Posterior parietal cortex and visuospatial control in near and far space

Mahayana, Indra Tri; HARTONO, Hartono; Tcheang, Lili; Chen, Chiao Yun; Juan, Chi Hung; Muggleton, Neil G.

doi:10.2478/s13380-014-0229-3

Cited by 3 publications

(2 citation statements)

References 54 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The same distortion is not present above the knee because in this body zone the audio feedback of movements isn’t present and multisensory integration is similar to the upper body part where the sensory-motor training with ABBI is useful for spatial recalibration (Finocchietti et al, 2017 ). As regard the spatial areas considered, several studies indicate that space is processed differently depending both: the body part considered (Serino et al, 2015 ; di Pellegrino and Làdavas, 2015 ) and on the distance from the body (Làdavas and Farnè, 2004 ; Aimola et al, 2012 ; Tomasino et al, 2012 ; Caçola et al, 2013 ; Mahayana et al, 2014 ). Other studies have found a difference between frontal and rear space (Kóbor et al, 2006 ; Occelli et al, 2011 ; Van der Stoep et al, 2015 ), showing a higher saliency of sounds in the back (Farnè and Làdavas, 2002 ).…”

Section: Discussionmentioning

confidence: 99%

Audio Motor Training at the Foot Level Improves Space Representation

Aggius-Vella

Campus

Finocchietti

et al. 2017

Front. Integr. Neurosci.

View full text Add to dashboard Cite

Spatial representation is developed thanks to the integration of visual signals with the other senses. It has been shown that the lack of vision compromises the development of some spatial representations. In this study we tested the effect of a new rehabilitation device called ABBI (Audio Bracelet for Blind Interaction) to improve space representation. ABBI produces an audio feedback linked to body movement. Previous studies from our group showed that this device improves the spatial representation of space in early blind adults around the upper part of the body. Here we evaluate whether the audio motor feedback produced by ABBI can also improve audio spatial representation of sighted individuals in the space around the legs. Forty five blindfolded sighted subjects participated in the study, subdivided into three experimental groups. An audio space localization (front-back discrimination) task was performed twice by all groups of subjects before and after different kind of training conditions. A group (experimental) performed an audio-motor training with the ABBI device placed on their foot. Another group (control) performed a free motor activity without audio feedback associated with body movement. The other group (control) passively listened to the ABBI sound moved at foot level by the experimenter without producing any body movement. Results showed that only the experimental group, which performed the training with the audio-motor feedback, showed an improvement in accuracy for sound discrimination. No improvement was observed for the two control groups. These findings suggest that the audio-motor training with ABBI improves audio space perception also in the space around the legs in sighted individuals. This result provides important inputs for the rehabilitation of the space representations in the lower part of the body.

show abstract

Section: Discussionmentioning

confidence: 99%

Audio Motor Training at the Foot Level Improves Space Representation

Aggius-Vella

Campus

Finocchietti

et al. 2017

Front. Integr. Neurosci.

View full text Add to dashboard Cite

show abstract

“…Recent studies suggest that automatic corrections of hand pointings are mainly mediated by the dorsal visual pathway and associated with posterior parietal cortex (PPC) [11,12,13]. The neurological evidence supporting this view comes from the study on bilateral lesion of the PPC [9,14,15], and transcranial magnetic stimulation (TMS) applied to the cortical areas to disrupt the unconscious correction [16]. In addition, the direct evidence of automatic correction in stereoscopic depth has been reported in our recent work [13].…”

Section: Introductionmentioning

confidence: 60%

Activity testing model for automatic correction of hand pointing

Sun

Zhang

et al. 2016

Information Processing Letters

View full text Add to dashboard Cite

In this paper, an activity testing model was proposed to detect and assess automatic correction of hand pointing. The average recognition rate for automatic corrections of hand pointings was 98.2% using the acceleration data. Moreover, a score was calculated using the activity data of successful recognition and it provided sufficient estimation for the performance level of automatic correction. Experimental results showed that our model was effective and it could be applied to neurorehabilitation.

show abstract