Ammonia and lactate in the blood after short-term sprint exercise

Abstract

Nine well-trained subjects performed 15-, 30- and 45-s bouts of sprint exercise using a cycle ergometer. There was a significant difference in the mean power between a 15-s sprint (706.0 W, SD 32.5) and a 30-s sprint (627.0 W, SD 27.8; P less than 0.01). The mean power of the 30-s sprint was higher than that of the 45-s sprint (554.7 W, SD 29.8; P less than 0.01). Blood ammonia and lactate were measured at rest, immediately after warming-up, and 2.5, 5, 7.5, 10, 12.5 min after each sprint. The peak blood ammonia content was 133.8 mumol.l-1, SD 33.5, for the 15-s sprint, 130.2 mumol.l-1, SD 44.9, for the 30-s sprint, and 120.8 mumol.l-1, SD 24.6, for the 45-s sprint. Peak blood lactates after the 15-, 30- and 45-s sprints were 8.1 mmol.l-1, SD 1.7, 11.2 mmol.l-1, SD 2.4, and 14.7 mmol.l-1, SD 2.1, respectively. There was a significant linear relationship between peak blood ammonia and lactate in the 15-s (r, 0.709; P less than 0.05), 30-s (r, 0.797; P less than 0.05) and 45-s (r, 0.696; P less than 0.05) sprints. Though the peak blood lactate content increased significantly with increasing duration of the sprints (P less than 0.01), no significant difference was found in peak blood ammonia content among the 15-, 30- and 45-s sprints. These results suggest that the peak value of ammonia in the blood appears in sprints within 15-s and that the blood ammonia level is linked to the lactate in the blood.