Airflow mechanics in models of equine obstructive airway disease under conditions simulating exercise

Effects of respiratory tract obstructions on ventilatory mechanics in horses exercising at high speeds were tested with a fibreglass replica of the airways (nares to mainstem bronchi) of an adult horse. Segmental pressures were recorded at six sites along the model at four different unidirectional flows (1300 – 4100 litre min −1), and the respective resistances (R) to airflow were calculated. The external nares and the larynx made the greatest contributions to the total resistance (R TOT) when no obstruction was present. Modifying the model to simulate severe pharyngeal lymphoid hyperplasia ( PLH) had no effect on R at the larynx or at any point in the trachea under these flow conditions. Two 16 litre anaesthetic rebreathing bags were attached to the bronchial end of the model, and tidal ventilation generated by a piston pump. Upper (nares to pharynx) and lower tract R (R U and R L) and R TOT, and dynamic compliance were determined for pump volumes (V p) of six and 12 litres, at pumping frequencies (f p) of 20 – 100 min −1 while the airway was clear, and after modifying it to simulate either PLH or partial bronchial obstruction. Model condition had no effect on R U. However, R L and R TOT were higher in the PLH simulated condition when f p ≥ 90 and V P = 12 litres (P34 with each V p. The applicability of the model was verified by comparing results from the unobstructed state with those from normal horses exercising on a treadmill.