EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES

EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES

This study examined the effects of poles when walking on the rate of perceived exertion (RPE), physiological and kinematics parameters, and upon the mean ratio between locomotor and respiratory rhythms. Twelve healthy male and female volunteers, aged 22 to 49 years old, completed on a motorized trea...

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Bibliographic Details
Main Authors: Stephane Perrey, Nicolas Fabre
Format: Article
Language:English
Published: University of Uludag 2008-03-01
Series:Journal of Sports Science and Medicine
Subjects:
Energy cost
grades
hiking poles
respiration
nordic-walking
Online Access:http://www.jssm.org/vol7/n1/5/v7n1-5text.php
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spelling doaj-73e2ef0861d546cbabfcb45535381a402020-11-25T00:21:16ZengUniversity of UludagJournal of Sports Science and Medicine1303-29682008-03-01713238EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES Stephane PerreyNicolas FabreThis study examined the effects of poles when walking on the rate of perceived exertion (RPE), physiological and kinematics parameters, and upon the mean ratio between locomotor and respiratory rhythms. Twelve healthy male and female volunteers, aged 22 to 49 years old, completed on a motorized treadmill in a counterbalanced randomized order 12 walking trials for 10 min at an individually preferred walking speed, with three grades (horizontal level, uphill or downhill with a slope of 15%), with and without hiking poles and a load carriage of 15% of body mass. During all testing sessions, heart rate (HR), oxygen consumption (VO2), ventilation (VE), tidal volume (VT), breathing frequency (Bf), and stride frequency were recorded continuously during the last 5-min of each trial. At the end of each trial, subjects were asked to give RPE. Energy cost (EC) and VE increased significantly with the grade (-15% < 0% < +15%) and with the carrying load. VT was significantly less important with hiking poles, while Bf was significantly more elevated. VO2 and EC increased (p < 0.05) with the use of the hiking poles only during the downhill trials. No significant effect of poles was observed on HR, RPE, and preferred walking speed. The average ratio between the locomotor and respiratory frequencies was significantly influenced by the three experimental factors tested. There was a significant relationship between average ratio of leg movement per breath and EC of walking among all conditions (r = 0.83, n = 12). These results suggest that the use of the hiking poles had a significant influence on the respiratory and energetic responses only during downhill walkinghttp://www.jssm.org/vol7/n1/5/v7n1-5text.phpEnergy costgradeshiking polesrespirationnordic-walking
collection DOAJ
language English
format Article
sources DOAJ
author Stephane Perrey
Nicolas Fabre
spellingShingle Stephane Perrey
Nicolas Fabre
EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES
Journal of Sports Science and Medicine
Energy cost
grades
hiking poles
respiration
nordic-walking
author_facet Stephane Perrey
Nicolas Fabre
author_sort Stephane Perrey
title EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES
title_short EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES
title_full EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES
title_fullStr EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES
title_full_unstemmed EXERTION DURING UPHILL, LEVEL AND DOWNHILL WALKING WITH AND WITHOUT HIKING POLES
title_sort exertion during uphill, level and downhill walking with and without hiking poles
publisher University of Uludag
series Journal of Sports Science and Medicine
issn 1303-2968
publishDate 2008-03-01
description This study examined the effects of poles when walking on the rate of perceived exertion (RPE), physiological and kinematics parameters, and upon the mean ratio between locomotor and respiratory rhythms. Twelve healthy male and female volunteers, aged 22 to 49 years old, completed on a motorized treadmill in a counterbalanced randomized order 12 walking trials for 10 min at an individually preferred walking speed, with three grades (horizontal level, uphill or downhill with a slope of 15%), with and without hiking poles and a load carriage of 15% of body mass. During all testing sessions, heart rate (HR), oxygen consumption (VO2), ventilation (VE), tidal volume (VT), breathing frequency (Bf), and stride frequency were recorded continuously during the last 5-min of each trial. At the end of each trial, subjects were asked to give RPE. Energy cost (EC) and VE increased significantly with the grade (-15% < 0% < +15%) and with the carrying load. VT was significantly less important with hiking poles, while Bf was significantly more elevated. VO2 and EC increased (p < 0.05) with the use of the hiking poles only during the downhill trials. No significant effect of poles was observed on HR, RPE, and preferred walking speed. The average ratio between the locomotor and respiratory frequencies was significantly influenced by the three experimental factors tested. There was a significant relationship between average ratio of leg movement per breath and EC of walking among all conditions (r = 0.83, n = 12). These results suggest that the use of the hiking poles had a significant influence on the respiratory and energetic responses only during downhill walking
topic Energy cost
grades
hiking poles
respiration
nordic-walking
url http://www.jssm.org/vol7/n1/5/v7n1-5text.php
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AT nicolasfabre exertionduringuphilllevelanddownhillwalkingwithandwithouthikingpoles
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