Rationale: There is increasing evidence of increased ventilatory instability in patients with obstructive sleep apnea but previous investigations have not studied whether the hypocapnic apneic threshold is altered in this group. Objective: To compare the apneic threshold, CO₂ reserve, and controller gain between subjects with and without obstructive sleep apnea matched for age, gender, and body mass index. Methods: Hypocapnia was induced via nasal mechanical ventilation for 3 minutes. Cessation of mechanical ventilation resulted in hypocapnic central hypopnea or apnea depending upon the magnitude of the hypocapnia. The apnea threshold (P_ETCO₂-AT) was defined as the measured P_ETCO₂ at which the apnea closest to the last hypopnea occurred. The CO₂ reserve was defined as the change in P_ETCO₂ between eupneic P_ETCO₂ and P_ETCO₂-AT. Controller gain was defined as the ratio of change in V_E between control and hypopnea or apnea to the P_ETCO₂. Results: 11 pairs of subjects were studied. There was no difference in the P_ETCO₂-AT between the two groups. However, the CO₂ reserve was smaller in the OSA subjects (2.2±0.6 mmHg) compared to the control subjects (4.5±1.4 mmHg, p=<0.001). The controller gain was increased in the OSA subjects (3.7±1.3 L/min/mmHg) compared to the control subjects (1.6±0.5 L/min/mmHg, p=<0.001). Controller gain decreased and CO₂ reserve increased in seven subjects re-studied after using CPAP for 1 month. Conclusions: Ventilatory instability is increased in OSA subjects and is reversible with the use of CPAP.