Rationale: Diaphragm inactivity during invasive mechanical ventilation may predispose the lung and diaphragm to injury, and is associated with adverse clinical outcomes.
Objectives: Assess the feasibility of continuous on-demand diaphragm neurostimulation-assisted mechanical ventilation to maintain diaphragm activity in the absence of respiratory drive for at least 24 hours of mechanical ventilation.
Methods: In a single center phase 1 clinical trial, patients receiving invasive mechanical ventilation for acute hypoxemic respiratory failure or after thoracic surgery underwent transvenous diaphragm neurostimulation delivered in synchrony with mechanical ventilation. Diaphragm neurostimulation was delivered when breaths were initiated by the ventilator and not by the patient until a successful spontaneous breathing trial was performed or for up to seven days. The co-primary outcomes were safety and feasibility of maintaining diaphragm activity over the first 24 hours of intervention.
Measurements and main results: Twenty participants were enrolled and 19 underwent study procedures. Diaphragm neurostimulation was successfully initiated in all 19 patients (100%) and on-target diaphragm activity was maintained for ≥50% of hours of passive mechanical ventilation over the initial 24-hour period in 18/19 (95%) patients. Diaphragm neurostimulation was well-tolerated; one pneumothorax unrelated to device occurred following subclavian catheter placement prior to surgery. Over the 7-day study period, diaphragm activity was maintained during a median of 100% (IQR 95-100%) hours with absent respiratory drive.
Conclusions: Continuous on-demand diaphragm neurostimulation-assisted mechanical ventilation is feasible and can prevent diaphragm inactivity during mechanical ventilation. Clinical trial registration available at www.
Clinicaltrials: gov, ID: NCT05465083.
Keywords: Diaphragm; Lung injury; Phrenic nerve; Respiratory failure; Respiratory muscles.