基于新型多纤维器件的拉曼微成像:用于药物片剂的可行性研究

S. Tfaili, C. Gobinet, J. Angiboust, M. Manfait, O. Piot
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引用次数: 2

摘要

拉曼微成像技术在医疗卫生领域具有广阔的应用前景。在这项研究中,我们测试了一个微米空间分辨率探头通过索引多光纤束耦合到便携式拉曼成像仪。在探头的水平,纤维排列成圆形几何形状,以适应物镜的瞳孔。对该拉曼系统在类药物微球上的成像电位进行了评价。我们展示了这个装置允许记录,几乎是实时的,微米分辨率的拉曼图像。收集到的图像显示了化学物质分布的明显异质性。将对细胞和生物组织进行进一步的研究,以评估这种拉曼成像装置在生物医学应用方面的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Raman Microimaging Using a Novel Multifiber-Based Device: A Feasibility Study on Pharmaceutical Tablets
Raman microimaging is a potential analytical technique in health field and presents many possible pharmaceutical applications. In this study, we tested a micrometer spatial resolution probe coupled to a portable Raman imager via an indexed multifiber bundle. At the level of the probe, the fibers were arranged in a circular geometry in order to fit to the pupil of an objective. The imaging potential of this Raman system was assessed on pharmaceutical-like pellets. We showed that this setup permits to record, nearly in real time, Raman images with a micrometer resolution. The collected images revealed a marked heterogeneity in chemicals distribution. Further investigations will be led on cells and biological tissues to evaluate the potential of this Raman imaging device for biomedical applications.
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