单眼视网膜病变对成人 V1 中 Blob 大小的影响

IF 3.1 3区医学 Q2 NEUROSCIENCES

Journal of Cognitive Neuroscience Pub Date : 2024-12-01 DOI:10.1162/jocn_a_02133

Marco Marcondes;Mariana F. Farias;Luis F. Pary;Mario Fiorani;Bruss Lima;Ana Karla J. Amorim;Ricardo Gattass

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引用次数: 0

摘要

我们研究了与单眼视网膜病变相关的人类 V1 中富含细胞色素 c 氧化酶（CytOx）的小球和眼优势柱（OD）的属性。在平装 V1 制备的切向切片中，对 CytOx 反应的球间距离、球横截面积、OD 宽度和 OD 排列模式进行了分析。单眼剥夺会诱导 CytOx 在 V1 中相应的 OD 中差异表达。因此，我们能够识别与视网膜上的病变区域相关的 V1 区域，确定与每只眼睛相关的 OD，并将第三层中的相应 Blob 定义为视觉输入被剥夺或未被剥夺。我们发现，与病变区域外的圆球相比，未被剥夺的圆球染色更明显。值得注意的是，我们发现与非缺损眼相关的小球会选择性地扩大，而与缺损眼相关的小球在大小上没有明显变化。在后一种情况下，小圆块的大小与在正常参与者身上观察到的相似。这些效应存在于病变在 V1 中的整个表象中，表明潜在的可塑性机制并不依赖于偏心率。视网膜病变没有引起球间距离的变化，这与正常大脑（即没有视网膜病变的参与者）的情况相似。这表明球中心是大脑皮层组织的一个稳定标志。最后，与无损伤眼球的OD相比，与无损伤眼球相关的OD的宽度往往更大。然而，这种影响并没有达到统计学意义。因此，ODs 的稳定性与 blob 的可塑性形成了鲜明对比，这表明视网膜病变引发的丘脑皮质投射到第四层 c 的不平衡对 OD CytOx 反应性的影响有限。另一方面，我们认为眼球失衡支持皮层内的横向竞争，这种竞争会增加与非缺损眼相关的眼球周围区域的 CytOx 反应性，这也是我们观察到的眼球扩展的原因。

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Impact of Monocular Retinal Lesions on Blob Size in Adult Human V1

We studied the attributes of cytochrome c oxidase (CytOx)-rich blobs and ocular dominance columns (OD) in human V1 associated with monocular retinal lesions. Interblob distance, blob cross-sectional area, OD width, and OD arrangement pattern were analyzed in CytOx-reacted tangential sections of flat-mounted V1 preparations. Monocular deprivation induces differential expression of CytOx in the corresponding ODs in V1. We were thereby able to identify the V1 regions associated with the lesioned area in the retina, assign which OD was associated with each eye, and assign the corresponding blob in Layer III as deprived or nondeprived of visual input. We found that nondeprived blobs are more conspicuously stained than blobs outside the lesioned area. Notably, we found a selective expansion of blobs associated with the nonlesioned eye, whereas blobs associated with the deprived eye showed no significant change in size. Blob size in the latter condition was similar to the one observed in normal participants. These effects were present throughout the representation of the lesion in V1, suggesting that the underlying plasticity mechanisms do not depend on eccentricity. Retinal lesion caused no change in interblob distance, which was comparable to the normal brain (i.e., participants with no retinal lesion). This indicates that blob center is a stable hallmark of cortical organization. Finally, the width of ODs associated with the nonlesioned eye tended to be larger compared with ODs of the lesioned eye. However, this effect did not reach statistical significance. The stability of ODs thereby contrasts with blob plasticity, suggesting that the retinal lesion-triggered imbalance in the thalamocortical projection to Layer IVc has a limited impact on OD CytOx reactivity. On the other hand, we argue that ocular imbalance supports intracortical lateral competition that increases CytOx reactivity in the periblob region associated with the nonlesioned eye, accounting for the blob expansion we observe.

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