Reliability of the calculated maximal lactate steady state in amateur cyclists.

Complex performance diagnostics in sports medicine should contain maximal aerobic and maximal anaerobic performance. The requirements on appropriate stress protocols are high. To validate a test protocol quality criteria like objectivity and reliability are necessary. Therefore, the present study was performed in intention to analyze the reliability of maximal lactate production rate ([Formula: see text]Lamax) by using a sprint test, maximum oxygen consumption ([Formula: see text]O2max) by using a ramp test and, based on these data, resulting power in calculated maximum lactate-steady-state (PMLSS) especially for amateur cyclists. All subjects (n = 23, age 26 ± 4 years) were leisure cyclists. At three different days they completed first a sprint test to approximate [Formula: see text]Lamax. After 60 min of recreation time a ramp test to assess [Formula: see text]O2max was performed. The results of [Formula: see text]Lamax-test and [Formula: see text]O2max-test and the body weight were used to calculate PMLSS for all subjects. The intra class correlation (ICC) for [Formula: see text]Lamax and [Formula: see text]O2max was 0.904 and 0.987, respectively, coefficient of variation (CV) was 6.3% and 2.1%, respectively. Between the measurements the reliable change index of 0.11 mmol·l (-1)s (-1) for [Formula: see text]Lamax and 3.3 mlkg (-1)min (-1) for [Formula: see text]O2max achieved significance. The mean of the calculated PMLSS was 237 ± 72 W with an RCI of 9 W and reached with ICC = 0.985 a very high reliability. Both metabolic performance tests and the calculated PMLSS are reliable for leisure cyclists.