Duke’s Neuroscience BS immerses students in cellular neurobiology, cognitive science, and neuro-engineering. Labs leverage two-photon microscopy, optogenetics, and machine-learning decoding of fMRI data. Clinical partnerships expose undergrads to epilepsy surgery mapping, while ethics seminars interrogate AI neuro-privacy. Graduates pivot to MD-PhD programs, brain-computer-interface startups, and public-health neuroscience policy.
Deep-learning reconstruction of visual scenes from retinal signals
Optogenetic study of decision circuits in zebrafish larvae
Software predicting seizure onset with wearable EEG
VR task assessing spatial memory in early Alzheimer’s screening
CRISPR knockout of synaptic proteins linked to autism
fMRI study of narrative empathy in bilingual brains
Closed-loop DBS algorithm for treatment-resistant depression
Citizen-science platform for at-home circadian rhythm tracking
AI-generated art interface controlled by neural signals
Ethical framework for consumer neuro-data protection
Comparative connectomics of insect vs. mammalian sensory systems
Nutrition study on microbiome influence on anxiety circuits
Machine-learning classification of sleep stages in infants
Stem-cell derived organoid model of traumatic brain injury
Biofeedback game helping ADHD students regulate attention
Blockchain secured repository of anonymized neuroimaging data
Open-source toolkit for auditory ERP experiments
Policy brief on neurotechnology and workplace surveillance
Augmented-reality anatomy atlas overlaying live brain-slice activity
Explore and engineer the brain’s mysteries through Duke’s research-intensive Neuroscience major.
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