PhD / MPhil / MD Stem Cell and Regenerative Medicine

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Start date
Sep 2025
Sep 2026
Duration
2 years
4 years
Campus
Mode of study
Fees and deadlines depend on the selected options. Fees and currency conversion are approximate.
Offer response
2 weeks after your application is submitted
Backlogs accepted
This course accepts backlogs

A leading international centre for research into the fundamental principles of human physiology. We have recognised expertise in all aspects of modern physiology ranging from the regulation of gene expression to cell, tissue and whole organism biology.

This area of physiology research, utilises state-of-art technologies that enable non-invasive assessment of anatomy and function (MRI), protein expression and reporter gene expression (optical imaging), measurement of blood flow and vascularity (ultrasound) and renal function (photo-acoustic imaging). All have widespread applications for diagnostics and therapeutic interventions in neurology, neurosurgery, oncology, physiology, musculoskeletal biology and other relevant fields.

Research is undertaken within the Department of Cellular and Molecular Physiology, an integral part of the Institute for Translational Medicine.

This interdisciplinary research area is dedicated to harnessing the curative potential of stem cells to improve human health, with the central aim to bring life changing stem cell therapies closer to reality. Research is undertaken within the Department of Cellular and Molecular Physiology, an integral part of the Institute for Translational Medicine. Research spans from stem cell biology to tissue engineering to chemical biology with a focus on translational research. There are strong links to The Centre for Preclinical Imaging also within the Department of Cellular and Molecular Physiology, which provides expertise and infrastructure for non-invasive imaging in pre-clinical models. Linked to the UK Regenerative Medicine Platform. The UKRMP Safety and Efficacy Hub, led from Liverpool, is developing novel strategies for evaluating the safety and efficacy of regenerative medicine therapies, so that these important new medicines can be developed with full confidence.

Our research interests closely match our research themes.

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Use our magical AI system, to check your admission chances for this course.
Tuition fee
Apply by
Start date
Sep 2025
Sep 2026
Duration
2 years
4 years
Campus
Mode of study
Fees and deadlines depend on the selected options. Fees and currency conversion are approximate.
Offer response
2 weeks after your application is submitted
Backlogs accepted
This course accepts backlogs