2005
DOI: 10.1146/annurev.physchem.56.092503.141205
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FOURIER TRANSFORM INFRARED VIBRATIONAL SPECTROSCOPIC IMAGING: Integrating Microscopy and Molecular Recognition

Abstract: The recent development of Fourier transform infrared (FTIR) spectroscopic imaging has enhanced our capability to examine, on a microscopic scale, the spatial distribution of vibrational spectroscopic signatures of materials spanning the physical and biomedical disciplines. Recent activity in this emerging area has concentrated on instrumentation development, theoretical analyses to provide guidelines for imaging practice, novel data processing algorithms, and the introduction of the technique to new fields. To… Show more

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Cited by 274 publications
(216 citation statements)
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“…This has been assisted by the availability of a raft of new techniques that are designed to obtain specific information. The differentiation of biological samples relies on subtle but multiple changes in the ratios and wavenumbers of bands that are objectively compared with chemometrics to remove sampling variability, rather than on absolute values that are subject to experimental conditions (Geladi 2003;Geladi et al 2004;Levin and Bhargava 2005). Thus, while functional group maps provide useful information, the more objective discrimination of organelles or tissue type (and changes within these with treatments or disease states) requires the use of chemometric analyses.…”
Section: Vibrational Spectroscopy Mapping and Imagingmentioning
confidence: 99%
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“…This has been assisted by the availability of a raft of new techniques that are designed to obtain specific information. The differentiation of biological samples relies on subtle but multiple changes in the ratios and wavenumbers of bands that are objectively compared with chemometrics to remove sampling variability, rather than on absolute values that are subject to experimental conditions (Geladi 2003;Geladi et al 2004;Levin and Bhargava 2005). Thus, while functional group maps provide useful information, the more objective discrimination of organelles or tissue type (and changes within these with treatments or disease states) requires the use of chemometric analyses.…”
Section: Vibrational Spectroscopy Mapping and Imagingmentioning
confidence: 99%
“…The mapping of biological samples with a benchtop globar source is slow because of the relatively weak IR intensity resulting from the use of apertures in the microscope to physically restrict the IR absorption to the sample area of interest (Levin and Bhargava 2005). The long time required for such measurements means that the spatial resolution is normally nowhere near the diffraction limit.…”
Section: Fourier-transform Ir Spectroscopic Mapping and Imagingmentioning
confidence: 99%
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“…The higher signal levels achievable with FTIRM result in increased speed of measurement and consequently higher sample throughput over CRM [21]. The strengths of both are now well established in hyperspectral imaging for non-invasive and label-free histopathology [22][23][24][25][26][27][28][29][30], while the capabilities of CRM to detect tissue abnormalities in-vivo without the complication of contamination of spectral measurements by water and atmospheric features has resulted in a move to the development of clinical devices [31].…”
Section: Introductionmentioning
confidence: 99%
“…FT-IR imaging of PEG dissolution in an aqueous environment has been implemented to investigate the drug release mechanism [12][13][14][15]. While this method provides chemical selectivity, the long excitation wavelength used in FT-IR microscopy offers the spatial resolution of several to tens micrometer, which does not allow the visualization of 3D distribution of drug molecules in thin polymer films or microparticles.…”
Section: Introductionmentioning
confidence: 99%