Ultrasound evaluation of acute compartment syndrome: Based on healthy volunteers
10.3760/cma.j.issn.1671-0282.2021.12.012
- VernacularTitle:基于健康人急性骨筋膜室综合征模型的超声监测价值研究
- Author:
Shaoyun LIU
1
;
Jingyu YOU
;
Yingnan ZENG
;
Mao ZHANG
Author Information
1. 浙江大学医学院附属第二医院急诊医学科 浙江大学急救医学研究所,杭州 310009
- Keywords:
Acute compartment syndrome;
Model;
Health volunteer;
Ultrasonography;
Doppler frequency spectrum analysis
- From:
Chinese Journal of Emergency Medicine
2021;30(12):1476-1483
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the application value of ultrasound in the early noninvasive monitoring of acute compartment syndrome model, and to provide reference for further clinical applications.Methods:This was a prospective self-controlled study. A model of healthy volunteers with acute compartment syndrome was established by cuff compression. The random method was used to determine the experimental side and the control side. The experimental side cuff was given 0, 20, 30, 40, 50, 60, 70, and 80 mmHg pressure in sequence, while the control side cuff was kept uncompressed at all times. Each pressure on the experimental side lasted for 5 min, during which the ultrasound was used to measure the blood flow waveform and vascular structure of the bilateral popliteal artery, popliteal vein and dorsal plantar artery. Statistical analysis was performed using repeated measures analysis of variance and multivariate analysis of variance.Results:The study included 25 healthy volunteers. There was no statistically significant difference in calf circumference and anterior tibial compartment thickness ( P = 0.314 and 0.678). During compression, the volunteers' heart rate and blood pressure were stable ( P = 0.235 and 0.358). On the experimental side, the maximum blood flow velocity of the popliteal artery during systole increased with the increase of pressure ( P<0.001), and the minimum blood flow velocity of the popliteal artery increased with the increase of pressure ( P<0.001). When pressurized by 30 mmHg, the maximum blood flow velocity of the popliteal artery on the experimental side was significantly higher than that on the control side [(73 ± 19) cm/s vs (59 ± 14) cm/s, P=0.023)]. When pressurized by 20 mmHg, the minimum blood flow velocity of the popliteal artery on the experimental side was significantly higher than that on the control side [(-28 ± 8) cm/s vs (-22 ± 6) cm/s, P=0.012)]. With the increase of pressure, the diastolic retrograde arterial flow ratio of the experimental side gradually increased ( P <0.001), and when the pressure was increased by 20 mmHg, the diastolic retrograde arterial flow ratio of the experimental side of the popliteal artery increased significantly [(0.42 ± 0.14) cm/s vs (0.30 ± 0.12) cm/s, P=0.009)]. The systolic prograde arterial flow ratio of the dorsal artery in the experimental side decreased with the increase of pressure ( P = 0.024). Conclusions:Increased limb compartment pressure can significantly change the arterial flow waveform of the proximal and distal arteries, and ultrasound can be used as an early monitoring tool for acute compartment syndrome.
