Duke’s Immunology PhD couples single-cell multi-omics, structural vaccinology, and computational modeling to decode immune defense and pathology. Trainees engineer nanoparticle vaccines, visualize lymph-node dynamics with intravital microscopy, and collaborate with Duke Health on CAR-T enhancements against solid tumors. Policy electives address global-vaccine equity and emerging bio-risk governance.
Single-cell TCR repertoire mapping during chronic viral infection
Structure-guided design of mosaic nanoparticle influenza vaccines
Mathematical model of cytokine storms in sepsis
CRISPR screen for regulators of myeloid checkpoint pathways
AI classifier predicting neoantigen immunogenicity
Spatial transcriptomics of tumor immune microenvironment
Intravital imaging of germinal-center B-cell selection
Blockchain-tracked cold-chain monitoring for vaccine vials
Citizen-science antibody discovery kit for high-school labs
Policy brief on equitable mRNA vaccine patent sharing
Deep-learning model forecasting autoimmune flare triggers
Serious game teaching herd-immunity concepts
Open-source ELISA automation platform
VR tutorial on antigen presentation pathways
Longitudinal study of microbiome imprinting vaccine efficacy
Decode and engineer immunity to safeguard global health at Duke.
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