This study presents an antigen-dependent model of biphasic pulmonary changes to Ascaris suum in conscious squirrel monkeys. Animals with strong positive skin reactivity towards A. suum were trained to sit quietly in chairs and to breathe through face masks. Dynamic compliance (Cdyn) and pulmonary resistance (RL) were measured in these conscious animals before and for a period of 11 h after administration of an aerosol of Ascaris or ragweed antigen. The aerosol of Ascaris antigen induced reproducible increases (42%) in RL (P less than 0.001) and decreases (17%) in Cdyn (P less than 0.01) that peaked respectively 5 and 35 min after antigen challenge and lasted 60–90 min. After recovery, a second bronchoconstriction began between 2 and 8 h and peaked between 4 and 10 h after antigen challenge. Decreases in Cdyn (41%) were significantly greater (P less than 0.003) whereas mean increases in RL (44%) were similar during the late phase as compared with the first phase. The mean Cdyn decreases lasted a minimum of 2 h, whereas RL increases lasted less than 60 min. The time course of the responses varied from animal to animal but changes in individual animals were reproducible over a period of 6 mo. No significant correlation was observed between the cutaneous and the pulmonary responses to Ascaris and the late response was not reversed by aerosol administration of salbutamol (1.0 mg/ml). As a negative control animals were exposed to an aerosol of ragweed extract after which no immediate or late pulmonary response were observed. The results suggest that this primate model may be useful to study the pathophysiology of asthma in humans.