A joint venture of GT and Emory, the Bioengineering PhD lets scholars 3-D print vascularized organs, program CRISPR immune circuits, and model multi-omic tumor ecologies. Embedded in NIH and NSF centers, candidates routinely spin out IP that seeds VC-backed biostartups.
Microfluidic tumor-on-chip platform for immunotherapy screens
Optogenetic gene network controlling insulin secretion
Biomechanical scaffold guiding nerve regeneration post-amputation
AI-driven protein design for enzyme replacement therapy
Decellularized ECM cardiac patch with conductive nanoparticles
Hybrid bio-photoelectrochemical CO₂-to-chemical reactor
Nanoparticle vaccine platform enhancing T-cell memory
Real-time single-cell RNA-seq lineage tracking during development
Biorobotic actuator powered by engineered skeletal muscle
Biosafety assessment framework for synthetic phage therapeutics
Hydrogel-based wound dressing releasing immune-modulating exosomes
CRISPR gene-drive control switches for vector-borne disease
Bio-based production of biodegradable plastics from methane
Closed-loop biosensor regulating sepsis cytokine storms
Portable organ-preservation system with perfusion monitoring
Re-program biology—heal people and the planet.
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