This study examined whether the increase in histamine release (%H, i.e., plasma histamine expressed as a percentage of whole blood histamine) associated with exercise-induced hypoxemia (EIH) is related to high training-induced changes in basophil and osmolarity factors in arterial blood. All parameters were measured in 20 endurance athletes, 11 of whom presented an EIH (HT(hyp)) and 9 of whom were nonhypoxemic (HT(nor)), and in 10 untrained control subjects (UT). Measurements were made at rest, at the maximal workload of an incremental exhaustive exercise test, and at the fifth minute of recovery. %H increased during exercise in HT(hyp) (P < 0.01) but did not increase significantly in HT(nor) and UT controls. The results indicated that 1) osmolarity and Na(+) and K(+) concentrations did not differ between the two trained groups and 2) the basophil count and basophil histamine content did not differ among groups. We concluded that the %H increase associated with EIH was not due to a training effect on these parameters. The relatively low increase in histamine content during exercise in HT(hyp) in comparison to HT(nor) (P < 0.05) and UT (P < 0.01) and the low recovery vs. resting basophil count only in HT(hyp) (P < 0.01) suggested an accentuated exercise-induced basophil degranulation in the hypoxemic athletes.