https://www.psweeney.co.uk/news daily 0.75 2020-09-18 https://www.psweeney.co.uk/news/modelling-transforming-medicine monthly 0.5 2020-09-18 https://www.psweeney.co.uk/news/humans-who-search monthly 0.5 2020-06-15 https://www.psweeney.co.uk/news/the-visionlab-1000km-challenge monthly 0.5 2020-05-26 https://www.psweeney.co.uk/home daily 1.0 2025-10-09 https://www.psweeney.co.uk/contact daily 0.75 2023-08-14 https://www.psweeney.co.uk/publications daily 0.75 2024-07-15 https://www.psweeney.co.uk/about daily 0.75 2023-04-19 https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/1592211723100-KZBLKMATURZ6P79TNIY8/File%2B22-03-2017%252C%2B10%2B19%2B53.jpg About - Paul Sweeney My research focuses on developing and applying image-based mathematical and computational models to study transport phenomena in microvascular tissues. I am currently based in the VISIONLab, led by Prof. Sarah Bohndiek, at the Cancer Research UK Cambridge Institute, University of Cambridge. Here, my research focuses on understanding the role of hypoxia in the tumour microenvironment through a combination of biophysical models and image processing of mesoscopic photoacoustic imaging using deep learning. Previously, I was a PhD researcher and a postdoctoral fellow in the labs of Prof. Becky Shipley and Prof. Simon Walker-Samuel at University College London. Together we built an image-based modelling framework called REANIMATE. This platform combines mathematical models with in vivo and ex vivo imaging to predict fluid and mass in whole vascular tumours. https://www.psweeney.co.uk/github daily 0.75 2023-08-14 https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/1665832614701-49B6I9VW5T4S5APH4W7Z/unsplash-image-UxDU0Gg5pqQ.jpg GitHub https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/0b987f29-0876-4076-8daa-3aa59fee4c32/PDX.jpg GitHub https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/1665834628314-IQ3I95WIF9TMWDIRP4XW/unsplash-image-Cp2aAcjUAo8.jpg GitHub https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/67dbd1c4-6801-4e21-8415-11e055235807/Untitled.jpg GitHub https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/bb5b1320-6e74-4b83-bbd4-5fee5fb4dac1/image-asset.jpg GitHub https://www.psweeney.co.uk/research daily 0.75 2024-07-15 https://www.psweeney.co.uk/research/unsupervised-segmentation-of-3d-vascular-images monthly 0.5 2024-07-15 https://images.squarespace-cdn.com/content/v1/5ec321c2af33de48734cc929/2b138b19-e39b-4aaa-bfe4-ee168dac9208/20140301_Trade+151_0124+1.jpg https://www.psweeney.co.uk/research/reanimate monthly 0.5 2024-07-15 https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/1592249924819-SXYMANCUSTY90MTEWMUW/REANIMATE%2BA5%2Bplacards_1.jpg Research - Modelling Transport in Solid Tumours https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/1590782192694-KKGFF95A2H336L2KZXVQ/46788356125_4ab62a605c_k.jpg Research - Modelling Transport in Solid Tumours https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/1590781222425-KBQ3BECLZWHVK87F32G8/ezgif.com-crop-3.gif Research - Modelling Transport in Solid Tumours https://images.squarespace-cdn.com/content/v1/5ebf07196f2ce3469be49a47/1590782407347-GX1TASEQIEHITNH81VRQ/ezgif.com-rotate.gif Research - Modelling Transport in Solid Tumours - “This impressive study uses cutting edge imaging and computer modelling to predict how drugs access tumours based on the pattern of blood vessels. In the long term, this research could inform improvements in drug delivery to cancer cells, helping to eliminate the disease for more patients.” — Erik Sahai, Group Leader at the Francis Crick Institute https://www.psweeney.co.uk/research/multiscale-modelling-of-vascular-perfusion monthly 0.5 2022-10-20