The impact of neck tilt on the accuracy of deep learning generated contours for CT images of the head and neck
Jamison Brooks, William Harmsen, David Routman, Erik Tryggestad, Douglas Moseley

TL;DR
This study shows that abnormal neck tilt in head and neck CT scans reduces the accuracy of deep learning auto-segmentation tools, especially for parotid glands.
Contribution
The study reveals that abnormal neck tilt significantly degrades DLAS performance for parotid glands across multiple FDA-cleared tools.
Findings
Abnormal neck tilt consistently reduced parotid gland contouring accuracy across all seven DLAS tools.
Degraded contouring accuracy led to significant dose variability in radiation therapy planning.
Other organs at risk showed no consistent performance differences across DLAS tools.
Abstract
Deep learning auto segmentation (DLAS) tools are widely used for radiation therapy planning, yet limited information exists on how patient positioning impacts their performance, particularly in head and neck (HN) computed tomography (CT) imaging. This study investigates the impact of abnormal neck tilt on the accuracy of DLAS‐generated contours in HN CT scans. We hypothesize that abnormal positioning degrades auto segmentation performance, particularly for organs at risk (OARs) influenced by cervical spine orientation. A total of 35 HN CT scans were retrospectively analyzed. Neck tilt was quantified using principal component analysis of the spinal cord contours from C1 to C4, with patients stratified into normal and abnormal tilt groups based on percentile thresholds. Seven FDA‐cleared DLAS tools were evaluated for OAR segmentation accuracy across brainstem, parotid glands,…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Head and Neck Cancer Studies · Dental Radiography and Imaging
