关于人类胎儿早期视神经显微解剖的广泛研究

IF 3.2 Q2 CLINICAL NEUROLOGY
Mihai Alin Publik, Florin Mihail Filipoiu, Adrian Vasile Dumitru, Andrei Precup, Ioan-Andrei Petrescu, Iulian Slavu, Raluca Florentina Tulin, Adrian Tulin, Andra Ioana Baloiu, Monica Mihaela Cirstoiu, Octavian Munteanu
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引用次数: 0

摘要

胎儿早期视神经及其周围组织的发育是一个复杂的时期,因为它跨越了器官形成期和胎儿期。本研究详细介绍了胎儿早期(包括妊娠头三个月的后半期)胚胎视神经的显微解剖学和组织胚胎学。通过对不同年龄胚胎眼眶的连续切片,我们对神经进行了纵向和横向分析。我们对神经周围和内部的结构进行了组织学评估和描述,突出了所涉及的细胞亚型。通过免疫组化技术,我们可以确定视神经内星形胶质细胞的存在和分布特征。我们的研究结果表明,到第 8 个孕周(WG)时,视神经结构与所有成年视神经结构同源,但出现较早,因此成熟过程发生在此之后。在这个年龄段,形成神经的轴突是明确的成人轴突。神经胶质细胞还没有表现出成体表型,但在第 13 周时,其表型会变成成体。在发育过程中,视神经的体积不断增大,到 14 周时,视神经体积明显缩小,这可能是神经成熟过程的结果。血神经屏障的形态初基可在第 10 周时首次发现,而在第 13 周时,血神经屏障的形态已确定。脑膜原基最初表现为一层聚集的成纤维细胞,后来在 13 WG 时会在棘脑膜和钩脑膜上分裂,并为固有血管留出空间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Extensive Study Regarding the Microscopic Anatomy of the Early Fetal Human Optic Nerve.

The development of the optic nerve and its surrounding tissues during the early fetal period is a convoluted period because it spans both the organogenesis period and the fetal period. This study details the microscopic anatomy and histoembryology of the optic nerve in embryos during the early fetal period, including the second half of the first trimester of pregnancy. Serial sections through the orbit of variously aged embryos allowed us to analyze the nerve in both longitudinal and transverse aspects. A histological assessment and description of the structures surrounding and inside the nerve were performed, highlighting the cellular subtypes involved. By employing immunohistochemical techniques, we could characterize the presence and distribution of astrocytes within the optic nerve. Our findings suggest that by the 8th gestational week (WG) the structures are homologs to all the adult ones but with an early appearance so that maturation processes take place afterward. By this age, the axons forming the nerve are definitive adult axons. The glial cells do not yet exhibit adult phenotype, but their aspect becomes adult toward the 13th week. During its development the optic nerve increases in size then, at 14 weeks, it shrinks considerably, possibly through its neural maturation process. The morphological primordium of the blood-nerve barrier can be first noted at 10 WG and at 13 WG the morphological blood-nerve barrier is definitive. The meningeal primordium can be first noted as a layer of agglomerated fibroblasts, later toward 13 WG splitting in pachymeninx and leptomeninges and leaving space for intrinsic blood vessels.

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来源期刊
Neurology International
Neurology International CLINICAL NEUROLOGY-
CiteScore
3.70
自引率
3.30%
发文量
69
审稿时长
11 weeks
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