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Recent Advances in Spontaneous Raman Spectroscopic Imaging: Instrumentation and Applications

生物医学 仪表(计算机编程) 从长凳到床边 计算机科学 纳米技术 化学成像 材料科学 医学物理学 人工智能 物理 生物信息学 高光谱成像 生物 操作系统
作者
Nan Wang,Honghao Cao,Lin Wang,Feng Ren,Qi Zeng,Xinyi Xu,Jimin Liang,Yonghua Zhan,Xueli Chen
出处
期刊:Current Medicinal Chemistry [Bentham Science Publishers]
卷期号:27 (36): 6188-6207 被引量:13
标识
DOI:10.2174/0929867326666190619114431
摘要

Background: Spectroscopic imaging based on the spontaneous Raman scattering effects can provide unique fingerprint information in relation to the vibration bands of molecules. Due to its advantages of high chemical specificity, non-invasive detection capability, low sensitivity to water, and no special sample pretreatment, Raman Spectroscopic Imaging (RSI) has become an invaluable tool in the field of biomedicine and medicinal chemistry. Methods: There are three methods to implement RSI, including point scanning, line scanning and wide-field RSI. Point-scanning can achieve two-and three-dimensional imaging of target samples. High spectral resolution, full spectral range and confocal features render this technique highly attractive. However, point scanning based RSI is a time-consuming process that can take several hours to map a small area. Line scanning RSI is an extension of point scanning method, with an imaging speed being 300-600 times faster. In the wide-field RSI, the laser illuminates the entire region of interest directly and all the images then collected for analysis. In general, it enables more accurate chemical imaging at faster speeds. Results: This review focuses on the recent advances in RSI, with particular emphasis on the latest developments on instrumentation and the related applications in biomedicine and medicinal chemistry. Finally, we prospect the development trend of RSI as well as its potential to translation from bench to bedside. Conclusion: RSI is a powerful technique that provides unique chemical information, with a great potential in the fields of biomedicine and medicinal chemistry.
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