Occurrence and Recovery of Different Neglect-Related Symptoms in Right Hemisphere Infarct Patients during a 1-Year Follow-Up

Objectives: To examine the occurrence of and recovery from visual neglect-related symptoms with the focus on neglect laterality, ipsilateral orienting bias, and slowed processing speed in right hemisphere (RH) infarct patients during a 1-year follow-up. Furthermore, to propose guidelines for assessing processing speed alongside the Behavioural Inattention Test (BIT). Methods: We studied three RH patient groups: neglect (N+), mild left inattention (MLI+), and non-neglect (N−) patients, and healthy controls. The BIT with some additional analyses was conducted at the acute phase and at 6 and 12 months. Results: The N+ group’s BIT score increased and originally lateralized omissions became more evenly distributed during the follow-up. The N+ and MLI+ groups’ starting points were more rightward located than the healthy group’s at the acute phase and at 6, and partly at 12 months. Patient groups were slower than the controls in performing cancellation tests at the acute phase. The N+ and MLI+ groups remained slower than the controls throughout the follow-up. Conclusions: During the first year after RH infarct, originally left-sided manifestation of neglect shifted toward milder non-lateralized attentional deficit. Ipsilateral orienting bias and slowed processing speed appeared to be rather persistent neglect-related symptoms both in neglect patients and patients with initially milder inattention. We propose some effortless, tentative ways of examining processing speed and ipsilateral orienting bias alongside the BIT to better recognize these neglect-related symptoms, and highlight the need to assess and treat patients with initially milder inattention, who have been under-recognized and under-treated in clinical work. (JINS, 2018, 24, 617–628)

Failed cooperative, but not competitive, interaction between large-scale brain networks impairs working memory in schizophrenia

BackgroundA large-scale network named the default mode network (DMN) dynamically cooperates and competes with an external attention system (EAS) to facilitate various cognitive functioning that is prominently impaired in schizophrenia. However, it is unclear whether the cognitive deficit in schizophrenia is related to the disrupted competition and/or cooperation between these two networks.MethodA total of 35 schizophrenia patients and 30 healthy controls were scanned using gradient-echo echo-planar imaging during n-back working memory (WM) processing. Brain activities of the DMN and EAS were measured using general linear modelling of the functional magnetic resonance imaging data. Dynamic interaction between the DMN and EAS was decomposed into two directions using Granger causality analysis.ResultsWe observed a significant failure of DMN suppression in patients with schizophrenia, which was significantly related to WM/attentional deficit. Granger causality modelling showed that in healthy controls, while the EAS inhibitorily influenced the DMN, the DMN exerted an ‘excitatory’ or cooperative influence back on the EAS, especially in those with lower WM accuracy. In schizophrenia, this ‘excitatory’ DMN→EAS influence within the reciprocal EAS–DMN loop was significantly reduced, especially in patients with WM/attentional deficit.ConclusionsThe dynamic interaction between the DMN and EAS is likely to be comprised of both competitive and cooperative influences. In healthy controls, both the ‘inhibitory’ EAS→DMN interaction and ‘excitatory’ DMN→EAS interaction are correlated with WM performance. In schizophrenia, reduced ‘cooperative’ influence from the DMN to dorsal nodes of the EAS occurs in the context of non-suppression of the DMN and may form a possible pathophysiological substrate of WM deficit and attention disorder.

VEP and Human Attention: Translation from Laboratory to Clinic

The purpose is to review recent studies from our laboratory that used the visual-evoked potential (VEP) to assess attention in both the visually-normal (VN) and mild traumatic brain injury (mTBI) populations. The VEP (amplitude and latency), and attention-related alpha band responses, were assessed. The alpha responses were abnormal in those with mTBI. Furthermore, these values differentiated well between mTBI with versus without an attentional deficit. Following oculomotor vision rehabilitation, the alpha and VEP responses increased significantly. The VEP technique can be used reliably in both clinic and laboratory settings to detect attention objectively in both VN and mTBI populations.