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Outputs (3)

Comparison of Echo Planar and Turbo Spin Echo Diffusion‐Weighted Imaging in Intraoperative MRI (2024)
Journal Article
Thorpe, J. C., Thust, S. C., Gillon, C. H., Rowe, S., Swain, C. E., MacArthur, D. C., Howarth, S. P., Avula, S., Morgan, P. S., & Dineen, R. A. (2025). Comparison of Echo Planar and Turbo Spin Echo Diffusion‐Weighted Imaging in Intraoperative MRI. Journal of Magnetic Resonance Imaging, 61(4), 1847-1857. https://doi.org/10.1002/jmri.29614

Background
Diffusion-weighted imaging (DWI) is routinely used in brain tumor surgery guided by intraoperative MRI (IoMRI). However, conventional echo planar imaging DWI (EPI-DWI) is susceptible to distortion and artifacts that affect image quality.... Read More about Comparison of Echo Planar and Turbo Spin Echo Diffusion‐Weighted Imaging in Intraoperative MRI.

Neuro-Oncology (2024)
Book Chapter
Rees, J., Brandner, S., Fersht, N., Grieve, J., Hotton, G., Kosmin, M., Russo, V., Thorne, L., & Thust, S. (2024). Neuro-Oncology. In R. Howard, D. Kullmann, D. Werring, & M. Zandi (Eds.), Neurology: A Queen Square Textbook. (Third Edition). https://doi.org/10.1002/9781119715672.ch20

Neuro-oncology covers the scientific and clinical aspects of central nervous system (CNS) tumours and the neurological complications of cancer. This chapter provides a clinically dominated guide to the key issues in neuro-oncology. It describes the h... Read More about Neuro-Oncology.

Glioblastoma and Radiotherapy: a multi-center AI study for Survival Predictions from MRI (GRASP study) (2024)
Journal Article
Booth, T. C., Chelliah, A., Wood, D. A., Canas, L. S., Shuaib, H., Currie, S., Fatania, K., Frood, R., Rowland-Hill, C., Thust, S., Wastling, S. J., Tenant, S., Foweraker, K., Williams, M., Wang, Q., Roman, A., Dragos, C., MacDonald, M., Hui Lau, Y., Linares, C. A., …Modat, M. (2024). Glioblastoma and Radiotherapy: a multi-center AI study for Survival Predictions from MRI (GRASP study). Neuro-Oncology, 26(6), 1138-1151. https://doi.org/10.1093/neuonc/noae017

Background
The aim was to predict survival of glioblastoma at 8 months after radiotherapy (a period allowing for completing a typical course of adjuvant temozolomide), by applying deep learning to the first brain MRI after radiotherapy completion.... Read More about Glioblastoma and Radiotherapy: a multi-center AI study for Survival Predictions from MRI (GRASP study).