定量磁共振成像揭示马拉松赛后大腿肌肉的微观结构变化。
Quantitative MRI Reveals Microstructural Changes in the Upper Leg Muscles After Running a Marathon.
作者信息
Hooijmans Melissa T, Monte Jithsa R C, Froeling Martijn, van den Berg-Faay Sandra, Aengevaeren Vincent L, Hemke Robert, Smithuis Frank F, Eijsvogels Thijs M H, Bakermans Adrianus J, Maas Mario, Nederveen Aart J, Strijkers Gustav J
机构信息
Amsterdam University Medical Centers, University of Amsterdam, Department of Biomedical Engineering and Physics, Amsterdam Movement Sciences, Amsterdam, Netherlands.
Amsterdam University Medical Centers, University of Amsterdam, Department of Radiology and Nuclear Medicine, Amsterdam Movement Sciences, Amsterdam, Netherlands.
出版信息
J Magn Reson Imaging. 2020 Aug;52(2):407-417. doi: 10.1002/jmri.27106. Epub 2020 Mar 7.
BACKGROUND
The majority of sports-related injuries involve skeletal muscle. Unlike acute trauma, which is often caused by a single traumatic event leading to acute symptoms, exercise-induced microtrauma may remain subclinical and difficult to detect. Therefore, novel methods to detect and localize subclinical exercise-induced muscle microtrauma are desirable.
PURPOSE
To assess acute and delayed microstructural changes in upper leg muscles with multiparametric quantitative MRI after running a marathon.
STUDY TYPE
Longitudinal; 1-week prior, 24-48 hours postmarathon and 2-week follow-up POPULATION: Eleven men participants (age: 47-68 years).
FIELD STRENGTH/SEQUENCE: Spin-echo echo planar imaging (SE-EPI) with diffusion weighting, multispin echo, Dixon, and fat-suppressed turbo spin-echo (TSE) sequences at 3T. MR datasets and creatine kinase (CK) concentrations were obtained at three timepoints.
ASSESSMENT
Diffusion parameters, perfusion fractions, and quantitative (q)T values were determined for hamstring and quadriceps muscles, TSE images were scored for acute injury. The vastus medialis and biceps femoris long head muscles were divided and analyzed in five segments to assess local damage.
STATISTICAL TESTS
Differences between timepoints in MR parameters were assessed with a multilevel linear mixed model and in CK concentrations with a Friedman test. Mean diffusivity (MD) and qT for whole muscle and muscle segments were compared using a multivariate analysis of covariance (MANCOVA).
RESULTS
CK concentrations were elevated (1194 U/L [166-3906], P < 0.001) at 24-48 hours postmarathon and returned to premarathon values (323 U/L [56-2216]) at 2-week follow-up. Most of the MRI diffusion indices in muscles without acute injury changed at 24-48 hours postmarathon and returned to premarathon values at follow-up (MD, RD, and λ3; P < 0.006). qT values (P = 0.003) and perfusion fractions (P = 0.003) were higher at baseline compared to follow-up. Local assessments of MD and qT revealed more pronounced changes than whole muscle assessment (2-3-fold; P < 0.01).
DATA CONCLUSION
Marathon running-induced microtrauma was detected with MRI in individual whole upper leg muscles and even more pronounced on local segments.
LEVEL OF EVIDENCE
2 TECHNICAL EFFICACY STAGE: 3 J. Magn. Reson. Imaging 2020;52:407-417.
背景
大多数与运动相关的损伤涉及骨骼肌。与通常由单一创伤事件导致急性症状的急性创伤不同,运动引起的微创伤可能仍处于亚临床状态且难以检测。因此,需要新的方法来检测和定位亚临床运动引起的肌肉微创伤。
目的
通过马拉松赛后多参数定量磁共振成像(MRI)评估大腿肌肉的急性和延迟微观结构变化。
研究类型
纵向研究;马拉松赛前1周、赛后24 - 48小时以及2周随访
研究对象
11名男性参与者(年龄:47 - 68岁)。
场强/序列:在3T场强下采用具有扩散加权的自旋回波平面成像(SE - EPI)、多自旋回波、狄克逊(Dixon)以及脂肪抑制快速自旋回波(TSE)序列。在三个时间点获取MR数据集和肌酸激酶(CK)浓度。
评估
测定腘绳肌和股四头肌的扩散参数、灌注分数以及定量(q)T值,对TSE图像进行急性损伤评分。将股内侧肌和股二头肌长头肌肉划分为五个节段进行分析以评估局部损伤。
统计检验
采用多级线性混合模型评估MR参数在各时间点之间的差异,采用弗里德曼检验评估CK浓度在各时间点之间的差异。使用多变量协方差分析(MANCOVA)比较全肌肉和肌肉节段的平均扩散率(MD)和qT。
结果
马拉松赛后24 - 48小时CK浓度升高(1194 U/L [166 - 3906],P < 0.001),在2周随访时恢复到赛前值(323 U/L [56 - 2216])。无急性损伤肌肉的大多数MRI扩散指数在马拉松赛后24 - 48小时发生变化,并在随访时恢复到赛前值(MD、RD和λ3;P < 0.006)。与随访相比,基线时qT值(P = 0.003)和灌注分数(P = 0.003)更高。MD和qT的局部评估显示变化比全肌肉评估更明显(2 - 3倍;P < 0.01)。
数据结论
通过MRI在个体全大腿肌肉中检测到马拉松跑步引起的微创伤,在局部节段更明显。
证据水平
2
技术效能阶段
3
《磁共振成像杂志》2020年;52:407 -
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