
Principal investigator
Claire Conway
Principal Investigator
Bioengineering · Biomechanics · Cardiovascular disease · Computational modelling
About
Research profile
Claire Conway applies computational biomechanics and bioengineering to cardiovascular disease and medical-device evaluation, including coronary stent performance.
Expertise
Research interests
Lab members
Claire’s research team
No lab members are currently listed.
Current work
Research projects
Cardiovascular regeneration
Vascular grafts, heart-valve scaffolds, computational models, biosensors and device-based treatments for cardiovascular disease.
5 associated researchers
Explore research areaAdvanced disease models
Three-dimensional models of cancer, bone infection, osteoporosis, lung disease and other tissue microenvironments for discovery and screening.
7 associated researchers
Explore research areaMedical devices and implants
Microneedles, cardiovascular and neural implants, biosensors and minimally invasive devices for therapeutic delivery, monitoring and tissue repair.
5 associated researchers
Explore research areaSelected outputs
Highlighted publications
Patient-specific investigation into plaque rupture risk due to catheter tracking during TAVR
Computational Investigation of Vessel Injury Due to Catheter Tracking During Transcatheter Aortic Valve Replacement
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.
Industry & translation
Turning research into impact.
TERG works with academic, clinical and industry partners to move biomaterials, devices and regenerative technologies towards patient benefit.
Industry, spin-outs and collaborationContact
Start a conversation.
For research, collaboration and supervision enquiries, email claireconway@rcsi.com.
Lab contact details