Anaerobic Contribution Determined in Free-Swimming: Sensitivity to Maturation Stages and Validity.

Evaluation of anaerobic contribution is important under swimming settings (training and modification through ages), therefore, it is expected to change during maturation. The accumulated oxygen deficit (AOD) method can be used to determine the contribution of nonoxidative energy during swimming; however, it requires several days of evaluation. An alternative method to estimate anaerobic contribution evaluation (AC), which can also be evaluated without snorkel (i.e., free-swimming, AC), has been proposed; however, these methods have never been compared. Thus, this study (i) analyzed the effect of maturation stage on AC during maximal 400 m swimming (), and (ii) compared AOD with AC and AC, determined in a maximal 400 m effort (). In , 34 swimmers were divided into three groups, according to maturation stages (early-pubertal, middle-pubertal, and pubertal), and subjected to a maximal 400 m free-swimming to determine AC. In , six swimmers were subjected to one 400 m maximal effort, and four submaximal constant efforts. The AOD was determined by the difference between the estimated demand and accumulated oxygen during the entire effort. The AC and AC (for as well) was assumed as the sum of lactic and alactic anaerobic contributions. AC was higher in pubertal (3.8 ± 1.1 L) than early (2.1 ± 0.9 L) and middle pubertal group (2.4 ± 1.1 L). No difference was observed among absolute AOD (3.2 ± 1.3 L), AC (3.2 ± 1.5 L), and AC (4.0 ± 0.9 L) ( = 3.6; = 0.06). Relative AOD (51.8 ± 12.2 mL·kg), AC (50.5 ± 14.3 mL·kg), and AC (65.2 ± 8.8 mL·kg) presented main effect ( = 4.49; = 0.04), without posthoc difference. The bias of AOD vs. AC was 0.04 L, and AOD vs. AC was -0.74 L. The limits of agreement between AOD and AC were +0.9 L and -0.8 L, and between AOD and AC were +0.7 L and -2.7 L. It can be concluded that AC determination is a feasible tool to determine anaerobic contribution in young swimmers, and it changes during maturation stages. Also, AC might be useful to measure anaerobic contribution in swimmers, especially because it allows greater speeds.