Perfusion of lung periphery: effects of local exposures to ozone and pressure.

Following ozone (O3) exposure, airways reactivity increases. We investigated the possibility that exposure to O3 causes a decrease in pulmonary perfusion, and that this decrease is associated with the increase in reactivity. Perfusion was measured with radiolabeled microspheres.

Interstitial fibrosis and collateral ventilation.

Interstitial fibrosis may increase resistance to collateral flow (Rcoll) because of decreased lung volume and destruction of collateral channels or it may decrease Rcoll because of emphysematous changes around fibrotic regions. In addition, if interstitial fibrosis involves a small region of lung periphery, interdependence from surrounding unaffected lung should produce relatively large changes in volume of the fibrotic region during lung inflation. We studied the effects of interstitial fibrosis on collateral airflow by measuring Rcoll at functional residual capacity (FRC) in nine mongrel dogs before and 28 days after the local instillation of bleomycin into selected lung segments.

Bronchial blood flow affects recovery from constriction in dog lung periphery.

We investigated the effect of eliminating the bronchial circulation on recovery time from intravenous histamine challenge in canine lung periphery. Results from animals with intact bronchial circulations were compared with a second group in which the left lower lobe was isolated in situ. The pulmonary artery to this lobe was perfused and a bronchoscope was wedged in a small airway, which provided an index of resistance to airflow through the collateral system.

Pulmonary blood flow affects recovery from constriction in dog lung periphery.

The influence of blood flow through the pulmonary circulation on the time course of recovery of the lung periphery from challenge with three bronchoconstrictive agents was studied in dogs. The rate of perfusion of the left lower lobe was varied between 0 and 300 ml/min. A fiber-optic bronchoscope (OD = 5.