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Individual muscle force-energy rate is altered during crouch gait: A neuro-musculoskeletal evaluation

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dc.contributor.author Ravera, Emiliano Pablo
dc.contributor.author Crespo, Marcos José
dc.contributor.author Rozumalski, Adam
dc.date.accessioned 2023-01-26T14:00:11Z
dc.date.available 2023-01-26T14:00:11Z
dc.date.issued 2022-06
dc.identifier.citation Ravera EP, Crespo MJ, Rozumalski A. Individual muscle force-energy rate is altered during crouch gait: A neuro-musculoskeletal evaluation. J Biomech. 2022 Jun;139:111141. doi: 10.1016/j.jbiomech.2022.111141. Epub 2022 May 17. es_ES
dc.identifier.uri https://doi.org/10.1016/j.jbiomech.2022.111141
dc.identifier.uri https://repositorio.fleni.org.ar/xmlui/handle/123456789/785
dc.description.abstract Children with pathological movement patterns like crouch gait present with excessive knee and hip flexion during stance phase due to multiple factors. A good treatment requires that the primary factor is reduced or eliminated to optimise the relationship between muscle energy expenditure and muscle force production during walking. In this way, neuro-musculoskeletal simulations are reliable tools to evaluate how individual muscles contribute to gait. However, previous studies have reported that changes in energy consumed per unit time have not correlated with crouch gait severity. In this study, EMG-informed musculoskeletal simulations combined with analytical approaches (which include altered muscle composition and morphology presented in children with CP) were used to evaluate individual muscle force, energy expenditure and their relationship in five typically developing children and eleven children with different degrees of crouch gait severity. In agreement with the literature, our results show an increase in Watts required per Newton of muscle force during walking in children with crouch gait when compared to unimpaired gait. This is true for all levels of crouch but does not correlate with severity. Hamstrings required more than three times the muscle energy per Newton of muscle force during crouch gait compared with unimpaired gait. Also, a different strategy in muscle force-energy rate of quadriceps and plantarflexors muscle groups was present in crouch gait. Finally, our results showed weakness in hamstrings and gastrocnemius with an increment in their muscle energy expenditures during moderate and severe crouch gait. This could suggest that well controlled strength training (i.e. personalised and designed to improve both the muscle strength and functional mobility) focused in these muscle groups could improve knee extension of these children by providing a more efficient plantarflexor-knee extension couple during stance phase (action of the ankle plantarflexor muscles to control the progress of the tibia over the foot and the knee kinetics) and more control of the distal limb at initial contact. However, strength training of hamstrings only could be better for children with mild crouch gait. es_ES
dc.language.iso eng es_ES
dc.publisher Elsevier Science es_ES
dc.rights info:eu-repo/semantics/openAccess
dc.rights.uri https://creativecommons.org/licenses/by/2.5/ar/
dc.subject Cerebral Palsy es_ES
dc.subject Parálisis Cerebral es_ES
dc.title Individual muscle force-energy rate is altered during crouch gait: A neuro-musculoskeletal evaluation es_ES
dc.type info:eu-repo/semantics/article es_ES
dc.type info:eu-repo/semantics/publishedVersion
dc.description.fil Fil: Crespo, Marcos José. Fleni. Centro de Rehabilitación Adultos CR. Laboratorio de Marcha y Análisis de Movimiento; Argentina.
dc.description.fil Fil: Ravera, Emiliano Pablo. CONICET-UNER; Argentina.
dc.description.fil Fil: Rozumalski, Adam. James R. Gage Center for Gait & Motion Analysis; Estados Unidos.
dc.relation.ispartofVOLUME 139
dc.relation.ispartofPAGINATION 111141
dc.relation.ispartofCOUNTRY Estados Unidos
dc.relation.ispartofCITY Nueva York
dc.relation.ispartofTITLE Journal of biomechanics
dc.relation.ispartofISSN 1873-2380
dc.type.snrd info:ar-repo/semantics/artículo es_ES


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