Platforms
Medical devices and implants
Microneedles, cardiovascular and neural implants, biosensors and minimally invasive devices for therapeutic delivery, monitoring and tissue repair.
Overview
About this research
Microneedles, cardiovascular and neural implants, biosensors and minimally invasive devices for therapeutic delivery, monitoring and tissue repair.
People
Research team

Head of Department · Principal Investigator
Garry Duffy
Translational medicine · Medical devices · Chronic wound technologies

Director of TERG · Professor of Bioengineering and Regenerative Medicine · Principal Investigator
Fergal O’Brien
Biomaterials · Tissue engineering · Regenerative medicine

Senior Lecturer · Principal Investigator
Aamir Hameed
Bioengineering · Biomaterials · Cardiothoracic surgery


Research Fellow · Principal Investigator, Biomimetic Design Lab
Ian Woods
Electroconductive biomaterials · Gene therapeutics · Neurological disease models
Outputs
Related publications
Patient-specific investigation into plaque rupture risk due to catheter tracking during TAVR
Miniature Implantable Left Atrial/Ventricular Pump to Treat Symptoms of Heart Failure With Preserved Ejection Fraction: A Novel Device Treatment
Computational Investigation of Vessel Injury Due to Catheter Tracking During Transcatheter Aortic Valve Replacement
The Manufacture and Characterization of Biomimetic, Biomaterial-Based Scaffolds for Studying Physicochemical Interactions of Neural Cells in 3D Environments.
A European update on transcatheter aortic valve implantation (TAVI) in the COVID era.
Advancements in left ventricular assist devices to prevent pump thrombosis and blood coagulopathy.
Device-Based Solutions to Improve Cardiac Physiology and Hemodynamics in Heart Failure With Preserved Ejection Fraction.
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We welcome conversations with academic, clinical and industry partners whose expertise can create a stronger route to impact.
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