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显微切割的人斯卡帕神经节神经元的无偏定量分析。

Unbiased quantification of the microdissected human Scarpa's ganglion neurons.

作者信息

Ishiyama Akira, Lopez Ivan, Ishiyama Gail, Tang Yong

机构信息

Division of Head and Neck Surgery, UCLA School of Medicine, Los Angeles, CA 90095, USA.

出版信息

Laryngoscope. 2004 Aug;114(8):1496-9. doi: 10.1097/00005537-200408000-00033.

DOI:10.1097/00005537-200408000-00033
PMID:15280733
Abstract

OBJECTIVE

The objective of the present study was to obtain unbiased estimates of the total number of Scarpa's vestibular ganglion neurons in individuals with normal vestibular function.

STUDY DESIGN

Application of unbiased stereology using microdissected human temporal bone specimens.

METHODS

Postmortem temporal bones were obtained from five young subjects with no history of audiovestibular disease (age range 42-49 years). The vestibular nerve containing the Scarpa's ganglion was microdissected, embedded in paraffin, and cut into 40 microm serial sections. Unbiased estimates of the total number of neurons were obtained using the optical fractionator technique of stereology.

RESULTS

An average of 23,599 (coefficient of variation [CV] = 0.11) vestibular ganglion neurons was obtained. There was no significant difference between the results obtained from the microdissected specimens and results that had been obtained from an age-matched group derived from a previously published report from our laboratory using archival human temporal bone specimens.

CONCLUSIONS

This study represents the first report to demonstrate the combination of the microdissection technique and the unbiased stereologic technique in the human temporal bone. This study demonstrates the reliability of the microdissection technique as an alternative method of human temporal bone processing for unbiased stereology. The utility of the microdissection technique is that specimens can be used for quantification, immunohistochemistry, and other powerful applications.

摘要

目的

本研究的目的是获得前庭功能正常个体中斯卡帕前庭神经节神经元总数的无偏估计值。

研究设计

使用显微解剖的人类颞骨标本应用无偏立体学方法。

方法

从五名无听觉前庭疾病史的年轻受试者(年龄范围42 - 49岁)获取死后颞骨。将包含斯卡帕神经节的前庭神经进行显微解剖,石蜡包埋,并切成40微米的连续切片。使用立体学的光学分割器技术获得神经元总数的无偏估计值。

结果

平均获得23,599个(变异系数[CV]=0.11)前庭神经节神经元。显微解剖标本获得的结果与我们实验室先前发表的一份报告中使用存档人类颞骨标本的年龄匹配组获得的结果之间无显著差异。

结论

本研究是首次展示在人类颞骨中显微解剖技术与无偏立体学技术相结合的报告。本研究证明了显微解剖技术作为用于无偏立体学的人类颞骨处理替代方法的可靠性。显微解剖技术的实用性在于标本可用于定量、免疫组织化学及其他强大应用。

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