Effects of Ventilatory Settings on Pendelluft Phenomenon During Mechanical Ventilation

Respir Care. 2021 Jan;66(1):1-10. doi: 10.4187/respcare.07880. Epub 2020 Sep 8.

Abstract

Background: Pendelluft phenomenon is defined as the displacement of gas from a more recruited nondependent (ND) lung region to a less recruited dependent (D) lung region. This phenomenon may cause lung injury. Thus, a lung model for pendelluft was established, and the effects of ventilatory settings on pendelluft were examined.

Methods: Two sets of the twin-bellows-type training test lung (TTL) model were utilized. One set of bellows simulated the diaphragm, and the other simulated the lung. One TTL model represented the ND region, and the other represented the D region. The lung bellows were connected to each other and were ventilated with 1 ventilator. The diaphragm bellows were ventilated with 2 synchronized ventilators that regulated pleural pressure levels. We simulated pendelluft by applying different pleural pressure levels to the D and ND bellows. The increment of the tidal volume in the D region from the "no breathing effort" condition was defined as the pendelluft volume. The effects of ventilator settings, such as ventilatory modes, triggering sensitivity, inspiratory pressurization, and inspiratory cycling-off, were examined. The changes in tidal volumes in the D region based on the control settings were compared to assess the severity of pendelluft.

Results: The gas flow from the D region to the ND region was found to be essential in pendelluft, but the severity of this phenomenon was not always proportional to gas flows. The severity increased with the increase in the differences in pleural pressure levels between the ND and D regions, and it was amplified by the difference in lung mechanics between the ND and D regions. However, the ventilator settings had minimal effect on the severity of pendelluft.

Conclusions: The pendelluft was affected by the heterogeneity of lung mechanics and pleural pressure. Furthermore, a minimal association was observed between the ventilator settings and the severity of pendelluft.

Keywords: inspiratory cycling-off; inspiratory pressurization; model lung; pendelluft phenomenon; pleural pressure; triggering sensitivity; ventilatory modes.

Publication types

  • Editorial

MeSH terms

  • Humans
  • Lung
  • Lung Injury*
  • Respiration, Artificial*
  • Tidal Volume
  • Ventilators, Mechanical