拉曼光谱显示氨磷汀可保护受照射的鼠下颌骨的矿化模式。

Raman spectroscopy demonstrates Amifostine induced preservation of bone mineralization patterns in the irradiated murine mandible.

机构信息

University of Michigan Hospital and Health Systems, Pediatric Plastic Surgery Section, 1540 E. Hospital Drive, MI 48109, USA.

University of Michigan Hospital and Health Systems, Department of Chemistry, 930 N. University, Ann Arbor, MI 48109, USA.

出版信息

Bone. 2013 Feb;52(2):712-717. doi: 10.1016/j.bone.2012.07.029. Epub 2012 Aug 3.

DOI:10.1016/j.bone.2012.07.029

PMID:22885239

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3789510/

Abstract

PURPOSE

Adjuvant radiotherapy in the management of head and neck cancer remains severely debilitating. Fortunately, newly developed agents aimed at decreasing radiation-induced damage have shown great promise. Amifostine (AMF) is a compound, which confers radio-protection to the exposed normal tissues, such as bone. Our intent is to utilize Raman spectroscopy to demonstrate how AMF preserves the mineral composition of the murine mandible following human equivalent radiation.

METHODS

Sprague Dawley rats were randomized into 3 experimental groups: control (n=5), XRT (n=5), and AMF-XRT (n=5). Both XRT and AMF groups underwent bioequivalent radiation of 70Gy in 5 fractions to the left hemimandible. AMF-XRT received Amifostine prior to radiation. Fifty-six days post-radiation, the hemimandibles were harvested, and Raman spectra were taken in the region of interest spanning 2mm behind the last molar. Bone mineral and matrix-specific Raman bands were analyzed using one-way ANOVA, with statistical significance at p<0.05.

RESULTS

The full-width at half-maximum of the primary phosphate band (FWHM) and the ratio of carbonate/phosphate intensities demonstrated significant differences between AMF-XRT versus XRT (p<0.01) and XRT versus control (p<0.01). There was no difference between AMF-XRT and control (p>0.05) in both Raman metrics. Computer-aided spectral subtraction further confirmed these results where AMF-XRT was spectrally similar to the control. Interestingly, the collagen cross-link ratio did not differ between XRT and AMF-XRT (p<0.01) but was significantly different from the control (p<0.01).

CONCLUSION

Our novel findings demonstrate that AMF prophylaxis maintains and protects bone mineral quality in the setting of radiation. Raman spectroscopy is an emerging and exceptionally attractive clinical translational technology to investigate and monitor both the destructive effects of radiation and the therapeutic remediation of AMF on the structural, physical and chemical qualities of bone.

摘要

目的

头颈部癌症的辅助放疗仍然严重削弱身体。幸运的是，新开发的旨在减少辐射损伤的药物显示出巨大的潜力。氨磷汀（AMF）是一种化合物，可对暴露的正常组织（如骨骼）提供放射保护。我们的目的是利用拉曼光谱来证明 AMF 如何在人类等效辐射后保持鼠类下颌骨的矿物质组成。

方法

将 Sprague Dawley 大鼠随机分为 3 个实验组：对照组（n=5）、XRT 组（n=5）和 AMF-XRT 组（n=5）。XRT 和 AMF 组均接受 70Gy 的生物等效辐射，分为 5 个部分，作用于左侧下颌骨。AMF-XRT 在接受辐射前接受氨磷汀治疗。辐射后 56 天，采集半下颌骨，在最后一颗磨牙后 2mm 范围内的感兴趣区域采集拉曼光谱。使用单因素方差分析分析骨矿物质和基质特异性拉曼带，统计学意义为 p<0.05。

结果

初级磷酸盐带的半峰全宽（FWHM）和碳酸盐/磷酸盐强度比在 AMF-XRT 与 XRT 之间（p<0.01）和 XRT 与对照组之间（p<0.01）均有显著差异。在两种拉曼度量中，AMF-XRT 与对照组之间无差异（p>0.05）。计算机辅助光谱减影进一步证实了这些结果，其中 AMF-XRT 的光谱与对照组相似。有趣的是，XRT 和 AMF-XRT 之间的胶原交联比没有差异（p<0.01），但与对照组有显著差异（p<0.01）。

结论

我们的新发现表明，AMF 预防可维持并保护辐射环境中的骨矿物质质量。拉曼光谱是一种新兴的、极具吸引力的临床转化技术，可用于研究和监测辐射的破坏性影响以及 AMF 对骨骼结构、物理和化学特性的治疗修复作用。

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