Thirty healthy elderly participants (mean age = 77.3) learned the names of manipulable and nonmanipulable objects while adopting a control posture (hands in front of them) or an interfering posture (holding their hands behind their back). Results on a recall task showed a postural interference (PI) effect, with the interfering posture reducing the memory of manipulable objects, but not of nonmanipulable ones. The effect was similar to the Postural Interference effect previously observed in young adults, although with a lower performance. These results call into question the embodied theory hypothesis that the deterioration of memory in aging is related to the decline of the sensorimotor system
Motor imagery (M.I.) is a cognitive process in which movements are mentally evoked without overt act...
The ability to stand upright and walk is generally taken for granted, yet control of balance utilize...
Controlling body sway while standing is an active process involving lower as well as higher neural c...
Physical and imagined movements show similar behavioral constraints and neurophysiological activatio...
Several studies have shown age-related changes in motor imagery (MI) in older adults and the associa...
Classical studies in animal preparations suggest a strong role for spinal control of posture. In hum...
Grounded cognition proposes that memory shares processing resources with sensorimotor systems. The a...
BACKGROUND:Normal aging significantly influences motor and cognitive performance. Little is known ab...
Postural control declines across adult lifespan. Non-physical balance training has been suggested a...
Motor imagery (MI) shares many of the neurophysiological and behavioural characteristics associated ...
<p>Abstract copyright data collection owner.</p>Everyday body coordinations such as standing or walk...
As we get older many physiological functions decline, including muscle strength, flexibility, and me...
The last decade has witnessed a growing number of studies in neuropsychology and experimental psycho...
Movement based interventions such as imagery and action observation are used increasingly to support...
According to grounded cognition, the format of representation of knowledge is sensorimotor. This mea...
Motor imagery (M.I.) is a cognitive process in which movements are mentally evoked without overt act...
The ability to stand upright and walk is generally taken for granted, yet control of balance utilize...
Controlling body sway while standing is an active process involving lower as well as higher neural c...
Physical and imagined movements show similar behavioral constraints and neurophysiological activatio...
Several studies have shown age-related changes in motor imagery (MI) in older adults and the associa...
Classical studies in animal preparations suggest a strong role for spinal control of posture. In hum...
Grounded cognition proposes that memory shares processing resources with sensorimotor systems. The a...
BACKGROUND:Normal aging significantly influences motor and cognitive performance. Little is known ab...
Postural control declines across adult lifespan. Non-physical balance training has been suggested a...
Motor imagery (MI) shares many of the neurophysiological and behavioural characteristics associated ...
<p>Abstract copyright data collection owner.</p>Everyday body coordinations such as standing or walk...
As we get older many physiological functions decline, including muscle strength, flexibility, and me...
The last decade has witnessed a growing number of studies in neuropsychology and experimental psycho...
Movement based interventions such as imagery and action observation are used increasingly to support...
According to grounded cognition, the format of representation of knowledge is sensorimotor. This mea...
Motor imagery (M.I.) is a cognitive process in which movements are mentally evoked without overt act...
The ability to stand upright and walk is generally taken for granted, yet control of balance utilize...
Controlling body sway while standing is an active process involving lower as well as higher neural c...