INDIVIDUAL ANAEROBIC THRESHOLD AND MAXIMUM LACTATE STEADY-STATE

The individual anaerobic threshold (IAT) as defined by Stegmann et al. 1981 is determined by using the blood lactate-performance relationshi p during incremental graded exercise and the immediately following rec overy phase. The aim of the study was to investigate the validity of t he IAT as a measure for the maximum lactate steady state (max Lass) an d the monitoring of endurance training. Sixteen endurance trained athl etes (VO2max 60.2 +/- 5.0 ml . min-1 . kg-1) performed a stepwise incr easing test until exhaustion on a cycle ergometer (CE) (increasing by 50 W every 3 min), 14 endurance trained athletes (VO2max 64.9 +/- 3.8 ml . min-1 . kg-1) performed the multistage steptest on a treadmill (T M) (increasing by 0.5 m . s-1 every 3 min) to determine the IAT and th e 4 mmol . l-1 La-threshold (AT). Afterwards endurance tests (E) limit ed to 30 min (CE) or 45 min (TM) were performed with intensities of 85 , 95, 100 and 105% of the IAT (E85-E105) and with 100% of the AT (AT10 0) (only on CE) in a randomized order each on different days. Lass was present without premature break-off during E85 (in 30 out of 30 cases ), E95 (30/30 cases) and E100 (26/30 cases). At E105 and AT100 (104 +/ - 7% of IAT) mean La increased continuously and/or led to a premature break-off (in 15/30 cases). All subjects with an AT below their IAT we re in Lass during AT100. We conclude that the IAT can be regarded as a reliable estimation of the range of max Lass, although 100% of IAT do es not necessarily represent exactly the max Lass in all individuals. Workloads below and at IAT usually are in Lass. An intensity of 95% of IAT seems to be advisable for high intensity endurance training, an i ntensity of 80-90% of IAT can be recommended for low intensity enduran ce training.