International Benchmark for Total Metabolic Tumor Volume Measurement in Baseline 18F-FDG PET/CT of Lymphoma Patients: A Milestone Toward Clinical Implementation.

Ronald Boellaard, Irène Buvat, Christophe Nioche, Luca Ceriani, Anne-Ségolène Cottereau, Luca Guerra, Rodney J Hicks, Salim Kanoun, Carsten Kobe, Annika Loft, Heiko Schöder, Annibale Versari, Conrad-Amadeus Voltin, Gerben J C Zwezerijnen, Josée M Zijlstra, N George Mikhaeel, Andrea Gallamini, Tarec C El-Galaly, Christine Hanoun, Stephane Chauvie, Romain Ricci, Emanuele Zucca, Michel Meignan, Sally F Barrington
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Abstract

Total metabolic tumor volume (TMTV) is prognostic in lymphoma. However, cutoff values for risk stratification vary markedly, according to the tumor delineation method used. We aimed to create a standardized TMTV benchmark dataset allowing TMTV to be tested and applied as a reproducible biomarker. Methods: Sixty baseline 18F-FDG PET/CT scans were identified with a range of disease distributions (20 follicular, 20 Hodgkin, and 20 diffuse large B-cell lymphoma). TMTV was measured by 12 nuclear medicine experts, each analyzing 20 cases split across subtypes, with each case processed by 3-4 readers. LIFEx or ACCURATE software was chosen according to reader preference. Analysis was performed stepwise: TMTV1 with automated preselection of lesions using an SUV of at least 4 and a volume of at least 3 cm3 with single-click removal of physiologic uptake; TMTV2 with additional removal of reactive bone marrow and spleen with single clicks; TMTV3 with manual editing to remove other physiologic uptake, if required; and TMTV4 with optional addition of lesions using mouse clicks with an SUV of at least 4 (no volume threshold). Results: The final TMTV (TMTV4) ranged from 8 to 2,288 cm3, showing excellent agreement among all readers in 87% of cases (52/60) with a difference of less than 10% or less than 10 cm3 In 70% of the cases, TMTV4 equaled TMTV1, requiring no additional reader interaction. Differences in the TMTV4 were exclusively related to reader interpretation of lesion inclusion or physiologic high-uptake region removal, not to the choice of software. For 5 cases, large TMTV differences (>25%) were due to disagreement about inclusion of diffuse splenic uptake. Conclusion: The proposed segmentation method enabled highly reproducible TMTV measurements, with minimal reader interaction in 70% of the patients. The inclusion or exclusion of diffuse splenic uptake requires definition of specific criteria according to lymphoma subtype. The publicly available proposed benchmark allows comparison of study results and could serve as a reference to test improvements using other segmentation approaches.

淋巴瘤患者基线 18F-FDG PET/CT 总代谢肿瘤体积测量的国际基准:临床应用的里程碑。
总代谢肿瘤体积(TMTV)是淋巴瘤的预后指标。然而,根据所用肿瘤划分方法的不同,风险分层的临界值也明显不同。我们的目标是创建一个标准化的 TMTV 基准数据集,以便将 TMTV 作为可重复的生物标记物进行测试和应用。方法确定了 60 例基线 18F-FDG PET/CT 扫描,这些扫描具有不同的疾病分布(20 例滤泡性淋巴瘤、20 例霍奇金淋巴瘤和 20 例弥漫大 B 细胞淋巴瘤)。由 12 位核医学专家测量 TMTV,每位专家分析 20 个病例,每个病例由 3-4 位阅读者处理,每个病例按亚型划分。根据阅读者的偏好选择 LIFEx 或 ACCURATE 软件。分析是逐步进行的:TMTV1 使用 SUV 至少为 4 和体积至少为 3 cm3 的自动预选病灶,单击去除生理性摄取;TMTV2 单击去除反应性骨髓和脾脏;TMTV3 手动编辑以去除其他生理性摄取(如需要);TMTV4 使用鼠标单击增加病灶,SUV 至少为 4(无体积阈值)。结果最终的 TMTV(TMTV4)介于 8 到 2,288 立方厘米之间,87% 的病例(52/60)显示所有读片者之间的一致性极佳,差异小于 10% 或小于 10 立方厘米,70% 的病例中,TMTV4 等同于 TMTV1,无需额外的读片者互动。TMTV4 的差异完全与读者对病变纳入或生理高摄取区去除的解释有关,而与软件的选择无关。有 5 个病例的 TMTV 差异较大(>25%),原因是对是否纳入弥漫性脾摄取存在分歧。结论在 70% 的患者中,所建议的分割方法可使 TMTV 测量结果具有高度的可重复性,读者之间的交互作用极小。纳入或排除弥漫性脾摄取需要根据淋巴瘤亚型定义特定标准。公开的拟议基准可对研究结果进行比较,并可作为使用其他分割方法测试改进情况的参考。
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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