Frontiers in Pediatrics (Nov 2014)

Impact of ventilatory modes on the breathing variability in mechanically ventilated infants.

  • Florent eBAUDIN,
  • Hau-Tieng eWU,
  • Alice eBORDESSOULE,
  • Jennifer eBECK,
  • Jennifer eBECK,
  • Philippe eJOUVET,
  • Martin eFRASCH,
  • Martin eFRASCH,
  • Guillaume eEMERIAUD

DOI
https://doi.org/10.3389/fped.2014.00132
Journal volume & issue
Vol. 2

Abstract

Read online

Objectives: Reduction of breathing variability is associated with adverse outcome. During mechanical ventilation, the variability of ventilatory pressure is dependent on the ventilatory mode. During neurally adjusted ventilatory assist (NAVA), the support is proportional to electrical activity of diaphragm (EAdi), which reflects the respiratory center output. The variability of EAdi is therefore translated into a similar variability in pressures. Contrastingly, conventional ventilatory modes deliver less variable pressures. The impact of the mode on the patient’s own respiratory drive is less clear. This study aims to compare the impact of NAVA, pressure-control (PCV) and pressure-support ventilation (PSV) on the respiratory drive patterns in infants. We hypothesized that on NAVA, EAdi variability resembles most the endogenous respiratory drive pattern seen in a control group.Methods: EAdi was continuously recorded in 10 infants ventilated successively on NAVA (5 hours), PCV (30 min), and PSV (30 min). During the last 10 minutes of each period, the EAdi variability pattern was assessed using non-rhythmic to rhythmic index (NRR). These variability profiles were compared to the pattern of a control group of 11 spontaneously breathing and non-intubated infants.Results: In control infants, NRR was higher as compared to mechanically ventilated infants (p<0.001), and NRR pattern was relatively stable over time. While the temporal stability of NRR was similar in NAVA and controls, the NRR profile was less stable during PCV. PSV exhibited an intermediary pattern. Perspectives: Mechanical ventilation impacts the breathing variability in infants. NAVA produces EAdi pattern resembling most that of control infants. NRR can be used to characterize respiratory variability in infants. Larger prospective studies are necessary to understand the differential impact of the ventilatory modes on the cardio-respiratory variability and to study their impact on clinical outcomes.

Keywords