用共聚焦拉曼显微镜结合断层扫描和电子显微镜观察大鼠椎骨皮质骨显微结构。

S.A. Shah, H. Salehi, Vincent Cavaillès, Frédéric Fernandez, F. Cuisinier, P. Collart-Dutilleul, A. Desoutter
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引用次数: 0

摘要

大鼠椎骨是研究生物材料植入后骨再生的良好模型,用于治疗骨丢失,这是口腔和牙科手术的一个主要问题。然而,大鼠脊椎骨微观结构的精确表征尚未见报道。因此,本研究的目的是在不同的尺度上对这些骨进行完整的分析,以便有一个清晰的健康骨模型与再生骨进行比较。方法采用共聚焦拉曼显微镜、高分辨率x射线微计算机断层扫描(micro- ct)、背散射电子成像扫描电镜(SEM)和常规组织学染色技术对大鼠尾椎皮质骨进行成像。扫描电镜和拉曼显微镜在骨皮质的各个区域对应的外部,中间和内部区域。海绵状骨平行成像。在整个椎体上进行Micro-CT检查,以监测皮质骨中的哈弗氏管网络。在皮质骨和海绵状骨的几个感兴趣的区域分析了骨管特征和相关化学成分。本研究共选取5只大鼠。结果在显微ct图像上,观察到皮质骨的强度差异,扫描电镜证实了这一点。拉曼光谱的化学分析证实了皮质骨和海绵状骨不同区域成分的差异。PCA和k-均值聚类分析将这些组分开,除了外皮质骨和中皮质骨。峰值强度比证实了这些结果,CO3与ν2 PO4比值在内皮质骨中有显著差异。从显微ct提取的灰度图像叠加显示,皮质骨的整体结构具有从表面到椎体中心密集而复杂的哈弗氏骨管网络的特征。平均根管直径18.4µm (SD 8.6µm),平均根管长度450µm (SD 152µm)。最后,板层骨的拉曼重建图像显示,在板层骨的周向和哈弗氏管周围,板层层宽度都增加了。结论显微ct和共聚焦拉曼显微镜是完成光学和电子显微镜经典分析的良好工具。以个体间差异小而闻名的大鼠模型的结果和测量提供了成熟骨骼的主要特征。这项研究将使研究这个大鼠脊椎动物模型的社区有一组特征,特别是关于哈弗氏管的结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of rat vertebrae cortical bone microstructures using confocal Raman microscopy combined to tomography and electron microscopy.
BACKGROUND The rat vertebrae is a good model to study bone regeneration after implantation of biomaterials used to treat bone loss, a major problem in oral and dental surgery. However, the precise characterization of bone microstructures in the rat vertebrae has not been reported. Therefore, the aim of this study was to achieve the complete analysis of such bone, at different scales, in order to have a clear model of healthy bone for comparison with regenerated bone. METHODS In order to image the cortical bone of rat caudal vertebra, confocal Raman microscopy was combined with high resolution X-ray micro computed tomography (micro-CT), with scanning electron microscopy (SEM) using backscatter electron imaging and with more conventional histology coloration techniques. SEM and Raman microscopy were done in various regions of the cortical bone corresponding to external, middle and internal areas. The spongy bone was imaged in parallel. Micro-CT was performed on the whole vertebra to monitor the network of haversian canals in the cortical bone. Osteonic canals characteristics, and relative chemical composition were analysed in several regions of interest, in cortical and spongy bone. Five rats were included in this study. RESULTS On micro-CT images, differences in intensity were observed in the cortical bone, substantiated by SEM. Chemical analysis with Raman spectra confirmed the difference in composition between the different regions of the cortical and spongy bone. PCA and k-mean cluster analysis separated these groups, except for the external and middle cortical bone. Peak intensity ratio confirmed these results with a CO3 to ν2 PO4 ratio significantly different for the internal cortical bone. Grayscale images stack extracted from micro-CT showed that global architecture of cortical bone was characterized by a dense and complex network of haversian osteonic canals, starting from the surface towards the vertebrae center. The mean diameter of the canals was 18.4µm (SD 8.6µm) and the mean length was 450µm (SD 152µm). Finally, Raman reconstructed images of the lamellar bone showed an enlargement of the lamellar layer width, both in circumferential lamellar bone and around haversian canals. CONCLUSIONS Micro-CT and confocal Raman microscopy are good tools to complete classical analysis using optical and electron microscopy. The results and measurements presented in a rat model known for its small inter-individual differences provide the main characteristics of a mature bone. This study will allow the community working on this rat vertebrate model to have a set of characteristics, in particular on the structure of the haversian canals.
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