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  • Title: Decrease in peak heart rate with acute hypoxia in relation to sea level VO(2max).
    Author: Benoit H, Busso T, Castells J, Geyssant A, Denis C.
    Journal: Eur J Appl Physiol; 2003 Nov; 90(5-6):514-9. PubMed ID: 12898267.
    Abstract:
    The aim of this study was to evaluate the influence of arterial oxygen saturation ( SaO(2)) on maximal heart rate during maximal exercise under conditions of acute hypoxia compared with normoxia. Forty-six males were divided into three groups depending on their sea level maximal oxygen consumption ( VO(2max)): high [GH, VO(2max)=64.2 (3.3) ml x min(-1) x kg(-1)], medium [GM, 50.8 (3.9) ml x min(-1) x kg(-1)] and low [GL, 41.0 (1.9) ml x min(-1) x kg(-1)]. All subjects performed a maximal exercise test in two conditions of inspired oxygen tension ( PIO(2), (149 mmHg and 70 mmHg). Among the GM group, seven subjects performed five supplementary incremental exercise tests at PIO(2) 136, 118, 104, 92, and 80 mmHg. Measurements of VO(2max) and SaO(2) using an ear-oxymeter were carried out at all levels of PIO(2). The decrease in SaO(2 )and peak heart rate (HR(peak)) with PIO(2) became significant from 104 and 92 mmHg. SaO(2) correlated with the decrease in HR(peak). For PIO(2)=70 mmHg, the decrease in VO(2max), SaO(2) and HR(peak) was, respectively, 44%, 62%, and 17.0 bpm for GH, 38%, 68%, and 14.7 bpm for GM, and 34%, 68%, and 11.8 bpm for GL. During maximal exercise in hypoxia, SaO(2) was lower for GH than GM and GL ( p<0.01). Among subjects in GH, five presented exercise-induced hypoxemia (EIH) when exercising in normoxia. The EIH group exhibited a greater decrement in HR(peak) than the non-EIH group at maximal hypoxic exercise (21.2 bpm vs. 15.0 bpm; p<0.05). When subjects are exposed to acute hypoxia, the lower SaO(2), due either to lower PIO(2) or to training status, is associated with lower HR(peak).
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