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Objective To compare the spatial-temporal parameters and walking kinematics of toddlers wearing biomimetic shoes, regular shoes (daily use owned shoes), and barefoot. Methods Spatial-temporal parameters (speed, step length, and stride width), the mean vertical displacement of the center of mass (COM), knee flexion peak, and maximal foot height were analyzed. Results Children were not different in biomimetic shoes and barefoot conditions on speed, step length, and COM vertical displacement. There was no difference among conditions on stride width and foot height. The knee flexion peak was greater in shod conditions than barefoot. The regular shoes showed greater COM vertical displacement than biomimetic shoes and barefoot. Conclusion The findings showed that shoes affected the walking pattern in young children, but a shoe with a biomimetic design had a lesser effect on the walking pattern.
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Objective To evaluate the biomechanical behavior of the medial longitudinal arch (MLA) of the foot and the kinematic parameters of the lower limbs with biomimetic footwear (BF) and non-biomimetic (NB1, NB2, NB3 and NB4) footwear in children at the beginning of the gait acquisition phase. Methods Four toddlers were evaluated at the beginning of the gait acquisition phase under the following conditions: walking barefoot, ambulation with BF and NB1, NB2, NB3 and NB4 footwear in hard floor. BF is described as biomimetic because of its property of emulating natural and irregular floors through a dynamic internal insole. The MLA and kinematics of the hip, knee, and ankle during gait were evaluated by three-dimensional motion analysis system. The similarity between the kinematic curves of barefoot and footwear conditions was analyzed by root mean square error (RMSE). Results The use of BF presented the highest magnitude of MLA and the greatest difference in relation to barefoot condition (higher RMSE). The BF showed less difference in the kinematics of the knee and ankle joints during gait when compared to barefoot condition (lower RMSE). NB2 footwear presented hip kinematics more similar to barefoot condition (lower RMSE). Conclusion Biomimetics footwear and NB2 shoes (both with wider forefoot region) generated smaller differences in lower limbs compared to barefoot. In addition, the MLA was higher in the BF, probably because different design from other shoes.
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Abstract Objective To evaluate the biomechanical behavior of the medial longitudinal arch (MLA) of the foot and the kinematic parameters of the lower limbs with biomimetic footwear (BF) and non-biomimetic (NB1, NB2, NB3 and NB4) footwear in children at the beginning of the gait acquisition phase. Methods Four toddlers were evaluated at the beginning of the gait acquisition phase under the following conditions: walking barefoot, ambulation with BF and NB1, NB2, NB3 and NB4 footwear in hard floor. BF is described as biomimetic because of its property of emulating natural and irregular floors through a dynamic internal insole. The MLA and kinematics of the hip, knee, and ankle during gait were evaluated by three-dimensional motion analysis system. The similarity between the kinematic curves of barefoot and footwear conditions was analyzed by root mean square error (RMSE). Results The use of BF presented the highest magnitude of MLA and the greatest difference in relation to barefoot condition (higher RMSE). The BF showed less difference in the kinematics of the knee and ankle joints during gait when compared to barefoot condition (lower RMSE). NB2 footwear presented hip kinematics more similar to barefoot condition (lower RMSE). Conclusion Biomimetics footwear and NB2 shoes (both with wider forefoot region) generated smaller differences in lower limbs compared to barefoot. In addition, the MLA was higher in the BF, probably because different design from other shoes.
Resumo Objetivo Avaliar o comportamento do arco longitudinal medial do pé (ALM) e os parâmetros cinemáticos dos membros inferiores durante a deambulação com calçados biomiméticos (CBs) e não biomiméticos (NB1, NB2, NB3 e NB4) em crianças no início da fase de aquisição da marcha. Métodos Foram avaliadas quatro crianças no início da fase de aquisição da marcha nas seguintes condições: andar descalço, andar com CBs e calçados NB1, NB2, NB3 e NB4 em solo plano. O calçado biomimético é descrito como biomimético por emular pisos naturais e irregulares por meio de uma palmilha interna dinâmica. O ALM e a cinemática do quadril, joelho e tornozelo durante a marcha foram avaliados por meio de sistema de análise do movimento tridimensional. A similaridade entre as curvas cinemáticas das condições descalça e com calçado foi analisada por meio do cálculo de root mean square error (RMSE). Resultados O CB foi o que apresentou maior magnitude do ALM e maior diferença do ALM em relação à condição descalça (maior RMSE). O CB apresentou ainda menor diferença na cinemática das articulações do joelho e tornozelo durante a marcha quando comparado à condição descalça (menor RMSE). O calçado NB2 apresentou a cinemática do quadril mais semelhante à condição descalça (menor RMSE). Conclusão Os calçados CB e NB2 que apresentam a região do antepé mais larga geraram menores diferenças na cinemática dos membros inferiores. Além disso, o ALM foi maior no CB provavelmente devido a seu design ser diferente daquele dos demais calçados.
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Humanos , Lactante , Zapatos , Caminata , Biomimética , Pie , MarchaRESUMEN
BACKGROUND: Improvement of postural control in children and adolescents with cerebral palsy is a primary goal in child rehabilitation. OBJECTIVE: A systematic review investigated whether combining balance-training interventions with other active interventions enhances the effects of the active intervention alone on postural control of children and adolescents with cerebral palsy. METHODS: Searches were performed in MEDLINE, PEDro, CINAHL, Cochrane and EMBASE databases without date or language restrictions. Randomized controlled trials investigating the combination of balance-training interventions with other active interventions on the postural control of children and adolescents with cerebral palsy were included. Two independent reviewers screened studies, extracted data, and assessed methodological quality of included studies. Meta-analysis was conducted, and quality of the evidence followed the GRADE methodology. Pooled data were presented using standardized mean difference and 95% confidence interval. RESULTS: Seven studies involving 194 participants were included in this review. A large additional effect on postural control was found when balance-training interventions were combined with Neurodevelopmental Treatment at short-term (standardized mean difference of 1.3; 95% confidence interval 0.5, 2.0, p=0.001). The quality of the evidence was very low due to publication bias, imprecision and inconsistency. CONCLUSION: Combining balance-training interventions with other active interventions may enhance effects on postural control of this population at short-term. As the estimated effect had only very low quality of evidence to support it, larger studies with low risk of bias are needed.
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Parálisis Cerebral/rehabilitación , Equilibrio Postural , Adolescente , Niño , HumanosRESUMEN
A literatura propõe mecanismos biomecânicos que relacionam a pronação subtalar excessiva ao desenvolvimento de diversas patologias músculo-esqueléticas. A presença dos desalinhamentos anatômicos antepé varo, retropé varo e tíbia vara pode levar à ocorrência da pronação subtalar excessiva. Entretanto, não existe um consenso sobre a contribuição do padrão de movimento e da presença desses desalinhamentos para o desenvolvimento de patologias. O objetivo deste estudo foi realizar uma revisão da literatura para investigar a influência de varismos aumentados de antepé, retropé e tíbia e da pronação subtalar excessiva no surgimento de patologias músculo-esqueléticas. Foi realizada uma pesquisa bibliográfica sistematizada nas bases Medline, ISI Web of Science, Lilacs e SciELO, tendo sido selecionados 13 estudos analíticos. Do total de 13 estudos, 10 encontraram associação de patologias no membro inferior com um ou mais dos desalinhamentos anatômicos analisados ou com um ou mais parâmetros cinemáticos relacionadas à pronação subtalar excessiva. A análise dos estudos sugere que a pronação subtalar excessiva e/ou a presença de desalinhamentos que podem levar a esse padrão de movimento são possíveis fatores de risco para o desenvolvimento de patologias músculo-esqueléticas no membro inferior.
The literature proposes biomechanical mechanisms that link excessive subtalar joint pronation to the development of several musculoskeletal pathologies. The presence of forefoot varus, rearfoot varus and tibiofibular varum can lead to the occurrence of excessive subtalar pronation. However, there is no consensus about the contribution of the movement pattern and/or the presence of these anatomical misalignments to the development of pathologies. The aim of the present study was to conduct a literature review in order to investigate the influence of increased varus alignment of forefoot, rearfoot and shank and of excessive subtalar pronation on the development of musculoskeletal pathologies. A systematic literature search was performed in the databases Medline, ISI Web of Science, Lilacs and SciELO, and 13 analytic studies were selected. Ten studies found significant associations of lower-limb musculoskeletal pathologies with one or more of the anatomical misalignments analyzed or with one or more kinematic parameters related to excessive subtalar pronation. The analysis of the studies suggests that excessive pronation and/or the presence of these anatomical misalagniments should be regarded as possible risk factors for the development of musculoskeletal pathologies in the lower limb.