通过磁共振体素内不相干运动灌注成像评估急性缺血兔模型中的骨骼肌微循环。

Evaluation of skeletal muscle microcirculation via magnetic resonance intravoxel incoherent motion perfusion imaging in an acute ischemia rabbit model.

作者信息

Song Guoping, Song Xinyu, Wang Jienan, Zhao Xiance, Shen Junkang

机构信息

Department of Radiology, The Second Affiliated Hospital of Soochow University, Suzhou, China.

Department of Interventional Radiology, Shanghai Sixth People's Hospital Affiliated to Shanghai Jiao Tong University School of Medicine, Shanghai, China.

出版信息

Quant Imaging Med Surg. 2025 Sep 1;15(9):8064-8078. doi: 10.21037/qims-2025-711. Epub 2025 Aug 13.

DOI:10.21037/qims-2025-711

PMID:40893518

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12397635/

Abstract

BACKGROUND

Acute limb ischemia (ALI) necessitates prompt intervention to prevent severe complications such as amputation. Current clinical assessments lack reliable quantitative methods for gauging skeletal muscle ischemia severity. Intravoxel incoherent motion (IVIM) perfusion imaging is a noninvasive approach for quantifying microvascular perfusion. We aimed to assess microcirculation alterations in rabbit vastus lateralis muscle following acute ischemia using IVIM.

METHODS

Acute ischemia models were established in 25 New Zealand white rabbits through arterial ligation of their right hind legs. Magnetic resonance imaging (MRI) examinations of the vastus lateralis muscle were conducted hourly postsurgery for a duration of 7 hours. The scan sequences included IVIM, adenosine triphosphate (APT), T1-weighted imaging (T1WI), T2-weighted imaging with fat suppression (T2WI-FS), T2 mapping, and diffusion-weighted imaging (DWI). The correlations between MRI results, ischemic time, and pathological changes were analyzed.

RESULTS

The perfusion fraction (f) of ischemic muscle significantly decreased from 6.19%±1.13% at 1 hour to 2.50%±0.64% at 7 hours (control: 7.19%±1.03%), representing a strong negative correlation with ischemic duration (r=-0.790). The true diffusion coefficient (D) remained relatively stable [(1.41-1.46)×10 mm/s] but was slightly elevated compared to controls. The pseudo-diffusion coefficient (D*) showed a sharp increase at 5 hours [(74.01±5.79)×10 mm/s]; control: [(61.28±9.31)×10 mm/s], followed by a drop at 6 hours [(59.44±15.77)×10 mm/s], suggesting sudden structural changes, which were confirmed by histopathology. T2WI-FS and DWI showed increased signal intensity in ischemic muscle, with the T2 relaxation times being significantly elevated (P<0.001) and positively correlated with ischemic duration (r=0.807). Apparent diffusion coefficient (ADC) values also increased with time (r=0.623). The amide proton transfer effect was enhanced in ischemic skeletal muscle throughout the 2-7-hour post-ischemic period (ischemic: 2.26%±0.39% at the 7th hour . control: 1.77%±0.33%; P<0.05).

CONCLUSIONS

MRI effectively visualizes and detects skeletal muscle ischemia, with IVIM-derived f values providing a quantitative measure of microcirculatory impairment. D* potentially serves as a biomarker for identifying irreversible muscle fiber damage and may be a valuable tool for the quantitative assessment of ischemic injury to skeletal muscle.

摘要

背景

急性肢体缺血（ALI）需要及时干预以预防诸如截肢等严重并发症。目前的临床评估缺乏可靠的定量方法来衡量骨骼肌缺血的严重程度。体素内不相干运动（IVIM）灌注成像是一种用于量化微血管灌注的非侵入性方法。我们旨在使用IVIM评估急性缺血后兔股外侧肌的微循环改变。

方法

通过结扎25只新西兰白兔的右后腿动脉建立急性缺血模型。术后每小时对股外侧肌进行磁共振成像（MRI）检查，持续7小时。扫描序列包括IVIM、三磷酸腺苷（APT）、T1加权成像（T1WI）、脂肪抑制T2加权成像（T2WI-FS）、T2图谱和扩散加权成像（DWI）。分析MRI结果、缺血时间和病理变化之间的相关性。

结果

缺血肌肉的灌注分数（f）从1小时时的6.19%±1.13%显著降至7小时时的2.50%±0.64%（对照组：7.19%±1.03%），与缺血持续时间呈强负相关（r=-0.790）。真实扩散系数（D）保持相对稳定[（1.41-1.46）×10⁻³mm²/s]，但与对照组相比略有升高。伪扩散系数（D*）在5小时时急剧增加[（74.01±5.79）×10⁻³mm²/s]；对照组：[（61.28±9.31）×10⁻³mm²/s]，随后在6小时时下降[（59.44±15.77）×10⁻³mm²/s]，提示结构突然改变，这在组织病理学上得到证实。T2WI-FS和DWI显示缺血肌肉信号强度增加，T2弛豫时间显著升高（P<0.001），并与缺血持续时间呈正相关（r=0.807）。表观扩散系数（ADC）值也随时间增加（r=0.623）。在缺血后2至7小时的整个时间段内，缺血骨骼肌中的酰胺质子转移效应增强（缺血组：第7小时为2.26%±0.39%。对照组：1.77%±0.33%；P<0.05）。