Stanford’s Ph.D. in Bioengineering integrates biology, medicine, and engineering to create solutions for health, diagnostics, and therapy. These dissertation topics combine state-of-the-art tools with bold innovation in synthetic biology, biodesign, and regenerative medicine.
3D Bioprinted Cardiac Tissue for Drug Screening Applications
Neural Signal Decoding for Closed-Loop Brain-Machine Interfaces
Programmable RNA Circuits for Intracellular Disease Sensing
Development of Smart Contact Lenses for Real-Time Glucose Monitoring
Microfluidic Platforms for High-Throughput Organoid Culture
Tissue-Engineered Grafts with Vascular Integration for Regenerative Medicine
AI-Guided Diagnostics for Rare Genetic Disorders
Bioelectronic Interfaces for Peripheral Nerve Modulation
Synthetic Biology Approaches to On-Demand Vaccine Production
Flexible Bioelectronics for Continuous Cardiovascular Monitoring
CRISPR-Cas Biosensors for Rapid Point-of-Care Diagnostics
Nanoparticle Delivery Systems for Brain Tumor Treatment
Wearable Ultrasound Devices for Deep Tissue Imaging
Hybrid Biohybrid Robots Powered by Muscle Tissues
Optogenetic Tools for Neural Mapping in Live Mammals
Biocompatible Scaffolds for Cartilage Regeneration
Gene Circuit Design for Targeted Cancer Cell Apoptosis
Organs-on-Chips for Personalized Medicine Trials
Bioresponsive Hydrogels for Smart Wound Healing
Ethical and Regulatory Challenges in Human Genome Engineering
From neural engineering to genome design, Collexa supports Stanford Bioengineering Ph.D. scholars with lab protocol refinement, proposal reviews, and clinical translation support.
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