Young football players aerobic performance in sub-maximum exercise with exhaustion at a altitude without acclimation: esperience in El Cóndor.
Abstract
Antecedents: With the same intensity of submaximum effort, the concentration of serum (LS) or muscular lactate is higher in Hypoxia conditions, or exercise at an altitude without acclimatlon, in relation with normoxia or at sea level (MSL). The hlghest level of lactate after fatigue or in a test of strict anaerobic condition, would not be modified when altitude changes without prevlous acclimation. Objective: To abtain local data about the magnitude of the aífect In SL of a effective altitude at 1,700 meters without acclimation, as a parameter of aerobic performance of young soccer players of our environment who uve and train at sea level. Volunteers and Methods: Self-controlled experimental test with a number of 10 volunteers (16 - 18 years-old), soccer players of lower leagues from an important local sport club. Two tests in a cycle ergometer of a graded physical effort until fatigue, the first one in the Center of High Performance at MSL (474 meters) and the second one in the town El Condor (EC; 2.220 meters), province of Cordoba. Exercise Protoco1: warm-up 2', 30 Km/h with 50W; 3 consecutive steps of 3' + 50W each one; final phase 30 Km/h of 200W until fatigue and/or symptoms or maximum time of 15'. SL and HR measurement: basal; the last 30" of every step and tu fatigue. SL determination with Accusport®. Two- tailed paired test. Results: 1 volunteer dropped out befote completion in EC (n=9). Mean basal SL 2.1 mmol/L at MSL and EC (p=0.897). Mean dlfference (MD) EC vs. MSL ± Standard error of 0.5 ± 0.2 (p=0.033), 0.9 ± 0.3 (p=0.008) and0.6 ± .31nmol/L(p=0.103)lnsteps 1, 2,3 respectively of sub-maximum effort. In fatigue (the highest level), Mean SL and Confidence Interval (CI) 95% of 7.6 (6.5-8.8) and 9.5 (7.8- 11.2) mmol/L at MSL and EC respectively (p=0.030).Heart Rhythm (HR) without changes in EC in relation to MSL. 66% with a greater Borg scale and 33% of dizziness at EC. Conclusion: At an effective altitude at 1,700 meters without acclimation we can verify a lower aeroblc performance with a subjective perception of a greater effort intensity, and neurological symptoms of hypoxia can be objectlfied in onethirds of the cases.
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