Department of Radiology, University Medical Centre Utrecht, Utrecht, The Netherlands.
Department of Neurology, BG-University Hospital Bergmannsheil, Ruhr-University Bochum, Bochum, Germany.
NMR Biomed. 2019 Sep;32(9):e4119. doi: 10.1002/nbm.4119. Epub 2019 Jul 17.
The purpose of this study was to evaluate temporal stability, multi-center reproducibility and the influence of covariates on a multimodal MR protocol for quantitative muscle imaging and to facilitate its use as a standardized protocol for evaluation of pathology in skeletal muscle. Quantitative T2, quantitative diffusion and four-point Dixon acquisitions of the calf muscles of both legs were repeated within one hour. Sixty-five healthy volunteers (31 females) were included in one of eight 3-T MR systems. Five traveling subjects were examined in six MR scanners. Average values over all slices of water-T2 relaxation time, proton density fat fraction (PDFF) and diffusion metrics were determined for seven muscles. Temporal stability was tested with repeated measured ANOVA and two-way random intraclass correlation coefficient (ICC). Multi-center reproducibility of traveling volunteers was assessed by a two-way mixed ICC. The factors age, body mass index, gender and muscle were tested for covariance. ICCs of temporal stability were between 0.963 and 0.999 for all parameters. Water-T2 relaxation decreased significantly (P < 10 ) within one hour by ~ 1 ms. Multi-center reproducibility showed ICCs within 0.879-0.917 with the lowest ICC for mean diffusivity. Different muscles showed the highest covariance, explaining 20-40% of variance for observed parameters. Standardized acquisition and processing of quantitative muscle MRI data resulted in high comparability among centers. The imaging protocol exhibited high temporal stability over one hour except for water T2 relaxation times. These results show that data pooling is feasible and enables assembling data from patients with neuromuscular diseases, paving the way towards larger studies of rare muscle disorders.
本研究旨在评估一种多模态磁共振(MR)协议用于定量肌肉成像的时间稳定性、多中心可重复性以及协变量的影响,以促进其作为评估骨骼肌病变的标准化协议。在一小时内重复进行双侧小腿多模态 MR 协议,包括定量 T2 加权、定量弥散加权和四点 Dixon 采集。65 名健康志愿者(31 名女性)被纳入 8 台 3-T MR 系统中的 1 个。5 名流动志愿者在 6 台 MR 扫描仪中进行了检查。对所有切片的水 T2 弛豫时间、质子密度脂肪分数(PDFF)和弥散指标的平均值进行了测定。采用重复测量方差分析和双向随机组内相关系数(ICC)来测试时间稳定性。通过双向混合 ICC 评估流动志愿者的多中心可重复性。对年龄、体重指数、性别和肌肉等因素进行协方差检验。所有参数的 ICC 均在 0.963 到 0.999 之间。在 1 小时内,水 T2 弛豫时间显著降低(P<10),约为 1 ms。多中心重复性的 ICC 在 0.879-0.917 之间,平均弥散系数的 ICC 最低。不同肌肉的协方差最高,解释了观察到的参数的 20-40%的变异。定量肌肉 MRI 数据的标准化采集和处理实现了中心之间的高度可比性。该成像方案在 1 小时内表现出较高的时间稳定性,除水 T2 弛豫时间外。这些结果表明,数据汇总是可行的,可以从神经肌肉疾病患者中收集数据,为罕见肌肉疾病的更大规模研究铺平了道路。
