Sort by
Refine Your Search
-
Listed
-
Employer
- University of Oxford
- King's College London
- University of London
- Durham University
- University of Oxford;
- KINGS COLLEGE LONDON
- Nature Careers
- University of Cambridge;
- Aston University
- Heriot Watt University
- Queen Mary University of London;
- UNIVERSITY OF VIENNA
- University of Liverpool
- jobs.ac.uk
- 4 more »
- « less
-
Field
-
working within Theme 3 of the Programme: ‘Image-guided Surgery’ and will involve the synthesis and assessment of novel multimodal nanomaterials for healthcare applications and radiolabel for PET imaging
-
About the role We are seeking an outstanding candidate to work in the Process Dynamics group to contribute to advanced research in AI-driven X-ray imaging for metal alloy solidification
-
, machine learning, multiscale and multiphysics simulation, computational anatomy, medical image analysis, and integration of wearables and biosignal processing, applied to conditions ranging from cardiac
-
biology in atherosclerosis. The project will combine patient-derived endothelial colony-forming cells with advanced coronary artery imaging from patients at Barts Health NHS Trust to identify individuals
-
for optical imaging. Experience and interest in data analysis and the ability to perform basic biochemical work with proteins and DNA will be highly rated in the selection process. The ideal candidate will hold
-
About Us The School of Biomedical Engineering & Imaging Sciences has attracted multi-million-pound research funding and collaborates with other universities and Faculties within KCL, the NHS
-
bioinformatics. The role will be responsible for developing and characterising human dorsal root ganglia cultures to benchmark the newly developed iPSC derived organoid model systems. This will include processing
-
. Experience with brain imaging data, large-scale population datasets, longitudinal biomedical modelling, or collaboration with clinical and genetics partners would be desirable. Diversity Committed to equality
-
ganglia cultures to benchmark the newly developed iPSC derived organoid model systems. This will include processing of human DRG and nerve roots with subsequent cellular and molecular analyses looking
-
for real-time human data processing in interactive settings. Technical expertise in areas such as electrophysiological recording, VR paradigm design, closed-loop algorithm development, or clinical