SISTR: Sinus and Inferior alveolar nerve Segmentation with Targeted Refinement on Cone Beam Computed Tomography images

medRxiv - Dentistry and Oral Medicine Pub Date : 2024-02-18 DOI:10.1101/2024.02.17.24301683

Laura Misrachi, Emma Covili, Hippolyte Mayard, Christian Alaka, Jérémy Rousseau, Willy Au

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Abstract

In dental implantology, precise delineation of maxillary sinuses and inferior alveolar nerves (IAN) on CBCT scans is essential for implant planning. Addressing the time-consuming manual segmentation, we introduce SISTR (Sinus and IAN Segmentation with Targeted Refinement), a novel deep-learning method for automated, precise segmentation. SISTR employs a two-stage approach: initially, it predicts coarse segmentation and offset maps to anatomical regions, followed by clustering for region centroids identification and targeted cropping for refined segmentation. Developed on the most diverse dataset to date for sinus and IAN segmentation, sourced from 11 dental clinics and 10 manufacturers (358 CBCT volumes for sinus, 499 for IAN), SISTR demonstrates robust generalizability. It achieved strong performance on an external test set, reaching average DICE scores of 96.64% (95.38-97.60) for sinus and 83.43% (80.96-85.63) for IAN, marking a significant 10 percentage point improvement in Dice Score for IAN compared to single-stage methods (p-value < 0.005). Chamfer distances of 0.38 (0.24-0.60) mm for sinus and 0.88 (0.58-1.27) mm for IAN affirm its precision. Efficient in fast and precise segmentation with an inference time of 4 seconds per case, SISTR advances implant planning in digital dentistry.

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SISTR：在锥形束计算机断层扫描图像上进行窦和下齿槽神经的目标细化分割

在牙科种植学中，CBCT 扫描中上颌窦和下齿槽神经（IAN）的精确划分对于种植规划至关重要。为了解决耗时的手动分割问题，我们引入了 SISTR（带目标细化的窦和下牙槽神经分割），这是一种用于自动精确分割的新型深度学习方法。SISTR 采用两阶段方法：首先，预测解剖区域的粗略分割和偏移图，然后进行聚类以识别区域中心点，并有针对性地裁剪以进行精细分割。SISTR 是在迄今为止最多样化的鼻窦和 IAN 分割数据集上开发的，该数据集来自 11 家牙科诊所和 10 家制造商（鼻窦 CBCT 容量 358 个，IAN 容量 499 个）。它在外部测试集上取得了优异的成绩，窦的平均 DICE 得分为 96.64%（95.38-97.60），IAN 的平均 DICE 得分为 83.43%（80.96-85.63），与单级方法相比，IAN 的 DICE 得分显著提高了 10 个百分点（p 值为 0.005）。窦的倒角距离为 0.38（0.24-0.60）毫米，IAN 的倒角距离为 0.88（0.58-1.27）毫米，这肯定了其精确性。SISTR 能够快速、精确地进行分割，每个病例的推理时间仅为 4 秒，它推动了数字牙科中的种植规划。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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medRxiv - Dentistry and Oral Medicine

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