Heart Rate Nonlinear Dynamics During Sudden Hypoxia at 8230 m Simulated Altitude

ObjectiveAcute hypobaric hypoxia is associated with autonomic changes that bring a global reduction of linear heart rate variability (HRV). Although changes in nonlinear HRV can be associated with physiologic stress and are relevant predictors of fatal arrhythmias in ischemic heart disease, to what extent these components vary in sudden hypobaric hypoxia is not known.MethodsTwelve military pilots were supplemented with increasing concentrations of oxygen during decompression to 8230 m in a hypobaric chamber. Linear and nonlinear HRV was evaluated at 8230 m altitude before, during, and after oxygen flow deprivation. Linear HRV was assessed through traditional time-domain and frequency-domain analysis. Nonlinear HRV was quantified through the short-term fractal correlation exponent alpha (αs) and the Sample Entropy index (SampEn).ResultsHypoxia was related to a decrease in linear HRV indexes at all frequency levels. A non-significant decrease in αs (basal, 1.39 ± 0.07; hypoxia, 1.11 ± 0.13; recovery, 1.41 ± 0.05; P = .054) and a significant increase in SampEn (basal, 1.07 ± 0.11; hypoxia, 1.45 ± 0.12; recovery, 1.43 ± 0.09; P = .018) were detected.ConclusionsThe observed pattern of diminished linear HRV and increased nonlinear HRV is similar to that seen in subjects undergoing heavy exercise or in patients with ischemic heart disease at high risk for ventricular fibrillation.