Motor imagery (MI) is a mental representation of an action without its physical execution. Recently, the simultaneous movement of the body has been added to the mental simulation. This refers to dynamic motor imagery (dMI). This study was aimed at analyzing the temporal features for static and dMI in different locomotor conditions (natural walking, NW, light running, LR, lateral walking, LW, backward walking, BVV), and whether these performances were more related to all the given conditions or present only in walking. We have been also evaluated the steps performed in the dMI in comparison with the ones performed by real locomotion. 20 healthy participants (29.3 +/- 5.1 years old) were asked to move towards a visualized target located at 10 mt. In dMI, no significant temporal differences respect the actual locomotion were found for all the given tasks (NW: p = 0.058, LR: p = 0.636, BW: p = 0.096; LW: p = 0,487). Significant temporal differences between static imagery and actual movements were found for LA (p <, 0.001) and LW (p < 0.001), due to an underestimation of time needed to achieve the target in imagined locomotion. Significant differences in terms of number of steps among tasks were found for LW (p < 0.001) and BW (p = 0.036), whereas neither in NW (p = 0.124) nor LA (p = 0.391) between dMI and real locomotion. Our results confirmed that motor imagery is a task-dependent process, with walking being temporally closer than other locomotor conditions. Moreover, the time records of dMI are nearer to the ones of actual locomotion respect than the ones of static motor imagery.

Different performances in static and dynamic imagery and real locomotion. An exploratory trial / Fusco, A; Iosa, M; Gallotta, Mc; Paolucci, S; Baldari, C; Guidetti, L. - In: FRONTIERS IN HUMAN NEUROSCIENCE. - ISSN 1662-5161. - 8:(2014). [10.3389/fnhum.2014.00760]

Different performances in static and dynamic imagery and real locomotion. An exploratory trial

Iosa M;Gallotta MC;
2014

Abstract

Motor imagery (MI) is a mental representation of an action without its physical execution. Recently, the simultaneous movement of the body has been added to the mental simulation. This refers to dynamic motor imagery (dMI). This study was aimed at analyzing the temporal features for static and dMI in different locomotor conditions (natural walking, NW, light running, LR, lateral walking, LW, backward walking, BVV), and whether these performances were more related to all the given conditions or present only in walking. We have been also evaluated the steps performed in the dMI in comparison with the ones performed by real locomotion. 20 healthy participants (29.3 +/- 5.1 years old) were asked to move towards a visualized target located at 10 mt. In dMI, no significant temporal differences respect the actual locomotion were found for all the given tasks (NW: p = 0.058, LR: p = 0.636, BW: p = 0.096; LW: p = 0,487). Significant temporal differences between static imagery and actual movements were found for LA (p <, 0.001) and LW (p < 0.001), due to an underestimation of time needed to achieve the target in imagined locomotion. Significant differences in terms of number of steps among tasks were found for LW (p < 0.001) and BW (p = 0.036), whereas neither in NW (p = 0.124) nor LA (p = 0.391) between dMI and real locomotion. Our results confirmed that motor imagery is a task-dependent process, with walking being temporally closer than other locomotor conditions. Moreover, the time records of dMI are nearer to the ones of actual locomotion respect than the ones of static motor imagery.
2014
walking; dynamic motor imagery; human locomotion; healthy; mental representation; chronometry
01 Pubblicazione su rivista::01a Articolo in rivista
Different performances in static and dynamic imagery and real locomotion. An exploratory trial / Fusco, A; Iosa, M; Gallotta, Mc; Paolucci, S; Baldari, C; Guidetti, L. - In: FRONTIERS IN HUMAN NEUROSCIENCE. - ISSN 1662-5161. - 8:(2014). [10.3389/fnhum.2014.00760]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1478164
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