作为急性骨筋膜室综合征实验模型中肌肉缺血的一种非侵入性连续监测技术的肌音描记法。

Phonomyography as a non-invasive continuous monitoring technique for muscle ischemia in an experimental model of acute compartment syndrome.

作者信息

Martinez Adriana P, Moser Thomas P, Saran Neil, Paquet Marilène, Hemmerling Thomas, Berry Greg K

机构信息

Department of Orthopaedic Surgery, McGill University, Montreal, Canada.

Department of Radiology, Université de Montréal, Montreal, Canada.

出版信息

Injury. 2017 Nov;48(11):2411-2416. doi: 10.1016/j.injury.2017.08.051. Epub 2017 Aug 26.

DOI:10.1016/j.injury.2017.08.051

PMID:28867642

Abstract

BACKGROUND

In acute compartment syndrome (ACS), clinicians have difficulty diagnosing muscle ischemia provoked by increased intra-compartmental pressure in a timely and non-invasive manner. Phonomyography records the acoustic signal produced by muscle contraction. We hypothesize that alterations in muscle contraction caused by muscle ischemia can be detected with phonomyography, serving as a potential non-invasive technique in the detection of ACS.

METHODS

The left hind limb of 15 Sprague-Dawley rats was submitted to a reversible ischemic model of limb injury for 30min and 1, 2, 4, 6h (3 rats in each group). The right limb served as control. Phonomyography microphones were placed over the posterior calf of both limbs and the sciatic nerve was stimulated percutaneously at 10-min intervals to evaluate muscle contraction. Histopathological analysis of muscles and nerves biopsies was performed and correlation was made between duration of injury, phonomyography output and degree of muscle and nerve necrosis.

RESULTS

There was a statistically significant decrease in the phonomyography signal output in the ischemic limb that correlated with the duration of ischemia and histological findings of muscle and nerve necrosis. The phonomyography signal decrease and histological findings were respectively: 55.5% (n=15;p=0.005) with rare muscle and nerve necrosis at 30min, 65.6% (n=12;p=0.005) with 5-10% muscle necrosis at 1h, 68.4% (n=9;p=0.015) with 100% muscle necrosis and little nerve damage at 2h, 72.4% (n=6;p=0.028) with 100% muscle necrosis and severe nerve damage at 4h, and 92.8% (n=3;p=0.109) with 100% muscle necrosis and severe nerve degeneration at 6h.

CONCLUSION

Changes in phonomyography signal are observed in early ischemic injury prior to the onset of nerve or muscle necrosis. Therefore, phonomyography could serve as a non-invasive technique to detect early ischemic muscle changes in acute compartment syndrome.

CLINICAL RELEVANCE

The detection of abnormal muscle contraction in a timely fashion and non-invasive manner is of interest in clinical settings where the presence of ischemia is not easy to diagnose.

摘要

背景

在急性骨筋膜室综合征（ACS）中，临床医生难以及时、非侵入性地诊断因骨筋膜室内压力升高引发的肌肉缺血。肌音图记录肌肉收缩产生的声学信号。我们假设，通过肌音图能够检测到由肌肉缺血引起的肌肉收缩变化，这可作为一种检测ACS的潜在非侵入性技术。

方法

对15只Sprague-Dawley大鼠的左后肢建立可逆性肢体缺血损伤模型，分别持续30分钟以及1、2、4、6小时（每组3只大鼠）。右肢作为对照。将肌音图麦克风置于双下肢小腿后侧，每隔10分钟经皮刺激坐骨神经以评估肌肉收缩情况。对肌肉和神经活检组织进行组织病理学分析，并分析损伤持续时间、肌音图输出与肌肉和神经坏死程度之间的相关性。

结果

缺血肢体的肌音图信号输出出现统计学显著下降，这与缺血持续时间以及肌肉和神经坏死的组织学结果相关。肌音图信号下降情况及组织学结果分别为：30分钟时，信号下降55.5%（n = 15；p = 0.005），肌肉和神经坏死罕见；1小时时，信号下降65.6%（n = 12；p = 0.005），肌肉坏死5%-10%；2小时时，信号下降68.4%（n = 9；p = 0.015），肌肉坏死100%，神经损伤轻微；4小时时，信号下降72.4%（n = 6；p = 0.028），肌肉坏死100%，神经损伤严重；6小时时，信号下降92.8%（n = 3；p = 0.109），肌肉坏死100%，神经严重变性。