Cookies on this website

We use cookies to ensure that we give you the best experience on our website. If you click 'Accept all cookies' we'll assume that you are happy to receive all cookies and you won't see this message again. If you click 'Reject all non-essential cookies' only necessary cookies providing core functionality such as security, network management, and accessibility will be enabled. Click 'Find out more' for information on how to change your cookie settings.

Accept all cookies Reject all non-essential cookies Find out more

Publications

Strategies for generating synthetic computed tomography-like imaging from radiographs: A scoping review

De Wilde D. et al, (2025), Medical Image Analysis, 101

Fully automated grading of pituitary adenoma

Da Mutten R. et al, (2025), NeuroImage: Reports, 5

TomoRay: Generating Synthetic Computed Tomography of the Spine From Biplanar Radiographs.

Zanier O. et al, (2024), Neurospine, 21, 68 - 75

Whole Spine Segmentation Using Object Detection and Semantic Segmentation.

Da Mutten R. et al, (2024), Neurospine, 21, 57 - 67

From molecular signatures to radiomics: tailoring neurooncological strategies through forecasting of glioma growth.

Rauch P. et al, (2024), Neurosurg Focus, 56

Automated volumetric assessment of pituitary adenoma.

Da Mutten R. et al, (2024), Endocrine, 83, 171 - 177

Declaration of Computational Neurosurgery.

Di Ieva A. et al, (2024), 1462, 11 - 20

Deep learning-based postoperative glioblastoma segmentation and extent of resection evaluation: Development, external validation, and model comparison.

Cepeda S. et al, (2024), Neurooncol Adv, 6

Machine Intelligence in Cerebrovascular and Endovascular Neurosurgery.

Staartjes VE. et al, (2024), 1462, 383 - 395

DeepEOR: automated perioperative volumetric assessment of variable grade gliomas using deep learning.

Zanier O. et al, (2023), Acta Neurochir (Wien), 165, 555 - 566

Development and external validation of clinical prediction models for pituitary surgery.

Zanier O. et al, (2023), Brain Spine, 3

Machine learning-based clinical outcome prediction in surgery for acromegaly.

Zanier O. et al, (2022), Endocrine, 75, 508 - 515