Top Neuroscience Researchers at George Washington University for 2026

George Washington University’s recent neuroscience output shows a broad mix of work spanning physiology, cognition, autonomic control, and brain-behavior questions. Looking across the last year, the research profile suggests an active community studying both fundamental neural mechanisms and clinically relevant problems.

Below, you’ll find a closer look at several researchers whose recent publications reflect that range, from sleep and autonomic regulation to autism, primate neuroanatomy, and translational studies at the interface of brain and body.

Featured Researchers

Vsevolod Y. Polotsky

Vsevolod Y. Polotsky’s recent work at George Washington University centers on physiology, endocrine and autonomic systems, and cognitive neuroscience, with studies on sleep-disordered breathing, intermittent hypoxia, and oxytocin signaling.

Activity over the last year: 12 indexed journal articles.

Top publications:

• Targeting melanocortin 4 receptor to treat sleep-disordered breathing in mice (Apr 2025)
• Chronic intermittent hypoxia‐mediated cognitive dysfunction in ovariectomized rats (May 2025)
• Oxytocin Receptor Expression and Activation in Parasympathetic Brainstem Cardiac Vagal Neurons (Aug 2025)

Gregory L. Wallace

Gregory L. Wallace focuses on cognitive neuroscience, genetics, and psychiatry and mental health, with recent publications examining independence, daily living skills, food intake disorder symptoms, and ADHD in autistic adults.

Activity over the last year: 9 indexed journal articles.

Top publications:

• “Everyone Uses Different Skills and Resources to Live Independently”: A Brief Report on Autistic Young Adults’ Perspectives on Independence and Daily Living Skills (Jul 2025)
• Screening for Avoidant/Restrictive Food Intake Disorder Symptoms Among Autistic Adults: Measurement Invariance With a Comparison General Sample (Apr 2025)
• Attention-Deficit/Hyperactivity Disorder in Medicaid-Enrolled Autistic Adults (Feb 2025)

David Mendelowitz

David Mendelowitz’s recent George Washington University publications connect endocrine and autonomic systems with cardiology and cognitive neuroscience, including work on respiratory sinus arrhythmia, sleep-disordered breathing, and hypoxia-related cognitive dysfunction.

Activity over the last year: 9 indexed journal articles.

Top publications:

• Redefining respiratory sinus arrhythmia as respiratory heart rate variability: an international Expert Recommendation for terminological clarity (May 2025)
• Targeting melanocortin 4 receptor to treat sleep-disordered breathing in mice (Apr 2025)
• Chronic intermittent hypoxia‐mediated cognitive dysfunction in ovariectomized rats (May 2025)

Chet C. Sherwood

Chet C. Sherwood’s work spans social psychology, cognitive neuroscience, and cellular and molecular neuroscience, with recent studies on primate brain asymmetries, cortical interneuron migration, and comparative brain connectivity.

Activity over the last year: 10 indexed journal articles.

Top publications:

• An expanded subventricular zone supports postnatal cortical interneuron migration in gyrencephalic brains (Jul 2025)
• The Chimpanzee Brainnetome Atlas reveals distinct connectivity and gene expression profiles relative to humans (Jan 2025)
• Planum Temporale Asymmetries in Primates: A Comparative Study in Great Apes and Monkeys (Jan 2025)

Mateus R. Amorim

Mateus R. Amorim’s recent research at George Washington University links endocrine and autonomic systems, cardiology and cardiovascular medicine, and physiology, with publications on neuroinflammation, melanocortin 4 receptor signaling, and hypertension.

Activity over the last year: 8 indexed journal articles.

Top publications:

• Psychedelics in neuroinflammation: Mechanisms and therapeutic potential (Jan 2025)
• Targeting melanocortin 4 receptor to treat sleep-disordered breathing in mice (Apr 2025)
• Leptin receptor downregulation in the carotid body treats obesity-induced hypertension (Feb 2025)

Jonathan I. Silverberg

Jonathan I. Silverberg’s recent papers sit at the intersection of dermatology, immunology and allergy, and physiology, focusing on atopic dermatitis treatment transitions and outcomes for patients previously treated with dupilumab.

Activity over the last year: 5 indexed journal articles.

Top publications:

• Switching from Dupilumab to Abrocitinib in Patients With Moderate-to-Severe Atopic Dermatitis: A Post Hoc Analysis of Efficacy After Treatment With Dupilumab in JADE DARE (Feb 2025)
• Lebrikizumab Improves Atopic Dermatitis and Quality of Life in Patients With Moderate-to-Severe Atopic Dermatitis Previously Treated With Dupilumab: Results From the ADapt Trial (Jan 2025)
• Achieving Optimal Treatment Targets and Minimal Disease Activity with Upadacitinib for Moderate-to-Severe Atopic Dermatitis: Integrated Analysis of Phase 3 Studies (Measure Up 1 and 2) (Jul 2025)

Matthew W. Kay

Matthew W. Kay’s recent George Washington University work combines cardiology and cardiovascular medicine, cellular and molecular neuroscience, and endocrine and autonomic systems, with studies on hypoxia, oxytocin receptor activity, and cardiac autonomic neurons.

Activity over the last year: 5 indexed journal articles.

Top publications:

• Chronic intermittent hypoxia‐mediated cognitive dysfunction in ovariectomized rats (May 2025)
• Oxytocin Receptor Expression and Activation in Parasympathetic Brainstem Cardiac Vagal Neurons (Aug 2025)
• Optogenetic Activation of Intrinsic Cardiac Autonomic Neurons in Excised Perfused Mouse Hearts (Mar 2025)

Xiangning Bu

Xiangning Bu’s recent publications at George Washington University center on water science and technology, mechanical engineering, and biomedical engineering, including work on cell crowding, TRPV4 inhibition, and pro-invasive mechanotransduction in DCIS.

Activity over the last year: 4 indexed journal articles.

Top publications:

• Cell crowding activates pro-invasive mechanotransduction pathway in high-grade DCIS via TRPV4 inhibition and cell volume reduction (Apr 2025)
• Cell crowding activates pro-invasive mechanotransduction pathway in high-grade DCIS via TRPV4 inhibition and cell volume reduction (Mar 2025)
• Abstract 5106: Cell crowding-induced TRPV4 inhibition and relocation to plasma membranes: Implications for a pro-invasive mechanotransduction pathway in DCIS progression (Apr 2025)

What George Washington University's Neuroscience Community Is Working On

The most common subfields in this group point to an active neuroscience community working at the intersection of autonomic regulation, cognition, physiology, and cardiovascular control. Endocrine and autonomic systems appears especially prominent, alongside cognitive neuroscience, suggesting sustained interest in how neural circuits shape breathing, heart function, sleep, and behavior. Physiology and cardiology and cardiovascular medicine further reinforce the translational direction of much of this work, while cellular and molecular neuroscience adds a mechanistic layer to the broader research landscape.

• Endocrine and Autonomic Systems - seen across 4 of the featured researchers
• Cognitive Neuroscience - seen across 4 of the featured researchers
• Physiology - seen across 3 of the featured researchers
• Cardiology and Cardiovascular Medicine - seen across 3 of the featured researchers
• Cellular and Molecular Neuroscience - seen across 2 of the featured researchers

Taken together, these researchers show how neuroscience at George Washington University reaches across systems, methods, and applications. If you’d like to keep exploring recent work like this, or organize your own manuscript and submission workflow more efficiently, Resub can help streamline the process.

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