This study was undertaken to determine whether measurements of tracheal mucous velocity or airway reactivity to inhaled carbachol more sensitively detect airway effects of inhaled ozone (O3) in conscious sheep. Dose-response curves of mean pulmonary flow resistance (RL) to carbachol were obtained by measuring RL after five breaths of carbachol aerosol with stepwise increases in drug concentration. The animals then breathed 0.5 ppm O3 through an endotracheal tube for 2 h. The dose-response curves were repeated immediately after the 0.5 ppm O3 exposure and 24 h later. In the eight sheep studied, there were no significant alterations in base-line RL immediately after or 24 h after 0.5 ppm O3. Airway hyperreactivity was not apparent immediately after the sheep breathed 0.5 ppm O3, but it was evident 24 h later. In contrast, six sheep that breathed 0.5 ppm O3 in the same manner for 2 h did not show a significant depression in tracheal mucous velocity the same day or 24 h later. Exposure to 1 ppm O3 for 2 h resulted in airway hyperreactivity immediately after the exposure and elevated base-line RL 24 h later; 2 ppm O3 produced an increase in base-line RL immediately after exposure. We conclude that, in conscious sheep, airway hyperreactivity appears to be a more sensitive indicator of airway effects produced by short-term exposure to 0.5 ppm O3 than depression of tracheal mucous velocity.
The effect of breathing 5 ppm sulfur dioxide (SO2) on airway reactivity was studied in both normal and allergic conscious sheep. Allergic sheep were defined as animals in which inhalation of Ascaris suum extract resulted in bronchospasm as evidenced by an increase in mean pulmonary flow resistance (RL), hyperinflation, and a fall in dynamic compliance. Airway reactivity was assessed by measuring the increase of RL after 18 breaths of 0.25% carbachol (c), from an initial RL value obtained after 18 breaths of buffered saline (s) [RL(c-s)]. RL and RL(c-s) were determined prior to, immediately after, and 24 h after exposure to 5 ppm SO4 for 4 h. In both groups RL remained unchanged after SO2 exposure. Prior to exposure, RL(c-s) was not significantly different in seven normal (0.3 +/- 0.1) and seven allergic sheep [0.4 +/- 0.2 (SD) cmH2O X l-1 X s], and there was no significant change in RL (c-s) immediately after SO2 exposure in either group. Twenty-four h later, RL(c-s) RL(c-s) increased to 0.7 +/- 0.8 (P less than 0.2) in normal and to 1.8 +/- 0.9 cmH2O X l-1 X s (P less than 0.01) in allergic sheep. Because the increase in RL(c-s) after 24 h was greater (P less than 0.01) in allergic than in normal sheep, we conclude that SO2 exposure increased airway reactivity more in the former than in the latter.
This study was undertaken to determine the effects of an acute low-level exposure to diesel exhaust particulate material on pulmonary function in conscious sheep. This was accomplished by measuring pulmonary mechanics, airway reactivity to increasing doses of aerosolized carbachol, and tracheal mucous velocity both prior to and immediately after exposure to the diesel exhaust particulates. The diesel exhaust particulate material was aerosolized by a fluidized-bed dust generator. The mass concentration of the dust ranged between 400 to 500 micrograms/m3 and a mass median aerodynamic diameter of 2.8 micrometers. The sheep breathed the diesel exhaust particulates for 30 min by means of a Plexiglas helmet. The particulates caused no material alteration in pulmonary resistance, airway reactivity to aerosolized carbachol, or static lung compliance when compared to pre-exposure values. Tracheal mucous velocity was likewise unaffected. In conscious sheep under the present exposure conditions, the diesel exhaust material administered as a respirable aerosol does not materially affect the function of the large airways, the elastic properties of the lung, nor tracheal mucous transport.
The effects of a four-hour exposure (via a Plexiglas hood) to sulfur dioxide (SO2) on airway reactivity was studied in both normal and allergic conscious sheep. Allergic sheep were defined as animals in whom inhalation of Ascaris suum extract resulted in an increase in mean pulmonary flow resistance (RL). Airway reactivity (delta RL) was assessed by measuring the increase in RL after 18 breaths of 0.25% carbachol, from an initial value obtained after 18 breaths of buffered saline. RL and delta RL were determined prior to, immediately after and 24 hours following SO2 exposure in three groups of sheep: six normal sheep exposed to 5 ppm SO2 (group A); six normal sheep exposed to 10 ppm SO2 (group B) and seven allergic sheep exposed to 5 ppm SO2 (group C). RL was not affected by SO2 exposure in any group but both groups B and C showed increases in delta RL 24 hours after exposure. Since the increase in delta RL was greater in group C than in either groups A or B, we conclude that allergic sheep have enhanced susceptibility to the injurious airway effects of SO2.
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