神经病变小鼠模型中的扫描激光光学断层扫描：结构变化的可视化

Scanning laser optical tomography in a neuropathic mouse model : Visualization of structural changes.

作者信息

Schulze J, Nolte L, Lyutenski S, Tinne N, Heinemann D, Ripken T, Willaredt M A, Nothwang H G, Lenarz T, Warnecke A

机构信息

Department of Otorhinolaryngology, Head and Neck Surgery, Lower Saxony Center for Biomedical Engineering, Implant Research and Development (NIFE), Hannover Medical School, Stadtfelddamm 34, 30625, Hannover, Germany.

Cluster of Excellence "Hearing4all" EXC 1077/1, Hannover/Oldenburg, Germany.

出版信息

HNO. 2019 Jun;67(Suppl 2):69-76. doi: 10.1007/s00106-019-0654-2.

DOI:10.1007/s00106-019-0654-2

PMID:31065762

Abstract

BACKGROUND

In the field of hearing research a variety of imaging techniques are available to study molecular and cellular structures of the cochlea. Most of them are based on decalcifying, embedding, and cutting of the cochlea. By means of scanning laser optical tomography (SLOT), the complete cochlea can be visualized without cutting. The Ca1.3 mice have already been extensively characterized and show structural changes in the inner ear. Therefore, they were used in this study as a model to investigate whether SLOT can detect structural differences in the murine cochlea.

MATERIALS AND METHODS

Whole undissected cochleae from Ca1.3 and wild-type mice of various postnatal stages were immunostained and analyzed by SLOT. The results were compared to cochlea preparations that were immunostained and analyzed by fluorescence microscopy. In addition, cochlea preparations were stained with osmium tetraoxide.

RESULTS

Visualization by SLOT showed that the staining of nerve fibers at P27 in Ca1.3 mice was almost absent compared to wild-type mice and earlier timepoints (P9). The analysis of cochlea preparations confirmed a reduction of the radial nerve fibers. In addition, a significantly reduced number of ribbon synapses per inner hair cell (IHC) at P20 and P27 in the apical part of the cochlea of Ca1.3 mice was detected.

CONCLUSION

The visualization of whole non-dissected cochleae by SLOT is a suitable tool for the analysis of gross phenotypic changes, as demonstrated by means of the Ca1.3 mouse model. For the analysis of finer structures of the cochlea, however, further methods must be used.

摘要

背景

在听力研究领域，有多种成像技术可用于研究耳蜗的分子和细胞结构。其中大多数基于对耳蜗进行脱钙、包埋和切片。通过扫描激光光学断层扫描（SLOT），无需切片即可可视化整个耳蜗。Ca1.3小鼠已经得到了广泛的表征，并显示出内耳的结构变化。因此，本研究将它们用作模型，以研究SLOT是否能够检测到小鼠耳蜗的结构差异。

材料与方法

对不同出生后阶段的Ca1.3小鼠和野生型小鼠的完整未解剖耳蜗进行免疫染色，并通过SLOT进行分析。将结果与通过荧光显微镜进行免疫染色和分析的耳蜗标本进行比较。此外，耳蜗标本用四氧化锇染色。

结果

SLOT可视化显示，与野生型小鼠和早期时间点（P9）相比，Ca1.3小鼠在P27时神经纤维的染色几乎缺失。耳蜗标本分析证实了放射状神经纤维的减少。此外，在Ca1.3小鼠耳蜗顶部，在P20和P27时每个内毛细胞（IHC）的带状突触数量显著减少。

结论

如Ca1.3小鼠模型所示，通过SLOT对完整未解剖耳蜗进行可视化是分析总体表型变化的合适工具。然而，对于耳蜗更精细结构的分析，必须使用其他方法。

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Scanning laser optical tomography in a neuropathic mouse model : Visualization of structural changes.神经病变小鼠模型中的扫描激光光学断层扫描：结构变化的可视化

HNO. 2019 Jun;67(Suppl 2):69-76. doi: 10.1007/s00106-019-0654-2.

[Scanning laser optical tomography in a neuropathic mouse model : Visualization of structural changes. German version].[神经病变小鼠模型中的扫描激光光学断层扫描：结构变化的可视化。德文版]

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本文引用的文献

PLoS One. 2017 Sep 5;12(9):e0184069. doi: 10.1371/journal.pone.0184069. eCollection 2017.

Scanning laser optical tomography for in toto imaging of the murine cochlea.用于小鼠耳蜗全层成像的扫描激光光学断层扫描术。

PLoS One. 2017 Apr 7;12(4):e0175431. doi: 10.1371/journal.pone.0175431. eCollection 2017.

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Noise-induced cochlear synaptopathy: Past findings and future studies.噪声性耳蜗突触病变：既往研究结果与未来研究方向

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Hear Res. 2016 Sep;339:12-22. doi: 10.1016/j.heares.2016.06.002. Epub 2016 Jun 8.

Cochlear neuropathy in human presbycusis: Confocal analysis of hidden hearing loss in post-mortem tissue.人类老年性聋中的耳蜗神经病变：死后组织中隐匿性听力损失的共聚焦分析

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神经病变小鼠模型中的扫描激光光学断层扫描：结构变化的可视化

Scanning laser optical tomography in a neuropathic mouse model : Visualization of structural changes.

作者信息

机构信息

出版信息

BACKGROUND

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

材料与方法

结果

结论

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