Top Neuroscience Researchers at University of Cambridge for 2026

The University of Cambridge continues to show breadth and momentum across Neuroscience, with recent work spanning clinical studies, cognitive science, brain imaging, and neurotechnology. Looking across the last year, a clear picture emerges of researchers connecting mechanisms in the brain to symptoms, development, and treatment.

Below, you’ll find a snapshot of researchers whose recent publications reflect that range, from autism and dementia to traumatic brain injury, neurodegeneration, and neural implants. Together, their work highlights how neuroscience at Cambridge is moving between basic discovery and real-world application.

Featured Researchers

James B. Rowe

James B. Rowe’s recent Cambridge work spans psychiatry and mental health, physiology, and neurology, with publications on microglial biomarkers, apathy across neurological disorders, and early neurodegeneration in Huntington’s disease.

Activity over the last year: 29 indexed journal articles.

Top publications:

• Somatic CAG repeat expansion in blood associates with biomarkers of neurodegeneration in Huntington’s disease decades before clinical motor diagnosis (Jan 2025)
• Post-mortem validation of in vivo TSPO PET as a microglial biomarker (Feb 2025)
• Self- versus caregiver-reported apathy across neurological disorders (Jan 2025)

Richard A. I. Bethlehem

Richard A. I. Bethlehem has focused on cognitive neuroscience, imaging, and social psychology, including studies on lifespan brain organization, autism profiles by age at diagnosis, and developmental prediction of outcomes in autistic children.

Activity over the last year: 27 indexed journal articles.

Top publications:

• Topological turning points across the human lifespan (Nov 2025)
• Polygenic and developmental profiles of autism differ by age at diagnosis (Oct 2025)
• Genomic and Developmental Models to Predict Cognitive and Adaptive Outcomes in Autistic Children (Apr 2025)

Simon Baron‐Cohen

Simon Baron-Cohen’s recent Cambridge publications link cognitive neuroscience, genetics, and education through work on healthcare experiences for autistic and transgender or gender diverse people, face processing in autism, and developmental models of autistic outcomes.

Activity over the last year: 20 indexed journal articles.

Top publications:

• Autistic and transgender/gender diverse people’s experiences of health and healthcare (Jan 2025)
• A multimodal neural signature of face processing in autism within the fusiform gyrus (Jan 2025)
• Genomic and Developmental Models to Predict Cognitive and Adaptive Outcomes in Autistic Children (Apr 2025)

Matthew A. Lambon Ralph

Matthew A. Lambon Ralph’s recent research connects cognitive neuroscience with developmental and educational psychology, covering apathy across neurological disorders, frontotemporal dementia, and the cognitive effects of double meanings in reading.

Activity over the last year: 13 indexed journal articles.

Top publications:

• Self- versus caregiver-reported apathy across neurological disorders (Jan 2025)
• Behavioural changes in frontotemporal dementia and their cognitive and neuroanatomical correlates (Feb 2025)
• Double meanings for reading (Aug 2025)

Maura Malpetti

Maura Malpetti’s work centers on physiology, psychiatry and mental health, and neurology, with studies on tau spread in Alzheimer’s disease, TSPO PET validation as a microglial biomarker, and connectivity as a predictor of tau progression.

Activity over the last year: 15 indexed journal articles.

Top publications:

• Amyloid-associated hyperconnectivity drives tau spread across connected brain regions in Alzheimer’s disease (Jan 2025)
• Post-mortem validation of in vivo TSPO PET as a microglial biomarker (Feb 2025)
• Connectivity as a universal predictor of tau progression in atypical Alzheimer’s disease (Aug 2025)

Marek Czosnyka

Marek Czosnyka’s recent Cambridge publications emphasize neurology, cellular and molecular neuroscience, and imaging, including consensus guidance on non-invasive intracranial pressure monitoring and machine-learning approaches to intracranial pressure estimation.

Activity over the last year: 17 indexed journal articles.

Top publications:

• The Brussels consensus for non-invasive ICP monitoring when invasive systems are not available in the care of TBI patients (the B-ICONIC consensus, recommendations, and management algorithm) (Jan 2025)
• Impact of age and mean intracranial pressure on the morphology of intracranial pressure waveform and its association with mortality in traumatic brain injury (Feb 2025)
• Machine learning approach for noninvasive intracranial pressure estimation using pulsatile cranial expansion waveforms (Jan 2025)

Trevor W. Robbins

Trevor W. Robbins’ recent Cambridge work spans cellular and molecular neuroscience, cognitive neuroscience, and clinical psychology, including studies of Huntington’s disease biomarkers, adolescent mental health, and developing brain asymmetry.

Activity over the last year: 15 indexed journal articles.

Top publications:

• Somatic CAG repeat expansion in blood associates with biomarkers of neurodegeneration in Huntington’s disease decades before clinical motor diagnosis (Jan 2025)
• Genetic influence and neural pathways underlying the dose-response relationships between wearable-measured physical activity and mental health in adolescence (Apr 2025)
• Developing brain asymmetry shapes cognitive and psychiatric outcomes in adolescence (May 2025)

George G. Malliaras

George G. Malliaras’ recent publications bridge cellular and molecular neuroscience with engineering, from electrical stimulation of cells and thin-film electrodes for neural implants to stretchable sensing devices.

Activity over the last year: 12 indexed journal articles.

Top publications:

• Electrical Stimulation of Cells: Drivers, Technology, and Effects (Jul 2025)
• Fabrication of thin-film electrodes and organic electrochemical transistors for neural implants (Feb 2025)
• Simultaneous Isotropic Omnidirectional Hypersensitive Strain Sensing and Deep Learning‐Assisted Direction Recognition in a Biomimetic Stretchable Device (Jan 2025)

What University of Cambridge's Neuroscience Community Is Working On

Across the featured Cambridge researchers, the strongest activity clusters around cognitive neuroscience, neurology, and cellular and molecular neuroscience, with psychiatry and mental health and physiology also appearing repeatedly. That mix suggests an active community examining how brain function, development, and disease intersect, while also building tools and methods that can move findings closer to clinical use. The recent work ranges from autism and dementia to traumatic brain injury and neurotechnology, showing a field that is both mechanistic and translational.

• Cognitive Neuroscience - seen across 4 of the featured researchers
• Neurology - seen across 3 of the featured researchers
• Cellular and Molecular Neuroscience - seen across 3 of the featured researchers
• Psychiatry and Mental health - seen across 2 of the featured researchers
• Physiology - seen across 2 of the featured researchers

These recent contributions show a neuroscience community working across scales, methods, and clinical questions, with Cambridge researchers linking molecular findings, brain networks, and patient-centered outcomes. Explore the profiles below to see how those themes come together, and if you’re organizing your own literature review or submission workflow, Resub can help streamline the search and formatting steps.

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