Influence of upper airway shunt on total respiratory impedance in infants

1 Department of Paediatrics, University Hospital Antwerp, and 3 Department of Physics, University of Antwerp, B-2650 Antwerp; and 2 Laboratorium voor Longfunctieonderzoek, UZ Gasthuisberg, B-3000 Leuven, Belgium When input impedance is determined by means of the forced oscillation technique, part of the oscillatory flow measured at the mouth is lost in the motion of the upper airway wall acting as a shunt. This is avoided by applying the oscillations around the subject's head (head generator) rather than at the mouth (conventional technique). In seven wheezing infants, we compared both techniques to estimate the importance of the upper airway wall shunt impedance (Zuaw) for the interpretation of the conventional technique results. Computation of Zuaw required, in addition, estimation of nasal impedance values, which were drawn from previous measurements (K. N. Desager, M. Willemen, H. P. Van Bever, W. De Backer, and P. A. Vermeire. Pediatr. Pulmonol. 11: 1-7, 1991). Upper airway resistance and reactance at 12 Hz ranged from 40 to 120 and from 0 to 150 hPa · l 1 · s, respectively. Varying nasal impedance within the range observed in infants did not result in major changes in the estimates of Zuaw or lung impedance (Z L ), the impedance of the respiratory system in parallel with Zuaw. The conventional technique underestimated Z L , depending on the value of Zuaw. The head generator technique slightly overestimated Z L , probably because the pressure gradient across the upper airway was not completely suppressed. Because of the need to enclose the head in a box (which is not required with the conventional technique), the head generator technique is difficult to perform in infants. forced oscillation technique; head generator; conventional technique