Deep Learning for Brain Tumor Segmentation in Radiosurgery: Prospective Clinical Evaluation

September 06, 2019 · Declared Dead · 🏛 BrainLes@MICCAI

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Authors Boris Shirokikh, Alexandra Dalechina, Alexey Shevtsov, Egor Krivov, Valery Kostjuchenko, Amayak Durgaryan, Mikhail Galkin, Ivan Osinov, Andrey Golanov, Mikhail Belyaev arXiv ID 1909.02799 Category eess.IV: Image & Video Processing Cross-listed cs.CV, physics.med-ph Citations 5 Venue BrainLes@MICCAI Last Checked 4 months ago

Abstract

Stereotactic radiosurgery is a minimally-invasive treatment option for a large number of patients with intracranial tumors. As part of the therapy treatment, accurate delineation of brain tumors is of great importance. However, slice-by-slice manual segmentation on T1c MRI could be time-consuming (especially for multiple metastases) and subjective. In our work, we compared several deep convolutional networks architectures and training procedures and evaluated the best model in a radiation therapy department for three types of brain tumors: meningiomas, schwannomas and multiple brain metastases. The developed semiautomatic segmentation system accelerates the contouring process by 2.2 times on average and increases inter-rater agreement from 92.0% to 96.5%.

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