VPH PhD position at Imperial College London

Available PhD position on "Modelling and Simulation of Human Pluripotent Stem Cell derived Cardiomyocyte Grafts". Application deadline 14 January 2018.

Project Description

Applications are invited for a BHF Centre of Regenerative Medicine – National Heart and Lung Institute 3 year PhD studentship starting in October 2018 at the BHF Centre of Regenerative Medicine at Imperial College London. The studentship will cover tuition fees (at the Home/EU rate) and a tax-free stipend starting from £18,000 per annum for a total of 3 years.

The BHF Centre has internal partners from Imperial’s NHLI and Materials Departments, as well as the MRC Clinical Sciences Centre. Its main external partner is the Wolfson Centre for Stem Cells, Tissue Engineering & Modelling at University of Nottingham. They also have expert partners at the Universities of Hamburg, Glasgow, Westminster and Oxford. Its expertise complements the other two BHF Centres at Oxford/Cambridge and Edinburgh.

Imperial College London provides excellent opportunities for research student training. All students benefit from a full programme of training in research and transferable skills organised through the Graduate School, the quality of which has been recognised several times at the Times Higher Education (THE) Awards.

Project summary

This project aims to understand how to use human pluripotent stem cell technology to generate new cardiac muscle grafts that can be used to repair damaged hearts. The project will focus on developing biophysical models to simulate and analyse stem cell physiology and how this changes in tissue grafts, how grafts interact with biomaterial vectors and the interrelationship between the graft and the host heart.

Human pluripotent stem cell derived cardiomyocytes offer an exciting opportunity to grow exogenous tissue grafts to replace damaged regions of the heart. Grafts are grown on a biomaterial that can then be attached to a damaged heart with the hope that the graft will replace or augment the damaged tissue. Understanding and optimising the interaction between the graft, biomaterial and the damaged heart are crucial to successfully repair cardiac function. Computational biophysical models provide a common physically constrained framework to integrate, analyse and optimise the interface between cellular, biomaterial and tissue properties.

Aims: This project will develop biophysical models of the electrophysiology of human pluripotent stem cell derived cardiomyocytes, stem cell grafts and damaged hearts. These models will be used to determine the optimal graft and biomaterial properties to ensure a safe and effective electrical coupling of the graft to the damaged heart.

Approach: This project will involve: processing, analysing and interpreting data to infer model parameters and validate model predictions; image processing and mesh creation; and multiscale simulations using high performance computing resources. The cardiac models require the numerical solution of systems of differential equations to model cellular physiology and the monodomain partial differential equations for simulating cardiac electrophysiology. The project will involve working closely with the biological researchers at Imperial College London and biomedical engineers at Kings’ College London. 

Applicant Requirements

This project will suit a candidate with a passion for applied mathematics, computer science and computational biology. A strong mathematical and programming background from a recognised academic institution will be essential for this project. Experience with C/C++ (or equivalent), Linux, MPI and HPC would be beneficial.

Candidates must fulfil College admissions criteria and meet BHF residency requirements.

Further information on the official website


Date: 06/12/2017 | Tag: | News: 700 of 1626
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