Long-range white matter fibres and post-stroke verbal and non-verbal cognition.

IF 4.1 Q1 CLINICAL NEUROLOGY Brain communications Pub Date : 2024-08-16 eCollection Date: 2024-01-01 DOI:10.1093/braincomms/fcae262
Rebecca W Roth, Deena Schwen Blackett, Ezequiel Gleichgerrcht, Janina Wilmskoetter, Chris Rorden, Roger Newman-Norlund, Souvik Sen, Julius Fridriksson, Natalie Busby, Leonardo Bonilha
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Abstract

Among stroke survivors, linguistic and non-linguistic impairments exhibit substantial inter-individual variability. Stroke lesion volume and location do not sufficiently explain outcomes, and the neural mechanisms underlying the severity of aphasia or non-verbal cognitive deficits remain inadequately understood. Converging evidence supports the idea that white matter is particularly susceptible to ischaemic injury, and long-range fibres are commonly associated with verbal and non-verbal function. Here, we investigated the relationship among post-stroke aphasia severity, cognition, and white matter integrity. Eighty-seven individuals in the chronic stage of stroke underwent diffusion MRI and behavioural testing, including language and cognitive measures. We used whole-brain structural connectomes from each participant to calculate the ratio of long-range fibres to short-range fibres. We found that a higher proportion of long-range fibres was associated with lower aphasia severity, more accurate picture naming, and increased performance on non-verbal semantic memory/processing and non-verbal reasoning while controlling for lesion volume, key damage areas, age, and years post stroke. Our findings corroborate the hypothesis that, after accounting for age and lesion anatomy, inter-individual differences in post-stroke aphasia severity, verbal, and non-verbal cognitive outcomes are related to the preservation of long-range white matter fibres beyond the lesion.

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长程白质纤维与脑卒中后的语言和非语言认知能力
在中风幸存者中,语言和非语言障碍表现出很大的个体差异。脑卒中病变的体积和位置并不能充分解释其结果,而失语症或非语言认知障碍严重程度的神经机制仍未得到充分了解。越来越多的证据表明,白质特别容易受到缺血性损伤,而长程纤维通常与语言和非语言功能相关。在此,我们研究了脑卒中后失语症的严重程度、认知能力和白质完整性之间的关系。87 名处于中风慢性期的患者接受了弥散核磁共振成像和行为测试,包括语言和认知测量。我们使用每位参与者的全脑结构连接组来计算长程纤维与短程纤维的比例。我们发现,长程纤维比例越高,失语严重程度越低,图片命名越准确,非语言语义记忆/处理和非语言推理能力越强,同时控制了病变体积、关键损伤区域、年龄和中风后年数。我们的研究结果证实了一个假设,即在考虑年龄和病变解剖学因素后,中风后失语症严重程度、言语和非言语认知结果的个体间差异与病变外长程白质纤维的保留有关。
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