Effects of synthetic turf and shock pad on impact attenuation related biomechanics during drop landing

ABSTRACT

Adding a shock pad as an underlayment to synthetic turf aims to improve attenuation of impact forces. The purpose of this research was to investigate effects of an infilled synthetic turf with three different shock pads on impact attenuation related biomechanics of lower extremity during the drop landing. Twelve active and healthy recreational male athletes performed 60 cm drop landing with a controlled landing technique on five surface conditions: a baseline surface (force platform), an infilled synthetic turf surface, turf plus foam shock pad, turf plus a low-density shock pad, and turf plus a high-density shock pad. Furthermore, a mechanical impact test was conducted (ASTM F355). Turf plus foam shock pad, turf plus low-density shock pad, and turf plus high-density shock pad all resulted in significantly lower 1st vertical peak ground reaction force (13.3%, 13.3%, and 12.7% reductions, respectively) and loading rate (20.4%, 25.4%, and 21.1% reductions, respectively) compared to baseline surface. Significantly greater trunk extension moment was found on turf plus low-density shock pad compared to turf surface (21.2%) and turf plus foam shock pad (12.0%). These results suggest that synthetic turf plus shock pad surfaces provide improved impact attenuation compared to baseline surface in the early landing phase.

KEYWORDS:

• Artificial turf
• shock pad
• lower limb biomechanics
• mechanical test
• neuromuscular adjustment

Acknowledgments

We would like to acknowledge AstroTurf for donating the synthetic turf, Brock International for donating the form shock pad and Recticel Flexible Foams for donating the low- and high-density shock pads used in the study.

Disclosure statement

No potential conflict of interest was reported by the authors.