Modeling dynamic resource utilization in populations with unique constraints: Preadolescents with and without Down syndrome

In this study we used a damped inverted pendulum and spring with an escapement function model to compare the global levels of stiffness and forcing used by 12 preadolescents with Down syndrome (DS) and 12 with typical development (TD). Participants walked overground at their self-selected speed and...

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Veröffentlicht in:	Human movement science 2004-09, Vol.23 (2), p.133-156
Hauptverfasser:	Ulrich, Beverly D., Haehl, Victoria, Buzzi, Ugo H., Kubo, Masayoshi, Holt, Kenneth G.
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Sprache:	eng
Schlagworte:	Biological and medical sciences Child Chromosome aberrations Down syndrome Down Syndrome - physiopathology Down Syndrome - psychology Humans Mathematical model Medical genetics Medical sciences Models, Theoretical Motor processes Resource Allocation - statistics & numerical data
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container_title	Human movement science
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creator	Ulrich, Beverly D. Haehl, Victoria Buzzi, Ugo H. Kubo, Masayoshi Holt, Kenneth G.
description	In this study we used a damped inverted pendulum and spring with an escapement function model to compare the global levels of stiffness and forcing used by 12 preadolescents with Down syndrome (DS) and 12 with typical development (TD). Participants walked overground at their self-selected speed and on a treadmill at speeds slower and faster than overground. Children with DS, who are characterized as hypotonic with reduced capacity for producing muscle force, exhibited significantly higher levels of stiffness and forcing (angular impulse) when walking on the treadmill and higher forcing but not stiffness overground, than children with TD. Both groups adapted to imposed speed increases similarly by increasing their global stiffness and angular impulse. We propose children with DS increased stiffness in order to overcome their hypotonia and joint laxity, thus, optimizing on stability, rather than metabolic efficiency. Higher angular impulse values for children with DS may reflect higher energy cost associated with increasing stiffness and their inherent biomechanical and physiological characteristics that reduce efficiency. We conclude that the inverted pendulum and spring with escapement function model is a useful tool for uncovering solutions to movement problems-solutions that reflect the dynamic resources of the individual and ones that are discovered, rather than prescribed.
doi_str_mv	10.1016/j.humov.2004.06.002
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source	MEDLINE; Elsevier ScienceDirect Journals
subjects	Biological and medical sciences Child Chromosome aberrations Down syndrome Down Syndrome - physiopathology Down Syndrome - psychology Humans Mathematical model Medical genetics Medical sciences Models, Theoretical Motor processes Resource Allocation - statistics & numerical data
title	Modeling dynamic resource utilization in populations with unique constraints: Preadolescents with and without Down syndrome
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