Guilherme Augusto Gomes De Villa scite author profile

The purpose of this study was to investigate the effects of different vertical positions of an asymmetrical load on the anticipatory postural adjustments phase of gait initiation. Sixty-eight college students (32 males, 36 females; age: 23.65 ± 3.21 years old; weight: 69.98 ± 8.15 kg; height: 1.74 ± 0.08 m) were enrolled in the study. Ground reaction forces and moments were collected using two force platforms. The participants completed three trials under each of the following random conditions: no-load (NL), waist uniformly distributed load (WUD), shoulder uniformly distributed load (SUD), waist stance foot load (WST), shoulder stance foot load (SST), waist swing foot load (WSW), and shoulder swing foot load (SSW). The paired Hotelling’s T-square test was used to compare the experimental conditions. The center of pressure (COP) time series were significantly different for the SUD vs. NL, SST vs. NL, WST vs. NL, and WSW vs. NL comparisons. Significant differences in COP time series were observed for all comparisons between waist vs. shoulder conditions. Overall, these differences were greater when the load was positioned at the shoulders. For the center of mass (COM) time series, significant differences were found for the WUD vs. NL and WSW vs. NL conditions. However, no differences were observed with the load positioned at the shoulders. In conclusion, only asymmetrical loading at the waist produced significant differences, and the higher the extra load, the greater the effects on COP behavior. By contrast, only minor changes were observed in COM behavior, suggesting that the changes in COP (the controller) behavior are adjustments to maintain the COM (controlled object) unaltered.

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Effects of additional load at different heights on gait initiation: A statistical parametric mapping of center of pressure and center of mass behavior

Vieira

¹

,

Rodrigues

²

,

Assis

³

et al. 2021

PLoS ONE

2

0

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The purpose of this study was to investigate the effects of different vertical positions of an asymmetrical load on the anticipatory postural adjustments phase of gait initiation. Sixty-eight college students (32 males, 36 females; age: 23.65 ± 3.21 years old; weight: 69.98 ± 8.15 kg; height: 1.74 ± 0.08 m) were enrolled in the study. Ground reaction forces and moments were collected using two force platforms. The participants completed three trials under each of the following random conditions: no-load (NL), waist uniformly distributed load (WUD), shoulder uniformly distributed load (SUD), waist stance foot load (WST), shoulder stance foot load (SST), waist swing foot load (WSW), and shoulder swing foot load (SSW). The paired Hotelling’s T-square test was used to compare the experimental conditions. The center of pressure (COP) time series were significantly different for the SUD vs. NL, SST vs. NL, WST vs. NL, and WSW vs. NL comparisons. Significant differences in COP time series were observed for all comparisons between waist vs. shoulder conditions. Overall, these differences were greater when the load was positioned at the shoulders. For the center of mass (COM) time series, significant differences were found for the WUD vs. NL and WSW vs. NL conditions. However, no differences were observed with the load positioned at the shoulders. In conclusion, only asymmetrical loading at the waist produced significant differences, and the higher the extra load, the greater the effects on COP behavior. By contrast, only minor changes were observed in COM behavior, suggesting that the changes in COP (the controller) behavior are adjustments to maintain the COM (controlled object) unaltered.

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Árvores De Decisão Como Ferramenta De Auxílio Na Análise Biomecânica

Carafini¹,

Rodrigues²,

Villa³

et al. 2018

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Resumo: Um exemplo de aplicação de árvores de decisão como ferramenta de auxílio na análise biomecânica é apresentado. O estudo foi conduzido com séries temporais de componentes verticais da força de reação do solo coletadas de 6 amputados unilaterais transfemorais e 6 indivíduos sem amputação, durante a marcha, em situações de declive e horizontal. As regras de decisão foram tomadas para obtenção das características temporais de marcha dos transfemorais que mais se diferem da marcha normal. Nas duas situações, o tempo do primeiro pico de força do lado protético foi o principal discriminante, obtido com taxas médias de acerto de 91.7% e 96.9% nas situações horizontal e declive, respectivamente. Palavras-chave: árvores de decisão, marcha, transfemoral. Abstract: An example of decision trees application as

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Guilherme Augusto Gomes De Villa

Quantification of Coordination Variability During Gait in Fallers and Non-fallers Older Adults at Different Speeds

Efficiency of AR, MA and ARMA Models in Prediction of Raw and Filtered Center of Pressure Signals

Effects of additional load at different heights on gait initiation: a statistical parametric mapping of center of pressure and center of mass behavior

Effects of additional load at different heights on gait initiation: A statistical parametric mapping of center of pressure and center of mass behavior

Árvores De Decisão Como Ferramenta De Auxílio Na Análise Biomecânica

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