右半球工作记忆的皮层和皮层下基底:基于连接组的病变-症状映射研究

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Emilie Marti , Sélim Yahia Coll , Naz Doganci , Radek Ptak
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引用次数: 0

摘要

工作记忆(WM)是一种认知系统,其关键作用是暂时保存和处理信息。早期的研究表明,言语工作记忆通常与左半球(LH)脑区有关,而工作记忆中视觉空间信息的处理更具体地取决于右半球(RH)。然而,最近的证据表明,在这些过程中涉及两个半球的前额叶和后顶叶皮层的网络更为复杂。遗憾的是,以往的病变研究往往只研究一种模式(言语或视觉空间)或一个半球,这限制了对非偏侧半球参与的可能结论。通过对大量左侧(LBD)和右侧(RBD)局灶性脑损伤患者样本进行基于连接体的病变-症状映射,我们研究了灰质损伤和白质断裂是否会预测N-back任务中WM更新的缺陷。患者接受了两种不同模式(语言、空间)和认知负荷(1-back、2-back)的 WM 任务。行为结果表明,无论任务模式或负荷如何,RBD 患者在 WM 更新方面都表现出明显的缺陷。基于全脑体素的分析证实了这一观察结果,并揭示了WM缺陷与RH灰质群之间的关联。具体来说,右外侧额叶皮层(包括与布洛卡区同源的脑区)受损与言语 WM 缺陷有关,而右侧下顶叶和后颞叶皮层受损则预示着空间 WM 缺陷。此外,白质分析发现,RH 中的白质束受到严重影响,这预示着言语和空间 WM 均存在缺陷。我们的研究结果表明,在 WM 更新过程中,对言语和视觉空间信息的心理操作都依赖于 RH 的完整性,而与记忆中信息的具体类型无关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cortical and subcortical substrates of working memory in the right hemisphere: A connectome-based lesion-symptom mapping study

Working Memory (WM) is a cognitive system whose crucial role is to temporarily hold and manipulate information. Early studies suggest that verbal WM is typically associated with left hemisphere (LH) brain regions, while the processing of visuospatial information in WM more specifically depends on the right hemisphere (RH). However, recent evidence suggests a more complex network involving both hemispheres' prefrontal and posterior parietal cortices in these processes. Unfortunately, previous lesion studies often examined only one modality (either verbal, or visuospatial) or one hemisphere, which limits the possible conclusions regarding non-lateralized hemispheric involvement. Using connectome-based lesion-symptom mapping on a large sample of patients with left (LBD) and right (RBD) focal brain damage, we examined whether gray matter damage and white matter disconnections predict deficits of WM updating in an N-back task. Patients were examined with two WM tasks that differed regarding modality (verbal, spatial) and cognitive load (1-back, 2-back). Behavioral outcomes indicated that RBD patients showed significant deficits in WM updating, regardless of task modality or load. This observation was supported by whole-brain voxel-based analysis, revealing associations between WM deficits and gray matter clusters in the RH. Specifically, damage to the right lateral frontal cortex including the brain region homologous to Broca's area was associated with verbal WM deficits, while damage to the right inferior parietal lobe and posterior temporal cortex predicted spatial WM deficits. Additionally, white matter analyses identified severely impacted tracts in the RH, predicting deficits in both verbal and spatial WM. Our findings suggest that the mental manipulation of both verbal and visuospatial information in WM updating relies on the integrity of the RH, irrespective of the specific type of information held in mind.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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