围产期耳聋后猫大脑皮层灰质体积和结构可塑性。

IF 4.7 2区 医学 Q1 NEUROIMAGING NeuroImage Pub Date : 2024-08-23 DOI:10.1016/j.neuroimage.2024.120813
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引用次数: 0

摘要

在感官被剥夺的情况下,大脑会根据当代需求进行调整,以有效地驾驭经过改变的感知环境。这种重组可能会改善对其余感官的处理--这种现象被称为补偿性跨模态可塑性。探索这种神经可塑性的一种方法是考虑神经组织中反映这种功能优化的宏观结构变化。目前的研究首次测量了对照组猫科动物(30 只)的 MRI 灰质(GM)体积,同时还识别了围产期耳聋(30 只耳毒性耳聋猫科动物)的体积差异。为实现这一目的,区域和形态计量方法同时进行。区域分析评估了全脑 GM 的体积变化,以及 146 个感兴趣区 (ROI) 和这些感兴趣区的 12 个功能分组的体积。结果显示,全脑基因组保持不变;但是,体感皮层和视觉皮层的体积总体上有所增加。在较小范围内,该分析发现两个听觉 ROI(第二听觉皮层 A2 和腹侧听野 VAF)的体积减小,而两个视觉区域(前内外侧上视区 AMLS 和脾侧视区 SVA)的体积增大,所有这些区域均位于右半球。相比之下,基于张量的形态计量法(TBM)的结果与基于 ROI 的方法基本一致,因为这种体素方法显示了与视觉和体感相关位置相吻合的扩展集群;不过,它未能检测到耳聋后的任何 GM 减少。由于在每种分析中都发现了明显的差异,本研究强调了在探索磁共振成像容积时采用多种方法的重要性。总之,本研究认为,感觉部位的容积变化暗示着听觉剥夺后知觉需求的改变所引起的皮层空间的重新分配。
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Gray matter volume of the feline cerebral cortex and structural plasticity following perinatal deafness

In response to sensory deprivation, the brain adapts according to contemporary demands to efficiently navigate a modified perceptual environment. This reorganization may result in improved processing of the remaining senses–a phenomenon referred to as compensatory crossmodal plasticity. One approach to explore this neuroplasticity is to consider the macrostructural changes in neural tissue that mirror this functional optimization. The current study is the first of its kind to measure MRI-derived gray matter (GM) volumes of control felines (n=30), while additionally identifying volumetric differences in response to perinatal deafness (30 ototoxically-deafened cats). To accomplish this purpose, regional and morphometric methods were performed in parallel. The regional analysis evaluated volumetric alterations of global GM, as well as the volumes of 146 regions of interest (ROIs) and 12 functional subgroupings of these ROIs. Results revealed whole-brain GM preservation; however, somatosensory and visual cortices exhibited an overall increase in volume. On a smaller scale, this analysis uncovered two auditory ROIs (second auditory cortex, A2, and ventral auditory field, VAF) that decreased in volume alongside two visual regions (anteromedial lateral suprasylvian area, AMLS and splenial visual area, SVA) that increased–all localized within the right hemisphere. Comparatively, the findings of tensor-based morphometry (TBM) generally aligned with those of the ROI-based method, as this voxel-wise approach demonstrated clusters of expansion coincident with visual- and somatosensory-related loci; although, it failed to detect any GM reductions following deafness. As distinct differences were identified in each analysis, the current study highlights the importance of employing multiple methods when exploring MRI volumetry. Overall, this study proposes that volumetric alterations within sensory loci allude to a redistribution of cortical space arising from modified perceptual demands following auditory deprivation.

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来源期刊
NeuroImage
NeuroImage 医学-核医学
CiteScore
11.30
自引率
10.50%
发文量
809
审稿时长
63 days
期刊介绍: NeuroImage, a Journal of Brain Function provides a vehicle for communicating important advances in acquiring, analyzing, and modelling neuroimaging data and in applying these techniques to the study of structure-function and brain-behavior relationships. Though the emphasis is on the macroscopic level of human brain organization, meso-and microscopic neuroimaging across all species will be considered if informative for understanding the aforementioned relationships.
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