验证皮肤神经纤维瘤测量技术:临床试验建议。
Validating Techniques for Measurement of Cutaneous Neurofibromas: Recommendations for Clinical Trials.
机构信息
From the Department of Neurology and Cancer Center (R.T., V.L.M., I.L., N.L.A., H.P.H., J.L.W.D., J.T.J., S.R.P.), Wellman Center for Photomedicine (A.C., J.S., E.M.P., F.H.S., R.R.A.), and Biostatistics Center (A.M.), Massachusetts General Hospital, and Department of Dermatology (A.C., J.S., E.M.P., F.H.S., R.R.A.), Harvard Medical School, Boston; and Department of Neurology, Neurosurgery, and Oncology (J.B.), Johns Hopkins University School of Medicine, Baltimore, MD.
出版信息
Neurology. 2021 Aug 17;97(7 Suppl 1):S32-S41. doi: 10.1212/WNL.0000000000012428. Epub 2021 Jul 6.
OBJECTIVE
To assess the reliability and variability of digital calipers, 3D photography, and high-frequency ultrasound (HFUS) for measurement of cutaneous neurofibromas (cNF) in patients with neurofibromatosis type 1 (NF1).
BACKGROUND
cNF affect virtually all patients with NF1 and are a major source of morbidity. Reliable techniques for measuring cNF are needed to develop therapies for these tumors.
METHODS
Adults with NF1 were recruited. For each participant, 6 cNF were assessed independently by 3 different examiners at 5 different time points using digital calipers, 3D photography, and HFUS. The intraclass correlation coefficient (ICC) was used to assess intrarater and interrater reliability of linear and volumetric measurements for each technique, with ICC values >0.90 defined as excellent reliability. The coefficient of variation (CV) was used to estimate the minimal detectable difference (MDD) for each technique.
RESULTS
Fifty-seven cNF across 10 participants were evaluated. The ICC for image acquisition and measurement was >0.97 within and across examiners for HFUS and 3D photography. ICC for digital calipers was 0.62-0.88. CV varied by measurement tool, linear vs volumetric measurement, and tumor size.
CONCLUSIONS
HFUS and 3D photography demonstrate excellent reliability whereas digital calipers have good to excellent reliability in measuring cNF. The MDD for each technique was used to create tables of proposed thresholds for investigators to use as guides for clinical trials focused on cNF size. These criteria should be updated as the performance of these end points is evaluated.
目的
评估数字卡尺、3D 摄影和高频超声(HFUS)在测量 1 型神经纤维瘤病(NF1)患者皮肤神经纤维瘤(cNF)中的可靠性和可变性。
背景
cNF 几乎影响所有 NF1 患者,是发病率的主要来源。需要可靠的 cNF 测量技术来为这些肿瘤开发治疗方法。
方法
招募了成年 NF1 患者。对于每个参与者,由 3 名不同的检查者在 5 个不同的时间点使用数字卡尺、3D 摄影和 HFUS 对 6 个 cNF 进行独立评估。使用组内相关系数(ICC)评估每种技术的线性和体积测量的内部和内部可靠性,ICC 值>0.90 定义为可靠性极好。变异系数(CV)用于估计每种技术的最小可检测差异(MDD)。
结果
在 10 名参与者的 57 个 cNF 中进行了评估。HFUS 和 3D 摄影的图像采集和测量的 ICC 在检查者内部和之间均>0.97。数字卡尺的 ICC 为 0.62-0.88。CV 随测量工具、线性与体积测量以及肿瘤大小而变化。
结论
HFUS 和 3D 摄影显示出极好的可靠性,而数字卡尺在测量 cNF 时具有良好到极好的可靠性。每种技术的 MDD 用于创建建议阈值表,供研究人员作为临床试验中 cNF 大小的指南。应随着这些终点的性能评估对这些标准进行更新。
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