表面肌电图定量评估机械通气患儿的神经呼吸驱动和神经机械耦联。
Surface electromyography to quantify neuro-respiratory drive and neuro-mechanical coupling in mechanically ventilated children.
机构信息
Division of Paediatric Critical Care Medicine, Department of Paediatrics, Beatrix Children's Hospital, University Medical Center Groningen, University of Groningen, Hanzeplein 1, 9713 GZ, Groningen, The Netherlands.
Cardiovascular and Respiratory Physiology Group, TechMed Centre, University of Twente, Enschede, The Netherlands.
出版信息
Respir Res. 2023 Mar 13;24(1):77. doi: 10.1186/s12931-023-02374-w.
BACKGROUND
The patient's neuro-respiratory drive, measured as electrical activity of the diaphragm (EAdi), quantifies the mechanical load on the respiratory muscles. It correlates with respiratory effort but requires a dedicated esophageal catheter. Transcutaneous (surface) monitoring of respiratory muscle electromyographic (sEMG) signals may be considered a suitable alternative to EAdi because of its non-invasive character, with the additional benefit that it allows for simultaneously monitoring of other respiratory muscles. We therefore sought to study the neuro-respiratory drive and timing of inspiratory muscles using sEMG in a cohort of children enrolled in a pediatric ventilation liberation trial. The neuro-mechanical coupling, relating the pressure generated by the inspiratory muscles to the sEMG signals of these muscles, was also calculated.
METHODS
This is a secondary analysis of data from a randomized cross-over trial in ventilated patients aged < 5 years. sEMG recordings of the diaphragm and parasternal intercostal muscles (ICM), esophageal pressure tracings and ventilator scalars were simultaneously recorded during continuous spontaneous ventilation and pressure controlled-intermittent mandatory ventilation, and at three levels of pressure support. Neuro-respiratory drive, timing of diaphragm and ICM relative to the mechanical ventilator's inspiration and neuro-mechanical coupling were quantified.
RESULTS
Twenty-nine patients were included (median age: 5.9 months). In response to decreasing pressure support, both amplitude of sEMG (diaphragm: p = 0.001 and ICM: p = 0.002) and neuro-mechanical efficiency indices increased (diaphragm: p = 0.05 and ICM: p < 0.001). Poor correlations between neuro-respiratory drive and respiratory effort were found, with R: 0.088 [0.021-0.152].
CONCLUSIONS
sEMG allows for the quantification of the electrical activity of the diaphragm and ICM in mechanically ventilated children. Both neuro-respiratory drive and neuro-mechanical efficiency increased in response to lower inspiratory assistance. There was poor correlation between neuro-respiratory drive and respiratory effort.
TRIAL REGISTRATION
ClinicalTrials.gov ID NCT05254691. Registered 24 February 2022, registered retrospectively.
背景
患者的神经呼吸驱动,以膈肌的电活动(EAdi)来衡量,量化了呼吸肌的机械负荷。它与呼吸努力相关,但需要专用的食管导管。经皮(表面)监测呼吸肌肌电图(sEMG)信号可能被认为是 EAdi 的合适替代方法,因为它具有非侵入性,并且还有额外的好处,即它允许同时监测其他呼吸肌。因此,我们试图在参加小儿通气解放试验的患儿队列中使用 sEMG 研究吸气肌的神经呼吸驱动和时间。还计算了将吸气肌产生的压力与这些肌肉的 sEMG 信号相关联的神经机械耦合。
方法
这是一项针对 5 岁以下机械通气患者的随机交叉试验数据的二次分析。在连续自主通气和压力控制间歇强制通气期间,以及在三个压力支持水平下,同时记录膈肌和胸骨旁肋间肌(ICM)的 sEMG 记录、食管压力描记和呼吸机标测。量化了神经呼吸驱动、膈肌和 ICM 相对于机械呼吸机吸气的时间以及神经机械耦合。
结果
共纳入 29 例患者(中位年龄:5.9 个月)。随着压力支持的降低,sEMG 幅度(膈肌:p=0.001 和 ICM:p=0.002)和神经机械效率指数均增加(膈肌:p=0.05 和 ICM:p<0.001)。神经呼吸驱动与呼吸努力之间的相关性较差,R:0.088[0.021-0.152]。
结论
sEMG 可用于量化机械通气儿童的膈肌和 ICM 的电活动。神经呼吸驱动和神经机械效率都随着吸气辅助的降低而增加。神经呼吸驱动与呼吸努力之间相关性较差。
试验注册
ClinicalTrials.gov ID NCT05254691。于 2022 年 2 月 24 日注册,回顾性注册。
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