Kwang Ho Cho , Ji Hyun Kim , Yohei Honkura , Masahito Yamamoto , Gen Murakami , Jose Francisco Rodríguez-Vázquez , Yukio Katori
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The vein appeared until 15 weeks, but it was sometimes distant from the CA. At 10–12 weeks, the subarachnoid space (or the epidural space) near the glossopharyngeal nerve rapidly protruded into the CA anlage and reached the scala tympani, in which cavitation was gradually on-going but without epithelial lining. However, CA cavitation did not to occur in the anlage. At the opening to the scala, the epithelial-like lining of the CA lost its meningeal structure. At near-term, the CA was often narrowed and obliterated.</p></div><div><h3>Conclusion</h3><p>The CA develops from meningeal tissues when the cavitation of the scala begins. The latter cavitation seemed to reduce tissue stiffness leading, to meningeal protrusion. The so-called anlage of CA might be a phylogenetic remnant of the glossopharyngeal nerve branch. A course of cochlear veins appears to be determined by a rule different from the CA development.</p></div>","PeriodicalId":50974,"journal":{"name":"Annals of Anatomy-Anatomischer Anzeiger","volume":"253 ","pages":"Article 152236"},"PeriodicalIF":2.0000,"publicationDate":"2024-02-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Cochlear aqueduct revisited: A histological study using human fetuses\",\"authors\":\"Kwang Ho Cho , Ji Hyun Kim , Yohei Honkura , Masahito Yamamoto , Gen Murakami , Jose Francisco Rodríguez-Vázquez , Yukio Katori\",\"doi\":\"10.1016/j.aanat.2024.152236\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background and aim</h3><p>The cochlear aqueduct (CA) connects between the perilymphatic space of the cochlea and the subarachnoid space in the posterior cranial fossa. 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引用次数: 0
摘要
背景和目的:耳蜗导水管(CA)连接耳蜗周腔和后颅窝蛛网膜下腔。该研究旨在探讨:1)CA 的空洞化发生在蛛网膜下腔侧还是耳蜗侧;2)CA 及其伴生静脉的生长和/或退化:方法:我们研究了石蜡包埋的人类胎儿组织切片:方法:我们研究了石蜡包埋的人类胎儿组织切片:15 个中期胎儿(冠臀长或 CRL,39-115 毫米)和 12 个近中期胎儿(CRL,225-328 毫米):结果:在 9-10 周时观察到线性间质凝结,即可能是 CA anlage 的候选者,但没有伴随静脉。静脉在 15 周前出现,但有时距离 CA 较远。10-12 周时,舌咽神经附近的蛛网膜下腔(或硬膜外腔)迅速向 CA 腔内突出,并到达鼓室,鼓室内的空洞化正在逐渐进行,但没有上皮衬里。然而,CA 腔化并没有在耳道内发生。在鼓室开口处,CA 的上皮样内膜失去了脑膜结构。结论:结论:当头窦开始空腔化时,CA从脑膜组织发展而来。结论:当头颅骨开始空洞化时,CA 从脑膜组织发展而来,后者的空洞化似乎降低了组织的硬度,导致脑膜突出。所谓CA的anlage可能是舌咽神经分支的系统发育残余。耳蜗静脉的走向似乎是由不同于CA发育的规律决定的。
Cochlear aqueduct revisited: A histological study using human fetuses
Background and aim
The cochlear aqueduct (CA) connects between the perilymphatic space of the cochlea and the subarachnoid space in the posterior cranial fossa. The study aimed to examine 1) whether cavitation of the CA occurs on the subarachnoid side or the cochlear side and 2) the growth and/or degeneration of the CA and its concomitant vein.
Methods
We examined paraffin-embedded histological sections from human fetuses: 15 midterm fetuses (crown-rump length or CRL, 39–115 mm) and 12 near-term fetuses (CRL, 225–328 mm).
Results
A linear mesenchymal condensation, i.e., a likely candidate of the CA anlage, was observed without the accompanying vein at 9–10 weeks. The vein appeared until 15 weeks, but it was sometimes distant from the CA. At 10–12 weeks, the subarachnoid space (or the epidural space) near the glossopharyngeal nerve rapidly protruded into the CA anlage and reached the scala tympani, in which cavitation was gradually on-going but without epithelial lining. However, CA cavitation did not to occur in the anlage. At the opening to the scala, the epithelial-like lining of the CA lost its meningeal structure. At near-term, the CA was often narrowed and obliterated.
Conclusion
The CA develops from meningeal tissues when the cavitation of the scala begins. The latter cavitation seemed to reduce tissue stiffness leading, to meningeal protrusion. The so-called anlage of CA might be a phylogenetic remnant of the glossopharyngeal nerve branch. A course of cochlear veins appears to be determined by a rule different from the CA development.
期刊介绍:
Annals of Anatomy publish peer reviewed original articles as well as brief review articles. The journal is open to original papers covering a link between anatomy and areas such as
•molecular biology,
•cell biology
•reproductive biology
•immunobiology
•developmental biology, neurobiology
•embryology as well as
•neuroanatomy
•neuroimmunology
•clinical anatomy
•comparative anatomy
•modern imaging techniques
•evolution, and especially also
•aging
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