injury. Examples of our work include a study on the mechanisms of neurologic failure in critical illness and another on the use of intensivist-driven ultrasound at the PICU bedside. We also have a longstanding interest in patient safety and quality of care in the ICU setting.

The Brain Health Program is a multidisciplinary team of faculty from the departments of neurology, psychiatry, epidemiology, and radiology lead by Leah Rubin and Jennifer Coughlin. In the hope of revealing new directions for therapies, the group studies molecular biomarkers identified from tissue and brain imaging that are associated with memory problems related to HIV infection, aging, dementia, mental illness and traumatic brain injury. The team seeks to advance policies and practices to optimize brain health in vulnerable populations while destigmatizing these brain disorders. Current and future projects include research on: the roles of the stress response, glucocorticoids, and inflammation in conditions that affect memory and the related factors that make people protected or or vulnerable to memory decline; new mobile apps that use iPads to improve our detection of memory deficits; clinical trials looking at short-term effects of low dose hydrocortisone and randomized to 28 days of treatment; imaging brain injury and repair in NFL players to guide players and the game; and the role of inflammation in memory deterioration in healthy aging, patients with HIV, and other neurodegenerative conditions.

Researchers in the Adam Sapirstein Lab focus on the roles played by phospholipases A2 and their lipid metabolites in brain injury. Using in vivo and in vitro models of stroke and excitotoxicity, the team is examining the roles of the cytosolic, Group V, and Group X PLA2s as well as the function of PLA2s in cerebrovascular regulation. Investigators have discovered that cPLA2 is necessary for the early electrophysiologic changes that happen in hippocampal CA1 neurons after exposure to N-methyl-d-aspartate (NMDA). This finding has critical ramifications in terms of the possible uses of selective cPLA2 inhibitors after acute neurologic injuries.

Led by Dr. Chetan Bettegowda and Dr. Jordina Rincon-Torroella, our lab uses genetic analysis, biomarkers and patient outcome data to identify better ways to diagnose and treat disease. We research a variety of neurological conditions, including central nervous system tumors, trigeminal neuralgia and traumatic brain and spinal injuries.

The Johns Hopkins Brain Health Program is a multi-specialty team of experts from the Johns Hopkins School of Medicine, Whiting School of Engineering, and the Bloomberg School of Public Health.

The team headed by Shenandoah “Dody” Robinson, M.D., professor of neurosurgery, neurology and pediatrics, studies perinatal brain injury and repair. Employing developmentally age-appropriate models, the lab investigates neurological consequences of extremely preterm birth, including cerebral palsy, chronic pain, cognitive and behavioral impairment, epilepsy and posthemorrhagic hydrocephalus of prematurity.

The Sujatha Kannan Lab works to develop therapeutic strategies for preventing perinatal brain injuries from occurring during development. We use a unique combination of nanotechnology, animal model development and in vivo imaging to better understand the mechanism and progression of cellular and metabolic conditions that lead to perinatal brain injury, with a focus on autism and cerebral palsy.

Dr. Jantzie, associate professor, received her Ph.D. in Neurochemistry from the University of Alberta in 2008. In 2013 she completed her postdoctoral fellowship in the Department of Neurology at Boston Children's Hospital & Harvard Medical School and became faculty at the University of New Mexico. Dr. Jantzie then joined the faculty Departments of Pediatrics (Neonatal-Perinatal Medicine) and Neurology at Johns Hopkins University and the Kennedy Krieger Institute in January 2019. Her lab investigates the pathophysiology of encephalopathy of prematurity, and pediatric brain injury common to infants and toddlers. Dr. Jantzie is dedicated to understanding disease processes in the developing brain as a means to identifying new therapeutic strategies and treatment targets for perinatal brain injury. Her lab studies neural substrates of cognition and executive function, inhibitory circuit formation, the role of an abnormal intrauterine environment on brain development, mechanisms of neurorepair and microglial activation and polarization. Using a diverse array of clinically relevant techniques such as MRI, cognitive assessment, and biomarker discovery, combined with traditional molecular and cellular biology, the Jantzie lab is on the front lines of translational pediatric neuroscience.?

Research in the John Ulatowski Lab explores the regulatory mechanisms of oxygen delivery to the brain and cerebral blood flow. Our work includes developing and applying new techniques and therapies for stroke as well as non-invasive techniques for monitoring brain function, fluid management and sedation in brain injury patients. We also examine the use of novel oxygen carriers in blood. We’ve recently begun exploring new methods for perioperative and periprocedural care that would help to optimize patient safety in the future.

Founded in the late 1980s, our Lab explores the fundamental mechanisms of neural responses to traumatic and degenerative signals and works to identify targets for treating injury/degeneration with small molecules, peptides and cells. We currently focus on traumatic and degenerative axonopathies as they occur in traumatic brain injury (diffuse axonal injury), neurodegenerative diseases i.e. Alzheimer's disease and other white matter conditions, e.g. hypoxic ischemic encephalopathy, demyelination. We are especially interested in the role of the MAPK cascade of injury, NAD metabolism and SARM1 signaling and their convergence on Wallerian degeneration.