Concurrent validity of the Gyko inertial sensor system for the assessment of vertical jump height in female sub-elite youth soccer players

Background

The aim of the present study was to verify concurrent validity of the Gyko inertial sensor system for the assessment of vertical jump height.

Methods

Nineteen female sub-elite youth soccer players (mean age: 14.7?±?0.6 years) performed three trials of countermovement (CMJ) and squat jumps (SJ), respectively. Maximal vertical jump height was simultaneously quantified with the Gyko system, a Kistler force-plate (i.e., gold standard), and another criterion device that is frequently used in the field, the Optojump system.

Results

Compared to the force-plate, the Gyko system determined significant systematic bias for mean CMJ (?0.66 cm, p?<?0.01, d?=?1.41) and mean SJ (?0.91 cm, p?<?0.01, d?=?1.69) height. Random bias was?±?3.2 cm for CMJ and?±?4.0 cm for SJ height and intraclass correlation coefficients (ICCs) were “excellent” (ICC?=?0.87 for CMJ and 0.81 for SJ). Compared to the Optojump device, the Gyko system detected a significant systematic bias for mean CMJ (0.55 cm, p?<?0.05, d?=?0.94) but not for mean SJ (0.39 cm) height. Random bias was?±?3.3 cm for CMJ and?±?4.2 cm for SJ height and ICC values were “excellent” (ICC?=?0.86 for CMJ and 0.82 for SJ).

Conclusion

Consequently, apparatus specific regression equations were provided to estimate true vertical jump height for the Kistler force-plate and the Optojump device from Gyko-derived data. Our findings indicate that the Gyko system cannot be used interchangeably with a Kistler force-plate and the Optojump device in trained individuals. It is suggested that practitioners apply the correction equations to estimate vertical jump height for the force-plate and the Optojump system from Gyko-derived data.