UMD’s PhD in Biomedical Engineering enables students to lead interdisciplinary research in areas like bioimaging, biomechanics, neural engineering, and regenerative medicine. The program provides deep technical training and collaborative lab experience with clinical and industry partners.
Design and testing of neural interfaces for spinal cord injury rehabilitation
Development of biodegradable scaffolds for tissue regeneration
MRI-based algorithms for tumor classification and segmentation
Microfluidic chip fabrication for rapid infectious disease diagnostics
Biomechanical modeling of bone-implant interactions under load
Smart prosthetic limb design with sensory feedback integration
Deep learning models for early cancer detection from imaging data
Investigation of mechanotransduction pathways in cardiac tissues
Development of real-time biosensors for critical care monitoring
3D printing of vascularized tissue constructs using bioinks
Analysis of EEG signals for epilepsy detection and prediction
Nanomaterial-enhanced drug delivery for chemotherapy applications
Wireless telemetry systems for continuous glucose monitoring
Design of personalized orthopedic implants using patient-specific modeling
Study of immune response to novel hydrogel-based implants
Simulation of hemodynamics in coronary artery disease models
Wearable sensor development for gait and mobility tracking
Brain-computer interface development for cognitive prostheses
Design of closed-loop insulin delivery systems using AI feedback
Evaluation of ultrasound-guided surgical tool accuracy
Design life-changing health technologies through advanced interdisciplinary research in UMD’s Biomedical Engineering PhD.
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