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Development of an In Vivo Raman Spectroscopic System for Diagnostic Applications

✍ Scribed by Martin G. Shim; Brian C. Wilson

Publisher
John Wiley and Sons
Year
1997
Tongue
English
Weight
716 KB
Volume
28
Category
Article
ISSN
0377-0486

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✦ Synopsis

In recent studies, the diagnostic potential of Raman spectroscopy has been investigated. The majority of this work has been done on tissue in vitro with laboratory-based near-infrared Fourier transform (FT) Raman systems. In vivo Raman spectroscopy is hindered by tissue Γ‘uorescence, which is several orders of magnitude greater than the Raman signal, and by the spectral contribution of the delivery and collection Ðber optics. An in vivo Raman system (IVRS) is described which can obtain spectra in vivo from tissue in less than 30 s. The system is compact and mobile, making it suitable for clinical applications. Major system components, such as the spectrograph, CCD detector, laser diode and Ðber-optic probes, are described in detail. The methods of wavenumber calibration, intensity correction and baseline subtraction are outlined. Spectra which were collected in vivo from human skin, buccal cheek epithelium, Ðngernail and a tooth are presented and major peaks are assigned. The performance of the IVRS was compared with that of an FT-Raman system. With similar collection parameters, the IVRS spectra had superior signal-to-noise ratios owing to the shorter excitation wavelength (785 nm versus 1064 nm) and the high transmission (> 50% ) of the IVRS spectrograph. Planned system upgrades are discussed together with the anticipated improvements in system performance.

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