Pre-motor deficits in left spatial neglect: An EEG study on Contingent Negative Variation (CNV) and response-related beta oscillatory activity

Right Brain Damaged patients with left spatial neglect (N+), are characterised by poor allocation of attention in the contralesional left side of space. In a recent study (Lasaponara et al., 2018) we showed during orienting of spatial attention with endogenous central cues, both the EEG markers refl...

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Bibliographic Details
Published in:Neuropsychologia 2020-10, Vol.147, p.107572-107572, Article 107572
Main Authors: Lasaponara, Stefano, Pinto, Mario, Scozia, Gabriele, Pellegrino, Michele, D'Onofrio, Marianna, Isabella, Roberto, Doricchi, Fabrizio
Format: Article
Language:English
Subjects:
Attention
Beta-band
CNV
ERPs
Spatial neglect
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Summary:Right Brain Damaged patients with left spatial neglect (N+), are characterised by poor allocation of attention in the contralesional left side of space. In a recent study (Lasaponara et al., 2018) we showed during orienting of spatial attention with endogenous central cues, both the EEG markers reflecting the early phases of orienting (Early Directing Attention Negativity) and those reflecting the late setting-up of sensory facilitation in the visual cortex (Late Directing Attention Positivity) are disturbed in N+ when these patients attend the left side of space. In the healthy brain, endogenous cues also elicit EEG activity related to the preparation of manual responses to upcoming spatial targets. Here, we wished to expand on our previous findings and investigate the EEG correlates of cue-related response preparation in N+ patients. To this aim we investigated the Contingent Negative Variation (CNV) response and the pre-motor Beta-oscillatory activity evoked by spatially informative central cues during the performance of a Posner task. Due to concomitant contralesional motor impairments, N+ an N- patients performed the task only with the ipsilesional right-hand. Compared to healthy controls and patients without neglect, N+ displayed a pathological suppression of CNV component that was independent of cue direction. In addition, the amplitude of the CNV in response to right-pointing cues was positively correlated with neglect severity in line bisection. N+ also displayed a pathological enhancement of pre-motor Beta oscillations over the left hemisphere during the time period that preceded manual responses to targets in the left side of space, particularly to invalidly cued ones. Synchronization in the Beta-band (ERS) was also correlated with lower detection rate and slower RTs to Invalid targets in the left side of space. These results provide new insights on the premotor components of the spatial orienting deficits suffered by patients with left spatial neglect and can help improving its diagnosis and rehabilitation. •Right Brain Damage (RBD) can produce left spatial neglect.•Endogenous spatial cues evoke EEG activity related to response preparation.•We tested cue-related CNV and Beta EEG-activity in RBD patients with neglect (N+).•N+ show pathological suppression of the CNV.•N+ show synchronization of Beta to invalid targets in the left side of space.
ISSN:0028-3932
1873-3514
DOI:10.1016/j.neuropsychologia.2020.107572