Late-phase bronchial vascular responses in allergic sheep.

Sheep were classified on the basis of their airway response to Ascaris suum antigen aerosols as allergic or nonsensitive. Allergic sheep were classed as acute or dual responders. Acute responders had only an immediate increase in mean airflow resistance after antigen, whereas dual responders had an immediate and late-phase (6-8 h after antigen challenge) increase in mean airflow resistance; nonsensitive sheep had minimal airway responses to antigen (less than 30% increase from base line).

Pleural pressure changes in dogs measured from suprasternal fossa movements.

Movements of the suprasternal fossa during spontaneous breathing monitored with the surface inductive plethysmograph (SIP) have been shown to reflect changes of intrapleural pressure in conscious humans. Calibration of this device in anesthetized intubated dogs was accomplished by adjusting the electrical gain of its analog waveform to be equivalent to changes of airway pressure during inspiratory efforts against an occluded airway. This procedure, denoted the occlusion test, was also used to identify the site of esophageal balloon catheter placement for its recording of intrapleural pressure deflections.

Cellular markers of inflammation in the airways of allergic sheep with and without allergen-induced late responses.

Allergic sheep respond to inhaled Ascaris suum antigen either with an acute bronchoconstriction alone (acute responders, AR) or both an acute and late bronchoconstriction (dual responders, DR). In this study, we determined if: (1) inflammatory cell composition of bronchoalveolar lavage (BAL) obtained during the late response differs between DR and AR; (2) the difference in inflammatory cells is dependent on the prechallenge BAL cell composition; and (3) drugs that block late airway responses also modify this airway inflammation. Antigen challenge caused significant immediate mean increases in specific lung resistance (SRL) both in DR (n = 28) and in AR (n = 14), but only DR had a late increase in SRL.

Modification of bronchial blood flow during allergic airway responses.

Ascaris suum antigen effects on mean airflow resistance (RL) and bronchial arterial blood flow (Qbr) were studied in allergic anesthetized sheep with documented airway responses. Qbr was measured with electromagnetic flow probes, and supplemental O2 prevented antigen-induced hypoxemia. Aerosol challenge with this specific antigen increased RL and Qbr significantly.