Department of Anesthesiology, University Medical Centre Regensburg, Franz-Josef-Strauss-Allee 11, 93053, Regensburg, Germany.
Centre for Clinical Studies, University Medical Centre, Regensburg, Germany.
J Clin Monit Comput. 2020 Dec;34(6):1343-1349. doi: 10.1007/s10877-019-00435-4. Epub 2019 Nov 30.
Acceleromyography is characterised by an increase of the twitch response T1 (first twitch of the train-of-four [TOF]) during first 30 min of monitoring known as the staircase phenomenon. In adults the staircase phenomenon can be avoided by tetanic prestimulation. This study examined, if tetanic prestimulation eliminates the staircase phenomenon in children. After written informed consent, the neuromuscular function of 80 children, 10 in each age group (< 6 months, 6-12 months, 12-24 months, 2-3 years, 3-6 years, 6-12 years, 12-18 years, and ≥ 18 years) was measured on both arms simultaneously over 30 min under general anaesthesia. The ulnaris nerve was stimulated using the TOF technique every 15 s. The twitch response (T1, TOF ratio [TOFR]) was measured by acceleromyography. Before calibration, tetanic prestimmulation (50 Hz for 5 s) was administered to one randomly selected arm. The effect of tetanic prestimulation and age was analysed using general linear models based on the normalized T1 and TOFRs of both arms. Tetanic prestimulation significantly affected T1 values avoiding the staircase phenomenon (p < 0.0001). After 5.8 min [1.0-17.2 min] the normalized T1 values increased to 117% [102-147%] without prestimulation (p < 0.0001) independent of the age group (p = 0.539). The normalized TOFR was stable throughout the observation period of 30 min 100% [95-107%]. Infants (> 12 weeks), children, and young adults (< 18 years) develop similar characteristics of the staircase phenomenon than adults. Tetanic prestimulation prevents the staircase phenomenon in these age groups. The stability of the TOFR reading confirms its value to monitor neuromuscular function over time.Registration: The study was registered as NCT02552875 on Clinical Trials.gov on July 29, 2014.
肌动描记术的特点是在监测的前 30 分钟内(即四串波[TOF]的第一个抽搐)出现 T1 (第一个抽搐)反应增加,称为阶梯现象。在成年人中,可以通过强直刺激预刺激来避免阶梯现象。本研究检查了强直刺激预刺激是否可以消除儿童中的阶梯现象。在获得书面知情同意后,同时在全身麻醉下对 80 名儿童(每组 10 名)的神经肌肉功能进行了测量,< 6 个月,6-12 个月,12-24 个月,2-3 岁,3-6 岁,6-12 岁,12-18 岁,和≥18 岁),在 30 分钟内每隔 15 秒通过 TOF 技术刺激尺神经。使用肌动描记术测量抽搐反应(T1,TOF 比[TOFR])。在校准之前,将强直刺激预刺激(50 Hz 持续 5 s)施用于一只随机选择的手臂。使用基于两只手臂的归一化 T1 和 TOFR 的一般线性模型分析强直刺激预刺激和年龄的影响。强直刺激预刺激显着影响 T1 值,从而避免了阶梯现象(p <0.0001)。在没有预刺激的情况下,经过 5.8 分钟[1.0-17.2 分钟],归一化 T1 值增加到 117%[102-147%](p <0.0001),与年龄组无关(p = 0.539)。在整个 30 分钟的观察期间,归一化的 TOFR 保持稳定,为 100%[95-107%]。婴儿(> 12 周),儿童和年轻成年人(< 18 岁)与成年人一样,表现出类似的阶梯现象特征。强直刺激预刺激可防止这些年龄段出现阶梯现象。TOFR 读数的稳定性证实了其在随时间监测神经肌肉功能方面的价值。注册:该研究于 2014 年 7 月 29 日在 ClinicalTrials.gov 上以 NCT02552875 号注册。
