Vertical jump fatigue does not affect intersegmental coordination and segmental contribution

Gleber Pereira,Carlos Ugrinowitsch,Jose A Barela,Eduardo Kokubun,Neil E Fowler,André L F Rodacki,Paulo B De Freitas

doi:10.1590/s1980-65742014000300009

Gleber Pereira, Carlos Ugrinowitsch + Show 5 more

Open Access

https://doi.org/10.1590/s1980-65742014000300009

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Abstract

The aim of this study was to describe the intersegmental coordination and segmental contribution during intermittent vertical jumps performed until fatigue. Seven male visited the laboratory on two occasions: 1) the maximum vertical jump height was determined followed by vertical jumps habituation; 2) participants performed intermittent countermovement jumps until fatigue. Kinematic and kinetic variables were recorded. The overall reduction in vertical jump height was 5,5%, while the movement duration increased 10% during the test. The thigh segment angle at movement reversal significantly increased as the exercise progressed. Non-significant effect of fatigue on movement synergy was found for the intersegmental coordination pattern. More than 90% of the intersegmental coordination was explained by one coordination pattern. Thigh rotation contributed the most to the intersegmental coordination pattern, with the trunk second and the shank the least. Therefore, one intersegmental coordination pattern is followed throughout the vertical jumps until fatigue and thigh rotation contributes the most to jump height.

Highlights

Vertical jumping is an essential component of several sports
Non-significant effect (p = .09) of fatigue on movement synergy was presented on the first principal component (PC) (Figure 3A)
In order to test the contribution of each segment movement to the first PC, a two-way repeated measure ANOVA presented no interaction (p = .40) or time effect (p = .60), but presented an effect of segment on the loading factors (p < .001)

Summary

Introduction

Vertical jumping is an essential component of several sports. As such, this motor skill is frequently performed leading to fatigue. The effect of fatigue on movement coordination has already been investigated during jumping adapted conditions in sledge apparatus (Horita, Komi, Hamalainen, & Avela, 2003; Horita, Komi, Nicol, & Kyrolainen, 1999; Kuitunen, Avela, Kyrolainen, Nicol, & Komi, 2002) It has been reported a decreased knee and ankle power after continuous rebounds and no changes in the contribution of the lower limb joints’ extension, even under decreased muscle force production capacity (Horita, et al, 2003; Horita, et al, 1999; Kuitunen, et al, 2002). These studies have greatly contributed to the understanding of the fatigue mechanisms involved in movements that simulate a vertical jump, less attention has been devoted to reveal possible changes in movement coordination. It fails to mimic the intermittent condition observed in some sports (e.g., volleyball and basketball), in which there is an interval between subsequent vertical jumps

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