多机构定量评估和临床验证 Smart Probabilistic Image Contouring Engine (SPICE) 自动勾画头颈部、胸部、肝脏和男性骨盆区域 CT 图像上靶区结构和正常组织的能力。

Multi-institutional quantitative evaluation and clinical validation of Smart Probabilistic Image Contouring Engine (SPICE) autosegmentation of target structures and normal tissues on computer tomography images in the head and neck, thorax, liver, and male pelvis areas.

机构信息

Department of Radiation Oncology, Washington University School of Medicine, St. Louis, Missouri.

出版信息

Int J Radiat Oncol Biol Phys. 2013 Nov 15;87(4):809-16. doi: 10.1016/j.ijrobp.2013.08.007.

DOI:10.1016/j.ijrobp.2013.08.007

PMID:24138920

Abstract

PURPOSE

Clinical validation and quantitative evaluation of computed tomography (CT) image autosegmentation using Smart Probabilistic Image Contouring Engine (SPICE).

METHODS AND MATERIALS

CT images of 125 treated patients (32 head and neck [HN], 40 thorax, 23 liver, and 30 prostate) in 7 independent institutions were autosegmented using SPICE and computational times were recorded. The number of structures autocontoured were 25 for the HN, 7 for the thorax, 3 for the liver, and 6 for the male pelvis regions. Using the clinical contours as reference, autocontours of 22 selected structures were quantitatively evaluated using Dice Similarity Coefficient (DSC) and Mean Slice-wise Hausdorff Distance (MSHD). All 40 autocontours were evaluated by a radiation oncologist from the institution that treated the patients.

RESULTS

The mean computational times to autosegment all the structures using SPICE were 3.1 to 11.1 minutes per patient. For the HN region, the mean DSC was >0.70 for all evaluated structures, and the MSHD ranged from 3.2 to 10.0 mm. For the thorax region, the mean DSC was 0.95 for the lungs and 0.90 for the heart, and the MSHD ranged from 2.8 to 12.8 mm. For the liver region, the mean DSC was >0.92 for all structures, and the MSHD ranged from 5.2 to 15.9 mm. For the male pelvis region, the mean DSC was >0.76 for all structures, and the MSHD ranged from 4.8 to 10.5 mm. Out of the 40 autocontoured structures reviews by experts, 25 were scored useful as autocontoured or with minor edits for at least 90% of the patients and 33 were scored useful autocontoured or with minor edits for at least 80% of the patients.

CONCLUSIONS

Compared with manual contouring, autosegmentation using SPICE for the HN, thorax, liver, and male pelvis regions is efficient and shows significant promise for clinical utility.

摘要

目的

使用 Smart Probabilistic Image Contouring Engine（SPICE）对计算机断层扫描（CT）图像进行自动分割，并对其进行临床验证和定量评估。

方法和材料

在 7 个独立的机构中，对 125 名接受治疗的患者（32 名头颈部[HN]，40 名胸部，23 名肝脏和 30 名前列腺）的 CT 图像进行了 SPICE 自动分割，并记录了计算时间。头颈部自动勾画的结构数量为 25 个，胸部为 7 个，肝脏为 3 个，男性骨盆区域为 6 个。使用临床轮廓作为参考，使用 Dice 相似系数（DSC）和平均切片 Hausdorff 距离（MSHD）对 22 个选定结构的自动轮廓进行了定量评估。所有 40 个自动轮廓均由治疗患者的机构的放射肿瘤学家进行评估。

结果

使用 SPICE 自动分割所有结构的平均计算时间为每位患者 3.1 至 11.1 分钟。对头颈部区域，所有评估结构的平均 DSC 均大于 0.70，MSHD 范围为 3.2 至 10.0mm。对于胸部区域，肺的平均 DSC 为 0.95，心脏的平均 DSC 为 0.90，MSHD 范围为 2.8 至 12.8mm。对于肝脏区域，所有结构的平均 DSC 均大于 0.92，MSHD 范围为 5.2 至 15.9mm。对于男性骨盆区域，所有结构的平均 DSC 均大于 0.76，MSHD 范围为 4.8 至 10.5mm。在专家评估的 40 个自动勾画结构中，有 25 个被评为有用，即对于至少 90%的患者，自动勾画或仅需少量编辑即可；有 33 个被评为有用，即对于至少 80%的患者，自动勾画或仅需少量编辑即可。