Human treadmill walking needs attention

Jean Philippe Regnaux,Djamel Ben Smail,Johanna Robertson,Bernard Bussel,Olivier Daniel

doi:10.1186/1743-0003-3-19

Jean Philippe Regnaux, Djamel Ben Smail + Show 3 more

Open Access

https://doi.org/10.1186/1743-0003-3-19

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Abstract

BackgroundThe aim of the study was to assess the attentional requirements of steady state treadmill walking in human subjects using a dual task paradigm. The extent of decrement of a secondary (cognitive) RT task provides a measure of the attentional resources required to maintain performance of the primary (locomotor) task. Varying the level of difficulty of the reaction time (RT) task is used to verify the priority of allocation of attentional resources.Methods11 healthy adult subjects were required to walk while simultaneously performing a RT task. Participants were instructed to bite a pressure transducer placed in the mouth as quickly as possible in response to an unpredictable electrical stimulation applied on the back of the neck. Each subject was tested under five different experimental conditions: simple RT task alone and while walking, recognition RT task alone and while walking, walking alone. A foot switch system composed of a pressure sensitive sensor was placed under the heel and forefoot of each foot to determine the gait cycle duration.ResultsGait cycle duration was unchanged (p > 0.05) by the addition of the RT task. Regardless of the level of difficulty of the RT task, the RTs were longer during treadmill walking than in sitting conditions (p < 0.01) indicating that an increased amount of resources are required for the maintainance of walking performance on a treadmill at a steady state. No interaction (p > 0.05) was found between the attentional demand of the walking task and the decrement of performance found in the RT task under varying levels of difficulty. This finding suggests that the healthy subjects prioritized the control of walking at the expense of cognitive performance.ConclusionWe conclude that treadmill walking in young adults is not a purely automatic task. The methodology and outcome measures used in this study provide an assessment of the attentional resources required by walking on the treadmill at a steady state.

Highlights

The aim of the study was to assess the attentional requirements of steady state treadmill walking in human subjects using a dual task paradigm
In contrast to the abundance of data gained from invertebrates, rats and cats, which has lead to the general assumption of a central pattern generator (CPG) underlying the central control of locomotion, there is relatively little known about spinal networks acting like CPGs in humans [7,8]
The attentional demands on steady state treadmill walking reaction time (RT) data were examined under the 2 experimental conditions x 2 levels of difficulty of the RT repeated measures analysis of variance (ANOVA)

Summary

Introduction

The aim of the study was to assess the attentional requirements of steady state treadmill walking in human subjects using a dual task paradigm. Journal of NeuroEngineering and Rehabilitation 2006, 3:19 http://www.jneuroengrehab.com/content/3/1/19 are able to "walk" and even adjust their gait patterns on a treadmill after transection of the spinal cord, for review see [4,5] In this case, walking is not under any supraspinal control and is completely automatic. The neural system responsible for this automatism in animals is thought to be located at spinal level and is referred to as the central pattern generator (CPG) This generator, which is activated by peripheral afferents (muscles, articulations and cutaneous), is thought to be stimulated through treadmill training [1]. This raises the question regarding human locomotion on a treadmill: In healthy adults, is walking on a treadmill at a steady state an 'automatic' motor task or is it under voluntary control?

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