Effort and volume dependence of forced deflation flow-volume
relationships in intubated infants.
Hammer, J[umlaut]urg, Christopher J. L. Newth.
Division of Pediatric Critical Care, Children's Hospital Los
Angeles, University of Southern California Medical School, Los
Angeles, CA 90027
APStracts 2:0377A, 1995.
The application of negative pressure to the airway opening (called the
forced deflation (FD) technique) allows the examination of maximal
expiratory flow volume (MEFV) curves in intubated infants who are
unable to generate a voluntary maximal expiratory maneuver. We
explored the questions of effort and volume dependence of flows
generated by FD in eighteen intubated, sedated and paralyzed infants
(age [mean+/-SE] = 10.6 +/- 2.0 months, weight = 7.2 +/- 0.7 kg) with
normal lungs. Effort dependence was assessed by isovolume pressure
-flow curves which were constructed in ten infants from repeated FD
maneuvers from total lung capacity (defined as +40 cmH2O) by varying
airway opening pressures from 0 cmH2O (barometric pressure) to -100
cmH2O at intervals of 20 cmH2O. The effect of volume history was
assessed by initiating FD maneuvers from different inspiratory
volumes delineated by the inspiratory pressures +10, +20, +30 and +40
cmH2O. We compared maximal expiratory flows at isovolume points (50,
25 and 10% FVC of the standard +40/-40 cmH2O FD maneuver) and found
that flow limitation consistently occurred in all infants at and
below 25% FVC with -40 cmH2O or greater airway opening pressure. We
found no significant influence of volume history on maximal flows at
and below 25% FVC. Under well controlled study conditions, we
demonstrated excellent reproducibility of maximal expiratory flows at
low lung volumes analogous to those of voluntary forced expiratory
maneuvers in adults and older children. This information may be
helpful in setting standards for performance and interpretation of FD
maneuvers in intubated infants.
Received 8 May 1995; accepted in final form 15 August 1995.
APS Manuscript Number A485-5.
Article publication pending Journal of Applied Physiology.
ISSN 1080-4757 Copyright 1995 The American Physiological Society.
Published in APStracts on 15 September 1995.