健康志愿者在标准跑步机测试前后小腿肌肉超声引导下的可压缩性
Ultrasound-Guided Lower Leg Muscle Compressibility Before and After a Standard Treadmill Test in Healthy Volunteers.
作者信息
van Heeswijk Kay, van Essen Bert, Janssen Loes, Winkes Michiel, Scheltinga Marc
机构信息
Department of Surgery, Máxima Medical Center, P.O. Box 7777, Veldhoven 5500 MB, The Netherlands.
Department of Sports Medicine, Máxima Medical Center, P.O. Box 7777, Veldhoven 5500 MB, The Netherlands.
出版信息
Mil Med. 2025 Sep 1;190(Supplement_2):174-179. doi: 10.1093/milmed/usaf138.
INTRODUCTION
Military personnel on duty or engaged in sports activities may experience exercise-induced lower leg pain (ELP). If history and physical examination suggest chronic exertional compartment syndrome (CECS) and conservative treatments prove ineffective, a muscle compartment pressure measurement is advised. However, this test is invasive with suboptimal test characteristics. Aim of this study is to determine whether a novel noninvasive soft tissue compressibility analysis using ultrasound can detect changes in anterior tibial muscle (ATM) compartment thickness and compressibility following a standardized treadmill test.
METHODS
Healthy volunteers without ELP underwent serial ultrasound measurements of the ATM during rest and after treadmill walking (5.5 km/h, slope 15%). Compartment thickness, defined as the distance between the superficial fascia and two different deep landmarks (interosseous membrane (IM), or transition zone IM to tibia (TZIT)) was measured with 10 mmHg (d10) and 80 mmHg (d80) external probe pressure. Compartment compressibility was calculated as a ratio (d10-d80)/d10*100%.
RESULTS
Healthy volunteers (n = 70, males n = 28, age 19-72 years) were included (IM n = 35; TZIT n = 35). Compartment thickness (d80) during rest, 1- and 5-minutes post-exercise with IM as internal landmark was 25.9mm (±2.7), 27.0mm (±3.1; p < .01), and 26.5mm (±2.7; p < .01), respectively. Using TZIT as landmark, these values were 22.2 mm (±3.1), 23.8 mm (±3.7; p < .01) and 23.0 mm (±3.7; p < .07). Compartment compressibility with the IM as landmark during rest was 9.5% (±2.5) and did not significantly change post-exercise (p = 0.45). Using TZIT, compressibility was 15.0% (±4.2) at rest, and decreased to 13.1% (±3.8; p = .02) and 14.1% (±4.5; p = .21) 1- and 5 min post-exercise, respectively.
CONCLUSIONS
Soft tissue compressibility analysis using ultrasound successfully detected changes in ATM compartment thickness following a standard treadmill test. Changes in muscle compressibility depended on type of internal anatomical landmark used. Future research focuses on lower leg muscle compressibility in individuals with exercise-induced leg pain.
引言
执勤或从事体育活动的军事人员可能会经历运动引起的小腿疼痛(ELP)。如果病史和体格检查提示慢性运动性肌间隔综合征(CECS)且保守治疗无效,则建议进行肌间隔压力测量。然而,该测试具有侵入性且测试特征欠佳。本研究的目的是确定一种使用超声的新型非侵入性软组织压缩性分析是否能够检测标准化跑步机测试后胫骨前肌(ATM)肌间隔厚度和压缩性的变化。
方法
无ELP的健康志愿者在休息时以及跑步机行走(5.5公里/小时,坡度15%)后接受ATM的系列超声测量。肌间隔厚度定义为浅筋膜与两个不同深部标志(骨间膜(IM)或IM至胫骨的过渡区(TZIT))之间的距离,在外部探头压力为10 mmHg(d10)和80 mmHg(d80)时进行测量。肌间隔压缩性计算为比率(d10 - d80)/d10*100%。
结果
纳入健康志愿者(n = 70,男性n = 28,年龄19 - 72岁)(IM组n = 35;TZIT组n = 35)。以IM作为内部标志时,休息时、运动后1分钟和5分钟的肌间隔厚度(d80)分别为25.9mm(±2.7)、27.0mm(±3.1;p <.01)和26.5mm(±2.7;p <.01)。以TZIT作为标志时,这些值分别为22.2mm(±3.1)、23.8mm(±3.7;p <.01)和23.0mm(±3.7;p <.07)。以IM作为标志时,休息时肌间隔压缩性为9.5%(±2.5),运动后无显著变化(p = 0.45)。以TZIT作为标志时,休息时压缩性为15.0%(±4.2),运动后1分钟和5分钟分别降至13.1%(±3.8;p =.02)和14.1%(±4.5;p =.21)。
结论
使用超声的软组织压缩性分析成功检测到标准化跑步机测试后ATM肌间隔厚度的变化。肌肉压缩性的变化取决于所使用的内部解剖标志类型。未来的研究重点是运动引起的腿部疼痛个体的小腿肌肉压缩性。
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