Whole-Body Vibrations Associated With Alpine Skiing: A Risk Factor for Low Back Pain?

Alpine skiing, both recreational and competitive, is associated with high rates of injury. Numerous studies have shown that occupational exposure to whole-body vibrations is strongly related to lower back pain and some suggest that, in particular, vibrations of lower frequencies could lead to overus...

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Main Authors: Matej Supej, Jan Ogrin, Hans-Christer Holmberg
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-03-01
Series:Frontiers in Physiology
Subjects:
Online Access:http://journal.frontiersin.org/article/10.3389/fphys.2018.00204/full
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spelling doaj-4ae8eb67a56a47d8b70c9861068b23182020-11-24T22:36:10ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2018-03-01910.3389/fphys.2018.00204332711Whole-Body Vibrations Associated With Alpine Skiing: A Risk Factor for Low Back Pain?Matej Supej0Jan Ogrin1Hans-Christer Holmberg2Hans-Christer Holmberg3Hans-Christer Holmberg4Faculty of Sport, University of Ljubljana, Ljubljana, SloveniaFaculty of Sport, University of Ljubljana, Ljubljana, SloveniaSchool of Sport Sciences, UiT Arctic University of Norway, Tromsø, NorwaySchool of Kinesiology, University of British Columbia, Vancouver, BC, CanadaDepartment of Physiology and Pharmacology, Karolinska Institutet, Stockholm, SwedenAlpine skiing, both recreational and competitive, is associated with high rates of injury. Numerous studies have shown that occupational exposure to whole-body vibrations is strongly related to lower back pain and some suggest that, in particular, vibrations of lower frequencies could lead to overuse injuries of the back in connection with alpine ski racing. However, it is not yet known which forms of skiing involve stronger vibrations and whether these exceed safety thresholds set by existing standards and directives. Therefore, this study was designed to examine whole-body vibrations connected with different types of skiing and the associated potential risk of developing low back pain. Eight highly skilled ski instructors, all former competitive ski racers and equipped with five accelerometers and a Global Satellite Navigation System to measure vibrations and speed, respectively, performed six different forms of skiing: straight running, plowing, snow-plow swinging, basic swinging, short swinging, and carved turns. To estimate exposure to periodic, random and transient vibrations the power spectrum density (PSD) and standard ISO 2631-1:1997 parameters [i.e., the weighted root-mean-square acceleration (RMS), crest factor, maximum transient vibration value and the fourth-power vibration dose value (VDV)] were calculated. Ground reaction forces were estimated from data provided by accelerometers attached to the pelvis. The major novel findings were that all of the forms of skiing tested produced whole-body vibrations, with highest PSD values of 1.5–8 Hz. Intensified PSD between 8.5 and 35 Hz was observed only when skidding was involved. The RMS values for 10 min of short swinging or carved turns, as well as all 10-min equivalent VDV values exceeded the limits set by European Directive 2002/44/EC for health and safety. Thus, whole-body vibrations, particularly in connection with high ground reaction forces, contribute to a high risk for low back pain among active alpine skiers.http://journal.frontiersin.org/article/10.3389/fphys.2018.00204/fullbiomechanicsinjury preventionkinematicskineticsrecreational skiingshock
collection DOAJ
language English
format Article
sources DOAJ
author Matej Supej
Jan Ogrin
Hans-Christer Holmberg
Hans-Christer Holmberg
Hans-Christer Holmberg
spellingShingle Matej Supej
Jan Ogrin
Hans-Christer Holmberg
Hans-Christer Holmberg
Hans-Christer Holmberg
Whole-Body Vibrations Associated With Alpine Skiing: A Risk Factor for Low Back Pain?
Frontiers in Physiology
biomechanics
injury prevention
kinematics
kinetics
recreational skiing
shock
author_facet Matej Supej
Jan Ogrin
Hans-Christer Holmberg
Hans-Christer Holmberg
Hans-Christer Holmberg
author_sort Matej Supej
title Whole-Body Vibrations Associated With Alpine Skiing: A Risk Factor for Low Back Pain?
title_short Whole-Body Vibrations Associated With Alpine Skiing: A Risk Factor for Low Back Pain?
title_full Whole-Body Vibrations Associated With Alpine Skiing: A Risk Factor for Low Back Pain?
title_fullStr Whole-Body Vibrations Associated With Alpine Skiing: A Risk Factor for Low Back Pain?
title_full_unstemmed Whole-Body Vibrations Associated With Alpine Skiing: A Risk Factor for Low Back Pain?
title_sort whole-body vibrations associated with alpine skiing: a risk factor for low back pain?
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2018-03-01
description Alpine skiing, both recreational and competitive, is associated with high rates of injury. Numerous studies have shown that occupational exposure to whole-body vibrations is strongly related to lower back pain and some suggest that, in particular, vibrations of lower frequencies could lead to overuse injuries of the back in connection with alpine ski racing. However, it is not yet known which forms of skiing involve stronger vibrations and whether these exceed safety thresholds set by existing standards and directives. Therefore, this study was designed to examine whole-body vibrations connected with different types of skiing and the associated potential risk of developing low back pain. Eight highly skilled ski instructors, all former competitive ski racers and equipped with five accelerometers and a Global Satellite Navigation System to measure vibrations and speed, respectively, performed six different forms of skiing: straight running, plowing, snow-plow swinging, basic swinging, short swinging, and carved turns. To estimate exposure to periodic, random and transient vibrations the power spectrum density (PSD) and standard ISO 2631-1:1997 parameters [i.e., the weighted root-mean-square acceleration (RMS), crest factor, maximum transient vibration value and the fourth-power vibration dose value (VDV)] were calculated. Ground reaction forces were estimated from data provided by accelerometers attached to the pelvis. The major novel findings were that all of the forms of skiing tested produced whole-body vibrations, with highest PSD values of 1.5–8 Hz. Intensified PSD between 8.5 and 35 Hz was observed only when skidding was involved. The RMS values for 10 min of short swinging or carved turns, as well as all 10-min equivalent VDV values exceeded the limits set by European Directive 2002/44/EC for health and safety. Thus, whole-body vibrations, particularly in connection with high ground reaction forces, contribute to a high risk for low back pain among active alpine skiers.
topic biomechanics
injury prevention
kinematics
kinetics
recreational skiing
shock
url http://journal.frontiersin.org/article/10.3389/fphys.2018.00204/full
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