2019
DOI: 10.1016/j.ijrobp.2019.06.750
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Evaluation of a Deep Learning-Based Auto-Segmentation Tool for Online Adaptive Radiation Therapy

Abstract: p is the penalty weight of the organ; D i is the dose of the i-th voxel; D 0 is the prescription dose; H(D i-D 0) is a Heaviside function, which equals 1 if D i > D 0 but 0 if D i D 0. Twenty patients with radical cervical cancer who had completed the treatment were retrospectively selected. The conventional optimization plans (COPs) and robust optimization plans (ROPs) were compared. For each patient, the nominal plan was normalized to the prescribed dose of 6Gy per fraction, and 7 scenarios were calculated. … Show more

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“…For instance, it was shown, that a convolutional neural network can provide a high-quality automatic delineation of the prostate, rectum and bladder with Dice scores of 0.87, 0.89 and 0.95 respectively, but for clinical usage 80% of these automatically made segmentations required manual correction. 6 The common approach is to train one network on all available data without acknowledging the heterogeneous nature of medical data caused by inter-and intra-observer variation. 7 One of the recently introduced approaches aware of observer variation is the probabilistic U-Net.…”
Section: Introduction 11 Backgroundmentioning
confidence: 99%
“…For instance, it was shown, that a convolutional neural network can provide a high-quality automatic delineation of the prostate, rectum and bladder with Dice scores of 0.87, 0.89 and 0.95 respectively, but for clinical usage 80% of these automatically made segmentations required manual correction. 6 The common approach is to train one network on all available data without acknowledging the heterogeneous nature of medical data caused by inter-and intra-observer variation. 7 One of the recently introduced approaches aware of observer variation is the probabilistic U-Net.…”
Section: Introduction 11 Backgroundmentioning
confidence: 99%