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Infrared cartilage

Potter, K., Kidder, L. H., Levin, I. W., Lewis, E. N. and Spencer, R. G. (2001) Imaging of collagen and proteoglycan in cartilage sections using Fourier transform infrared spectral imaging. Arthritis Rheum. 44, 846-55. [Pg.259]

West, P. A., Bostrom, M. P., Torzilli, P. A. and Camacho, N. P. (2004) Fourier transform infrared spectral analysis of degenerative cartilage an infrared fiber optic probe and imaging study. Appl. Spectrosc. 58, 376-81. [Pg.259]

Bi, X., Yang, X., Bostrom, M.P.G. and Camacho, N.P. (2005) Fourier transform infrared imaging spectroscopy investigations in the pathogenesis and repair of cartilage. Biochim. Biophys. Acta, 1758, 934 1. [Pg.144]

In a report by Murata (1962) infrared spectroscopic data showing a high degree of sulfation for chondroitin polysulfate have been related to the anticoagulant activity of the polysulfate. (The chondroitin polysulfate had been prepared by sulfation of shark cartilage chondroitin sulfate with chlorosulfonic acid and pyridine.) Chondroitin polysulfate has sulfate groups at both C-4 and C-6. [Pg.121]

Fig. 6.5. Infrared spectra for isomeric chondroitin sulfates. The sodium salt of each polysaccharide (1.0 mg) was mixed with 150 mg of potassium bromide, formed into a film of 0.45 mm thickness (nominal) and compared with a potassium bromide blank. The A sulfate was prepared from bovine nasal cartilage (Mathews and Dorfman, 1953). Chondroitin sulfate B preparations were obtained by fractionation of a sample of )S-heparin from bovine lung (Marbet and Winterstein, 1951). One of these fractions (F-6, top spectrum), contained 20 o of the A sulfate. The C sulfate was a preparation from a human chordoma (Meyer et al, 1956). (Mathews, 1958.)... Fig. 6.5. Infrared spectra for isomeric chondroitin sulfates. The sodium salt of each polysaccharide (1.0 mg) was mixed with 150 mg of potassium bromide, formed into a film of 0.45 mm thickness (nominal) and compared with a potassium bromide blank. The A sulfate was prepared from bovine nasal cartilage (Mathews and Dorfman, 1953). Chondroitin sulfate B preparations were obtained by fractionation of a sample of )S-heparin from bovine lung (Marbet and Winterstein, 1951). One of these fractions (F-6, top spectrum), contained 20 o of the A sulfate. The C sulfate was a preparation from a human chordoma (Meyer et al, 1956). (Mathews, 1958.)...
Kim, M., X. Bi. et al. 2005. Fourier transform infrared imaging spectroscopic analysis of tissue engineered cartilage Histologic and biochemical correlations. /Biomed Opt 10 31105. [Pg.509]

Prediction of Bovine Cartilage Proteoglycan Content Using Energy Dispersive X-ray Analysis or Optical Absorbance and a Multivariate Techniques-Fourier Transform Infrared Microspectroscopy Model... [Pg.377]

Figure 2. Typical infrared spectra of A untreated cartilage B trypsin-treated cartilage. Figure 2. Typical infrared spectra of A untreated cartilage B trypsin-treated cartilage.
Figure 3. Predicted vs Actual Optical Absorbance from the PLS model of infrared spectra and optical absorbance data for untreated cartilage... Figure 3. Predicted vs Actual Optical Absorbance from the PLS model of infrared spectra and optical absorbance data for untreated cartilage...
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See also in sourсe #XX -- [ Pg.162 , Pg.164 ]



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