Artificial Ventilation in Children During Anaesthesia Using a Tidal Volume Ventilator

Abstract

Standards for artificial pulmonary ventilation at ventilatory frequencies of 15 and 20 cycles per min, (Petcos 4 ± 0.5 kPa), were defined in 16 children with healthy lungs and body weights between 2.6 and 22.6 kg. A tidal volume ventilator and balanced anaesthesia were used during abdominal surgery. At f = 20 cycleslmin an approximately direct proportionality existed between tidal volume and body weight (V_tpat = 12.3.kgb.w.‐2.1, r = 0.99). The mean value V_tpat per kg b.w. was 12.1 ± 1.4 ml/kg. At f = 15 cycles/min, a linear relationship between tidal volume and kg b.w. was recorded (V_tpat = 14.6 kg b.w.+ 16, r = 0.97). The mean value V_tpat per kg b.w. was 15.9 ± 1.5 ml/kg. A significant decrease in total compliance was recorded during the initial part of the surgical procedure. A rectilinear relationship existed between total compliance and kg b.w. (ctot = 11.2 kg b.w.— 12.5, r = 0.95). The mean value C_TOT per kg b.w. was 9.7± 0.54 ml/kPa/kg at f = 20. The endotracheal peak pressure maintained a fairly constant pressure level independent of the initial pressure within the ventilator, the tidal volume and the body weight, a phenomenon explained by the hypothesis that the proportional increase in total lung volume and functional residual capacity in the older children compensated for the higher pressures.