Associate Director of the Institute of the Neurosciences; Huck Distinguished Associate Professor of Neural Engineering and Neurosurgery
Role of blood flow and cerebrospinal fluid movement in the development of neurodegenerative diseases, control of cerebral blood flow, neurovascular coupling.
Co-Chair, Intercollege Graduate Degree Program in Neuroscience; Professor of Neural and Behavioral Sciences
Neural basis of sensorimotor integration neuroanatomy, neurophysiology, optogenetics.
Professor of Psychology
Clinical neuropsychology, neurocognitive effects of multiple sclerosis, and the neurocognitive and emotional consequences of sports-related concussion in collegiate athletes.
Professor of Biobehavioral Health
The causes of chronic sleep deficiency in the workplace, home, and society; the health consequences of chronic sleep deficiency, especially cardiometabolic outcomes, and the physiologic and social mechanisms by which these outcomes arise. Successful aging is a central focus of this work. Ongoing interdisciplinary human studies involve sleep loss, aging, and insomnia, as well as health disparities.
Professor and Verne M. Willaman Dean, Eberly College of Science; Chair of the Genetics Program
Regulation of protein synthesis and control of translation initiation of mRNAs in higher eukaryotes and the evolution of tissue specific transcriptional regulation.
Associate Professor of Biobehavioral Health
Development of temperament/personality; relationship of temperament and social status to stress and health; individual differences in stress and health in the natural environment.
Assistant Professor in Biobehavioral Health
Genetic analysis of sleep and circadian rhythms, cardio-metabolic function in humans; effects of light on sleep, circadian physiology, and neurobehavioral performance.
Assistant Research Professor
investigation of peptidergic transmission throughout the brain, using cell-specific and pathway-specific manipulations to understand how peptides alter neuronal signaling and behavior, particularly in the context of stress and drug use.
Professor of Mathematics
Mathematics applied to and arising from theoretical and computational neuroscience. Neural network theory and neural coding. Applied algebra, topology, and geometry.
Assistant Professor of Health and Human Development
The relationship between tactile sensation and skilled oral behaviors (e.g. speech and swallowing) in healthy young, aging, and clinical populations.
Professor of Human Development and Family Studies
Developmental neuroscience of psychopathology with a focus on aggression, hyperactivity, and substance abuse; relationship between experience, environment, and neurobiological dysfunction.
Professor of Engineering Science and Mechanics; Professor of Neurosurgery; Professor of Biomedical Engineering; Associate Director, Penn State Center for Neural Engineering
The dynamics of neural systems, how group dynamics form or emerge from the coupled dynamics of individual units, and how to measure and interact with these systems.
Jean Phillips Shibley Professor and Department Head of Biobehavioral Health
Using genetic, pharmacological, behavioral, and molecular biological techniques to study the neurobiology of learning and memory and the effects of addiction on it.
Associate Professor of Psychology, Psychiatry and Neurology
Effects of brain injury and disease on functional brain organization; EEG and MRI-based examination of neuroplasticity in healthy and disrupted neural systems, including traumatic brain injury and multiple sclerosis.
Professor and Edward Frymoyer Chair of Information Sciences and Technology
Statistical machine learning algorithms for predictive modeling; modeling and inference of biological networks; characterization and prediction of protein-protein, protein-RNA, and protein-DNA interactions.
Professor of Biobehavioral Health
Biobehavioral effects of stress on drug abuse; sex differences in neuroendocrine and behavioral stress responses; nicotine regulation of stress reactivity.
Shuman Assistant Professor of Mechanical Engineering
Computational methods and high performance computing to examine brain neurotrauma biomechanics; human structural connectome analysis using physics-based predictions of biomechanical brain injury.
Professor of Aerospace Engineering, Computational Science, Mathematics, and Neuroscience
Cognitive robotics, artificial intelligence, artificial neural networks, spiking neural networks, machine learning, computational methods, and software.
Emphasis Area Representative, Neurobiology; Director of the Center for Molecular Investigation of Neurological Disorders; Professor of Biology, Biochemistry and Molecular Biology
Function of GABAergic synaptic transmission in health and disease, with emphasis of stress based psychiatric disorders such as major depressive disorders and mechanisms of antidepressant drug action
Associate Professor of Biology
Regulation of neurogenesis using cellular and mouse models; analysis of abnormal neural progenitor cell (NPC) proliferation and its relationship to mental illnesses; identification of drugs that can reverse mouse models of psychiatric disorders.
Chair, Intercollege Graduate Degree Program in Molecular, Cellular and Integrative Biosciences; Director of the Center for Cellular Dynamics; Professor of Biochemistry and Molecular Biology
Subcellular compartmentalization of neurons. The cellular basis of neuronal polarity and neuronal responses to injury including degeneration and regeneration.
Director of the Center for Movement Science and Technology; Professor of Kinesiology; Professor of Neurology
Neural mechanisms underlying control of multijoint arm movements in humans.
Assistant Professor of Communication Sciences & Disorders
Exploring cortical reorganization related to successful therapy for acquired language disorders, and how to enhance therapy outcomes.
Director of the Center for Neural Engineering; Brush Chair Professor of Engineering; Professor of Neurosurgery; Professor of Engineering Science and Mechanics
Neural engineering, neurosurgery, epilepsy, Parkinsons Disease, wave mechanics, brain machine interfaces, EEG, electrical fields, and control theory.
Associate Professor of Nutritional Sciences; Lloyd & Dorothy Foehr Huck Chair in Metabolic Physiology
Utilizing rodent models to discover novel neural substrates that control fundamental homeostatic and reward controls of food intake, and their failures in the case of obesity and infection-induced anorexia; How food and feeding behavior affect neural circuits controlling sociability and emotionality.