BLOOD-GAS TRANSPORT-PROPERTIES IN ENDURANCE-TRAINED ATHLETES LIVING AT DIFFERENT ALTITUDES

Hemoglobin oxygen binding properties and acid-base status were investigated in Colombian athletes (A) and controls (C) from Cali (C - 1000 m) and Bogota (B - 2600 m). [Hb] and Hct values were not influenced by altitude, but Hct was lower in the blood of athletes (in Cali 2.6%, in Bogota 1.4%). Both training and altitude produces a right-shift of the standard oxygen dissociation curve (P50 in CC 28.5 ± 0.9 mmHg, AC 31.0 ± 1.4 mmHg, CB 29.6 ± 1.5 mmHg) leading to highest P50 in blood of altitude athletes (32.3 ± 1.1 mmHg). Opposite to the position of the ODC the slope 'n' was only increased by altitude influence (Δ 'n' in controls 0.07, in athletes 0.28). The BCCO2 was increased in AC over the whole saturation range, whereas BC(Lac) was neither significantly influenced by training nor by altitude. All altitude effects can be explained by higher [DPG] (Δ[DPG] in controls 5.0 μmol/gHb, in athletes 3.9 μmol/gHb), but the cause for the training effects still remains unclear. The acid base status in altitude residents was characterized by low BE and pCO2, which was most pronounced in altitude athletes, the latter correcting the actual venous pH to normal values. No significant variations of the Hb-O2-binding properties could be detected in athletes one day after leaving high altitude when compared with blood samples of athletes taken at high altitude, whereas BE and venous pCO2 were already increased. It is concluded that high altitude athletes are favoured during aerobic and handicapped during anaerobic exercise after the rapid descent to low altitude.