The Effect of Inspiratory Effort on Circuit Compensation for Volume-Targeted Modes

BACKGROUND: Critical-care ventilators provide patient circuit compensation (CC) to counteract the loss of volume due to patient circuit compliance. No studies show the effect of inspiratory efforts (indicating maximal value of the muscle pressure waveforms [P_max]) on CC function. The goal of this study was to determine how P_max affects volume delivery with or without CC for both volume control continuous mandatory ventilation with set-point targeting scheme (VC-CMVs) and pressure control continuous mandatory ventilation with adaptive targeting scheme (PC-CMVa) modes on the Servo-u ventilator.

METHODS: A breathing simulator was programmed to represent an adult with moderate ARDS with different P_max. It was connected to a ventilator set to VC-CMVs or PC-CMVa. The change in tidal volume (ΔV_T) was defined as the difference between V_T with CC on versus off. V_T error was defined as the difference between the simulator displayed V_T and the set V_T with CC on versus off.

RESULTS: For both VC-CMVs and PC-CMVa modes, ΔV_T decreased as P_max increased. The V_T error decreased as P_max increas-ed for VC-CMVs. In contrast, V_T error increased on PC-CMVa mode as P_max increased and peaked 39.0% for P_max = 15 cm H₂O. For both modes, the difference in V_T errors for CC on versus CC off decreased as P_max increased.

CONCLUSIONS: CC corrected the delivered V_T for volume lost due to compression in the patient circuit as expected. This compensation volume decreases as airway pressure drops due to patient P_max.