Harvest of Vestibular End-Organs under Physiologic Conditions during Labyrinthectomy.

IF 1.2 4区 综合性期刊 Q3 MULTIDISCIPLINARY SCIENCES Jove-Journal of Visualized Experiments Pub Date : 2024-11-29 DOI:10.3791/67523
Nicholas S Andresen, Hakim Hiel, Catherine J Graham, Yassine Balhi, John P Carey, Amanda M Lauer, Bryan K Ward
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Abstract

The living human inner ear is challenging to study because it is encased within dense otic capsule bone that limits access to biological tissue. Traditional temporal bone histopathology methods rely on lengthy, expensive decalcification protocols that take 9-10 months and reduce the types of tissue analysis possible due to RNA degradation. There is a critical need to develop methods to access fresh human inner ear tissue to better understand otologic diseases, such as Ménière's disease, at the cellular and molecular level. This paper describes a technique for the harvest of human vestibular end organs from a living donor under physiologic conditions. An individual with Ménière's disease and 'drops attacks' that were refractory to intratympanic gentamicin injection underwent labyrinthectomy. A traditional mastoidectomy was first performed, and the horizontal and superior semicircular canals (SCC) were identified. The mastoid cavity was filled with a balanced salt solution so that the labyrinth could be opened under more physiologic conditions to preserve cellular integrity. A zero-degree endoscope fit with a lens-cleaning sheath irrigation system was used to visualize the submerged mastoid cavity, and a 2 mm diamond burr was used to skeletonize and open the horizontal and superior SCCs, followed by the vestibule. The ampullae and portion of the canal ducts for the superior and lateral SCCs were harvested. The utricle was similarly harvested. Harvested tissue was immediately placed in an ice-cold buffer and then fixed for one hour in 4% paraformaldehyde in phosphate-buffered saline (PBS). The tissue was rinsed several times in 1x PBS and stored for 48 h at 4 °C. The tissue samples underwent immunostaining with a combination of primary antibodies against tenascin-C (Calyx), oncomodulin (streolar hair cells), calretinin (Calyx and Type II hair cells), synaptic vesicle protein 2 (efferent fibers and boutons), β-tubulin 1 (Calyx and afferent boutons), followed by incubation with fluorophore-conjugated secondary antibodies. The tissue samples were then rinsed and mounted for confocal microscopy examination. Images revealed the presence of ampullar and macular hair cells and neural structures. This protocol demonstrates that it is possible to harvest intact, high-quality human inner ear tissue from living donors and may provide an important tool for the study of otologic disease.

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活体内耳的研究具有挑战性,因为它被包裹在致密的耳囊中,限制了生物组织的接触。传统的颞骨组织病理学方法依赖于漫长而昂贵的脱钙方案,需要 9-10 个月的时间,而且由于 RNA 降解,可能会减少组织分析的类型。目前亟需开发获取新鲜人类内耳组织的方法,以便从细胞和分子水平更好地了解梅尼埃病等耳科疾病。本文介绍了一种在生理条件下从活体捐赠者身上获取人类前庭末梢器官的技术。一名患有梅尼埃病且对鼓室内注射庆大霉素无效的 "滴注发作 "患者接受了迷走神经切除术。首先进行了传统的乳突切除术,并确定了水平半规管和上半规管(SCC)。用平衡盐溶液填充乳突腔,以便在更符合生理条件的情况下打开迷宫,保护细胞的完整性。使用装有镜头清洁鞘灌注系统的零度内窥镜观察浸没的乳突腔,并使用 2 毫米金刚石毛刺镂空和打开水平和上部 SCC,然后是前庭。切除上部和侧部 SCC 的耳道管和部分耳道管。子宫口也同样被切除。采集的组织立即放入冰冷的缓冲液中,然后在磷酸盐缓冲液(PBS)中的 4% 多聚甲醛中固定一小时。组织在 1x PBS 中冲洗数次,并在 4 °C 下保存 48 小时。用针对tenascin-C(花萼)、oncomodulin(链状毛细胞)、calretinin(花萼和 II 型毛细胞)、突触小泡蛋白 2(传出纤维和突触)、β-tubulin 1(花萼和传入突触)的一抗组合对组织样本进行免疫染色,然后用荧光团结合的二抗进行孵育。然后冲洗组织样本并装片进行共聚焦显微镜检查。图像显示了耳廓和黄斑毛细胞以及神经结构的存在。该方案证明,从活体捐献者身上获取完整、高质量的人类内耳组织是可能的,并可为耳科疾病研究提供重要工具。
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来源期刊
Jove-Journal of Visualized Experiments
Jove-Journal of Visualized Experiments MULTIDISCIPLINARY SCIENCES-
CiteScore
2.10
自引率
0.00%
发文量
992
期刊介绍: JoVE, the Journal of Visualized Experiments, is the world''s first peer reviewed scientific video journal. Established in 2006, JoVE is devoted to publishing scientific research in a visual format to help researchers overcome two of the biggest challenges facing the scientific research community today; poor reproducibility and the time and labor intensive nature of learning new experimental techniques.
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