Long distance triathlons, due to the large amounts of oxygen uptake they cause, may
lead to the generation of reactive oxygen species, and consequently to oxidative stress
and damage. We sought to verify this hypothesis. Twelve of the 18 male triathletes
who participated in the study took part in a long distance triathlon, the others did
not. The prerace blood samples were drawn 48 h before the race and repeatedly until
the fourth day of recovery. The myoglobin concentrations increased immediately after
the race. The concentrations of methemoglobin, disulfide glutathione (GSSG), and thiobarbituric
reactive substances did not significantly change after the race. Although the race
induced an inflammatory response, evidenced by the variations in neopterin concentrations
and leukocyte counts, there was no consecutive oxidative stress. The basal GSH values
were correlated significantly with cycling training volume (r = 0.55) and VO2max (r = 0.53). Muscle damage can occur without evidence of oxidative stress or oxidative
damage. We conclude that the magnitude of the antioxidant defense system enhancement
depends on training loads. Because of their training status, the triathletes did not
suffer from oxidative damage after they finished the long distance triathlon race.
Key words
Endurance exercise - training - antioxidants - leukocytes - catecholamines - lipid
peroxidation
