Zooming in on abnormal local and global processing biases after stroke: Frequency, lateralization, and associations with cognitive functions.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-01-01 Epub Date: 2023-04-17 DOI:10.1017/S1355617723000231

Antonia F Ten Brink, Janet H Bultitude, Stefan Van der Stigchel, Tanja C W Nijboer

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引用次数: 0

Abstract

Objectives: The 'attentional spotlight' can be adjusted depending on the task requirements, resulting in processing information at either the local or global level. Stroke can lead to local or global processing biases, or the inability to simultaneously attend both levels. In this study, we assessed the (1) prevalence of abnormal local and global biases following stroke, (2) differences between left- and right-sided brain damaged patients, and (3) relations between local and global interference, the ability to attend local and global levels simultaneously, and lateralized attention, search organization, search speed, visuo-construction, executive functioning, and verbal (working) memory.

Methods: Stroke patients admitted for inpatient rehabilitation completed directed (N = 192 total; N = 46 left-sided/N = 48 right-sided lesion) and divided (N = 258 total; N = 67 left-sided/N = 66 right-sided lesion) local-global processing tasks, as well as a conventional neuropsychological assessment. Processing biases and interference effects were separately computed for directed and divided tasks.

Results: On the local-global tasks, 7.8-10.9% of patients showed an abnormal local bias and 6.3-8.3% an abnormal global bias for directed attention, and 5.4-10.1% an abnormal local bias and 6.6-15.9% an abnormal global bias for divided attention. There was no significant difference between patients with left- and right-sided brain damage. There was a moderate positive relation between local interference and search speed, and a small positive relation between global interference and neglect.

Conclusions: Abnormal local and global biases can occur after stroke and might relate to a range of cognitive functions. A specific bias might require a different approach in assessment, psycho-education, and treatment.

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放大中风后异常的局部和整体处理偏差：频率、侧化以及与认知功能的关联。

目标注意焦点 "可根据任务要求进行调整，从而在局部或整体层面处理信息。脑卒中可导致局部或全局处理偏差，或无法同时注意两个层面。在本研究中，我们评估了（1）脑卒中后异常局部和全局偏差的发生率；（2）左侧和右侧脑损伤患者之间的差异；（3）局部和全局干扰、同时注意局部和全局水平的能力与侧向注意、搜索组织、搜索速度、视觉建构、执行功能和言语（工作）记忆之间的关系：方法：住院康复的脑卒中患者完成定向（共192人；左侧46人/右侧48人）和分割（共258人；左侧67人/右侧66人）局部-全局处理任务，以及常规神经心理学评估。分别计算了定向任务和分割任务的处理偏差和干扰效应：在局部-全局任务中，7.8%-10.9%的患者在定向注意中表现出异常的局部偏向，6.3%-8.3%表现出异常的全局偏向；在分散注意中，5.4%-10.1%的患者表现出异常的局部偏向，6.6%-15.9%表现出异常的全局偏向。左侧和右侧脑损伤患者之间没有明显差异。局部干扰与搜索速度之间存在中等程度的正相关，而整体干扰与忽视之间存在较小的正相关：结论：中风后可能出现异常的局部和整体偏差，并可能与一系列认知功能有关。结论：脑卒中后可能会出现异常的局部和整体偏差，可能与一系列认知功能有关。特定的偏差可能需要不同的评估、心理教育和治疗方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464