利用体素内不相干运动(IVIM)MR 灌注成像技术对行走和跑步时下肢肌肉激活模式进行特征描述。
Characterization of lower limb muscle activation patterns during walking and running with Intravoxel Incoherent Motion (IVIM) MR perfusion imaging.
机构信息
Department of Radiology, Balgrist University Hospital, University of Zurich, Forchstrasse 340, 8008 Zurich, Switzerland; Department of Diagnostic and Interventional Radiology, Medical Center - University of Freiburg, Faculty of Medicine, University of Freiburg, Germany.
Department of Radiology, Balgrist University Hospital, University of Zurich, Forchstrasse 340, 8008 Zurich, Switzerland.
出版信息
Magn Reson Imaging. 2019 Nov;63:12-20. doi: 10.1016/j.mri.2019.07.016. Epub 2019 Jul 26.
BACKGROUND
The distribution of energy use among different lower limb muscles during walking and running is not well understood. Local blood flow within skeletal muscle tissue depends on its metabolic activity during activation. The non-invasive magnetic resonance microvascular perfusion method Intravoxel Incoherent Motion (IVIM) is able to quantify muscle activation.
PURPOSE
To non-invasively determine quantitative changes in local microvascular perfusion and blood flow via IVIM in order to characterize specific muscle activation of the lower limb at rest, during walking and during running.
METHODS
3 T MR IVIM diffusion-weighted images of N = 16 lower extremities (bilateral imaging of n = 8 healthy volunteers; mean age 27.5 ± 5.7 years) were acquired at rest and immediately after walking and running for 15 min, respectively. A transverse monopolar pulsed gradient fat suppressed spin echo EPI sequence was used (9 b-values from 0 to 1000s/mm, 3 orthogonal directions). Anatomical transverse T1-weighted turbo SE images were acquired at rest. Muscles at the pelvis, thigh and lower leg were segmented. IVIM perfusion parameters f, D* and fD* and the diffusion coefficient D were obtained after standard two-steps fitting of the IVIM bi-exponential signal equation. Descriptive statistics, t-tests, Pearson's correlations and Partial Spearman correlations were used for statistical analyses.
RESULTS
The microvascular blood flow (fD*) increased significantly and stepwise from rest (1.65 ± 0.8310 mm/s) to walking (1.99 ± 0.8010 mm/s, P < 0.001) and running (2.18 ± 0.9810 mm/s, P < 0.001). The perfusion increase was most pronounced for lower leg and feet muscles (P < 0.001). Hamstring muscles showed a higher microvascular perfusion increase than quadriceps muscles (P < 0.05). A higher increase of the heartrate from walking to running correlated significantly with a lower increase of fD from walking to running (R = -0.16, P = 0.001).
CONCLUSION
IVIM MRI quantitatively measures local microvascular muscle perfusion to detect muscle activation patterns through walking and running. A redistribution of blood flow towards the lower leg was observed during running as compared to walking.
背景
行走和跑步时不同下肢肌肉的能量利用分布尚不清楚。骨骼肌肉组织内的局部血流取决于其在激活过程中的代谢活性。非侵入性磁共振微血管灌注方法体素内不相干运动(IVIM)能够定量评估肌肉激活。
目的
通过 IVIM 无创地确定局部微血管灌注和血流的定量变化,以在休息、行走和跑步时对下肢特定肌肉的激活进行特征描述。
方法
使用 3T MR IVIM 扩散加权图像对 16 条下肢(8 名健康志愿者的双侧成像;平均年龄 27.5±5.7 岁)进行成像,分别在休息时和行走和跑步后立即进行 15 分钟。使用横向单极脉冲梯度脂肪抑制自旋回波 EPI 序列(9 个 b 值范围从 0 到 1000 s/mm,3 个正交方向)。在休息时采集横向 T1 加权涡轮 SE 图像。对骨盆、大腿和小腿的肌肉进行分段。IVIM 灌注参数 f、D* 和 fD* 以及扩散系数 D 在 IVIM 双指数信号方程的标准两步拟合后获得。统计分析采用描述性统计、t 检验、皮尔逊相关和偏 Spearman 相关。
结果
微脉管血流(fD*)从休息时(1.65±0.8310mm/s)逐渐显著增加至行走(1.99±0.8010mm/s,P<0.001)和跑步(2.18±0.9810mm/s,P<0.001)。小腿和足部肌肉的灌注增加最为明显(P<0.001)。比目鱼肌的微脉管灌注增加高于股四头肌(P<0.05)。从行走到跑步时心率的增加与从行走到跑步时 fD的增加呈负相关(R=-0.16,P=0.001)。
结论
IVIM MRI 定量测量局部微血管肌肉灌注,以通过行走和跑步检测肌肉激活模式。与行走相比,跑步时观察到血流向小腿重新分布。
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