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Surface electromyography to quantify neuro-respiratory drive and neuro-mechanical coupling in mechanically ventilated children

Alette A. Koopman, Jefta van Dijk, Eline Oppersma, Robert G. T. Blokpoel, Martin C. J. Kneyber

2023Respiratory Research10 citationsDOIOpen Access PDF

Abstract

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: : 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.

Topics & Concepts

Diaphragm (acoustics)Mechanical ventilationMedicineRespiratory systemParasternal lineVentilation (architecture)Pressure support ventilationElectromyographyAnesthesiaCardiologyInternal medicinePhysical medicine and rehabilitationPhysicsAcousticsLoudspeakerMechanical engineeringEngineeringRespiratory Support and MechanismsChronic Obstructive Pulmonary Disease (COPD) ResearchIntensive Care Unit Cognitive Disorders
Surface electromyography to quantify neuro-respiratory drive and neuro-mechanical coupling in mechanically ventilated children | Litcius