Analysis of anticipatory and compensatory postural adjustment in women of different age groups using surface electromyography

Postural balance is crucial for daily activities, relying on the coordination of sensory systems. Balance impairment, common in the elderly, is a leading cause of mortality in this population. To analyze balance, methods like postural adjustment analysis using electromyography (EMG) have been develo...

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Veröffentlicht in:	Biomedical physics & engineering express 2024-11, Vol.11 (1), p.15022
Hauptverfasser:	Moura, Luan de Almeida, Scardovelli, Terigi Augusto, Fernandes da Silva, André Roberto, da Palma Valério, Mariana, Barreto Campos, Higor, de Camargo, Matheus Leonardo Alves, Moraes, Isabella Titico, Martini, Silvia Cristina, da Silva Boschi, Silvia Regina Matos, de Oliveira Gonzalez, Tabajara, Pereira da Silva, Alessandro
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Sprache:	eng
Schlagworte:	Adult age Age Factors Aged Aging - physiology anticipatory postural adjustment compensatory postural adjustment Electromyography - methods Female Humans Lower Extremity - physiology Middle Aged Movement muscle activation Muscle, Skeletal - physiology postural balance Postural Balance - physiology Posture surface electromyography Young Adult
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creator	Moura, Luan de Almeida Scardovelli, Terigi Augusto Fernandes da Silva, André Roberto da Palma Valério, Mariana Barreto Campos, Higor de Camargo, Matheus Leonardo Alves Moraes, Isabella Titico Martini, Silvia Cristina da Silva Boschi, Silvia Regina Matos de Oliveira Gonzalez, Tabajara Pereira da Silva, Alessandro
description	Postural balance is crucial for daily activities, relying on the coordination of sensory systems. Balance impairment, common in the elderly, is a leading cause of mortality in this population. To analyze balance, methods like postural adjustment analysis using electromyography (EMG) have been developed. With age, women tend to experience reduced mobility and greater muscle loss compared to men. However, few studies have focused on postural adjustments in women of different ages using EMG of the lower limbs during laterolateral and anteroposterior movements. This gap could reveal a decrease in muscle activation time with aging, as activation time is vital for postural adjustments. This study aimed to analyze muscle activation times in women of different ages during postural adjustments. Thirty women were divided into two groups: young and older women. A controlled biaxial force platform was used for static and dynamic balance tests while recording lower limb muscle activity using EMG. Data analysis focused on identifying muscle activation points and analyzing postural adjustment times. Results showed significant differences in muscle activation times between the two groups across various muscles and platform tilt conditions. Younger women had longer muscle activation times than older women, particularly during laterolateral platform inclinations. In anteroposterior movements, older women exhibited longer activation times compared to their laterolateral performance, with fewer differences between the groups. Overall, older women had shorter muscle activation times than younger women, suggesting a potential indicator of imbalance and increased fall risk.
doi_str_mv	10.1088/2057-1976/ad8ce2
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Balance impairment, common in the elderly, is a leading cause of mortality in this population. To analyze balance, methods like postural adjustment analysis using electromyography (EMG) have been developed. With age, women tend to experience reduced mobility and greater muscle loss compared to men. However, few studies have focused on postural adjustments in women of different ages using EMG of the lower limbs during laterolateral and anteroposterior movements. This gap could reveal a decrease in muscle activation time with aging, as activation time is vital for postural adjustments. This study aimed to analyze muscle activation times in women of different ages during postural adjustments. Thirty women were divided into two groups: young and older women. A controlled biaxial force platform was used for static and dynamic balance tests while recording lower limb muscle activity using EMG. Data analysis focused on identifying muscle activation points and analyzing postural adjustment times. Results showed significant differences in muscle activation times between the two groups across various muscles and platform tilt conditions. Younger women had longer muscle activation times than older women, particularly during laterolateral platform inclinations. In anteroposterior movements, older women exhibited longer activation times compared to their laterolateral performance, with fewer differences between the groups. 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Phys. Eng. Express</addtitle><description>Postural balance is crucial for daily activities, relying on the coordination of sensory systems. Balance impairment, common in the elderly, is a leading cause of mortality in this population. To analyze balance, methods like postural adjustment analysis using electromyography (EMG) have been developed. With age, women tend to experience reduced mobility and greater muscle loss compared to men. However, few studies have focused on postural adjustments in women of different ages using EMG of the lower limbs during laterolateral and anteroposterior movements. This gap could reveal a decrease in muscle activation time with aging, as activation time is vital for postural adjustments. This study aimed to analyze muscle activation times in women of different ages during postural adjustments. Thirty women were divided into two groups: young and older women. A controlled biaxial force platform was used for static and dynamic balance tests while recording lower limb muscle activity using EMG. Data analysis focused on identifying muscle activation points and analyzing postural adjustment times. Results showed significant differences in muscle activation times between the two groups across various muscles and platform tilt conditions. Younger women had longer muscle activation times than older women, particularly during laterolateral platform inclinations. In anteroposterior movements, older women exhibited longer activation times compared to their laterolateral performance, with fewer differences between the groups. 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Phys. Eng. Express</addtitle><date>2024-11-28</date><risdate>2024</risdate><volume>11</volume><issue>1</issue><spage>15022</spage><pages>15022-</pages><issn>2057-1976</issn><eissn>2057-1976</eissn><abstract>Postural balance is crucial for daily activities, relying on the coordination of sensory systems. Balance impairment, common in the elderly, is a leading cause of mortality in this population. To analyze balance, methods like postural adjustment analysis using electromyography (EMG) have been developed. With age, women tend to experience reduced mobility and greater muscle loss compared to men. However, few studies have focused on postural adjustments in women of different ages using EMG of the lower limbs during laterolateral and anteroposterior movements. This gap could reveal a decrease in muscle activation time with aging, as activation time is vital for postural adjustments. This study aimed to analyze muscle activation times in women of different ages during postural adjustments. Thirty women were divided into two groups: young and older women. A controlled biaxial force platform was used for static and dynamic balance tests while recording lower limb muscle activity using EMG. Data analysis focused on identifying muscle activation points and analyzing postural adjustment times. Results showed significant differences in muscle activation times between the two groups across various muscles and platform tilt conditions. Younger women had longer muscle activation times than older women, particularly during laterolateral platform inclinations. In anteroposterior movements, older women exhibited longer activation times compared to their laterolateral performance, with fewer differences between the groups. 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subjects	Adult age Age Factors Aged Aging - physiology anticipatory postural adjustment compensatory postural adjustment Electromyography - methods Female Humans Lower Extremity - physiology Middle Aged Movement muscle activation Muscle, Skeletal - physiology postural balance Postural Balance - physiology Posture surface electromyography Young Adult
title	Analysis of anticipatory and compensatory postural adjustment in women of different age groups using surface electromyography
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