INFLUENCE OF HALOTHANE AND ENFLURANE ON RESPIRATORY AIRFLOW RESISTANCE AND SPECIFIC CONDUCTANCE IN ANAESTHETIZED MAN

Abstract

We have developed a method for the measurement of respiratory resistance and specific airways conductance (s.G_aw) using the forced airflow oscillation method, and have used it to study the effects of halothane and enflurane on airway mechanics in anaesthetized patients. Resistance (R_rs) was determined over a range of lung volumes and s.G_aw was obtained by computer-aided analysis of the hyperbolic relationship between R_rs and lung volume. Patients received diazepam orally, followed by thiopentone and pancuronium. The trachea was intubated and the lungs ventilated with 70% nitrous oxide in oxygen. After obtaining three baseline measurements of s.G_aw, 1.3% halothane (10 patients) or 2.5% enflurane (10 patients) was added to the inspired gas. Halothane caused an increase in s.G_aw (bronchodilatation) of 47% (Pt test) at 3 min and a non-significant increase of 72% at 15 min. Enflurane produced no significant increase in s.G_aw at 3 and 8 min, but a 56% increase (PG_aw (Pt test). Enflurane did not cause bronchoconstriction in any patient. There was a significant reduction in resistance with halothane (Pt test) and enflurane (P−1 s, range 0.15–1.71. Small changes in ERV were also shown to produce changes in resistance independent of changes in bronchomotor tone. Neither halothane nor enflurane produced significant mean changes in ERV.