Falling is one of the major causes of unintentional death or injury worldwide. People older than 65 years and people suffering from neurological disease have a higher chance of falling, which indicates the involvement of higher brain structures such as the cortex. For this reason, cortical activity underlying balance control has been subject of research using mobile neuroimaging methods during balance tasks. Often, the focus is on the moment balance is lost and a compensatory action is made. In this study, differences between two different strategies are investigated. Healthy, young participants receive balance perturbations by backward translation of a platform on which they stand, while recording high-density electroencephalography (EEG) ...
Anticipatory postural adjustments (APA) are necessary for counteracting destabilizing forces induced...
In this paper, we propose the preliminary version of a novel pre-impact fall detection (PIFD) strate...
Introduction. A fundamental aspect of planning future actions is the performance and control of moto...
Understanding how the human brain cortex behaves when the dynamical balance is unexpectedly challeng...
The contributions of the cerebral cortex to human balance control are clearly demonstrated by the pr...
International audienceAnticipatory postural adjustments (APAs) compensate in advance for the destabi...
Heightened reliance on the cerebral cortex for postural stability with aging is well-known, yet the ...
Background: Although previous studies suggest that postural control requires attention and other cog...
The ability to control and adapt joint stiffness is essential in human motor control. Both control l...
This review examined 83 articles using neuroimaging modalities to investigate the neural correlates ...
Anticipatory postural adjustments (APA) are necessary for counteracting destabilizing forces induced...
In this paper, we propose the preliminary version of a novel pre-impact fall detection (PIFD) strate...
Introduction. A fundamental aspect of planning future actions is the performance and control of moto...
Understanding how the human brain cortex behaves when the dynamical balance is unexpectedly challeng...
The contributions of the cerebral cortex to human balance control are clearly demonstrated by the pr...
International audienceAnticipatory postural adjustments (APAs) compensate in advance for the destabi...
Heightened reliance on the cerebral cortex for postural stability with aging is well-known, yet the ...
Background: Although previous studies suggest that postural control requires attention and other cog...
The ability to control and adapt joint stiffness is essential in human motor control. Both control l...
This review examined 83 articles using neuroimaging modalities to investigate the neural correlates ...
Anticipatory postural adjustments (APA) are necessary for counteracting destabilizing forces induced...
In this paper, we propose the preliminary version of a novel pre-impact fall detection (PIFD) strate...
Introduction. A fundamental aspect of planning future actions is the performance and control of moto...