Autor: |
Gadaleta, S., Camacho, N., Mendelsohn, R., Boskey, A., Gadaleta, S J, Camacho, N P, Boskey, A L |
Předmět: |
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Zdroj: |
Calcified Tissue International; 1996, Vol. 58 Issue 1, p17-23, 7p |
Abstrakt: |
Fourier transform infrared microscopy (FT-IRMS) was used to monitor spatial variations in the quality and quantity of the mineral phase in calcified turkey tendon. Spectral maps were generated by analysis of 50 microns x 50 microns areas within different regions of the tendon. Spectra of the transitional region, where nonmineralized matrix ends and mineralized matrix begins, revealed marked changes in the spectrally determined mineral-to-matrix ratio, whereas regions deeper into the mineralization front showed a relatively constant ratio. Since spectra of EDTA-demineralized matrix were similar to those of nonmineralized matrix, the nonmineralized regions of the tendon were used for spectral subtraction. The broad, relatively featureless contour of the mineral v1, v3 phosphate region (900-1200 cm-1) showed only subtle changes at different stages of mineralization. Second derivatives of these spectra were calculated and compared with those of synthetic, poorly crystalline hydroxyapatite (HA). The peak positions seen in second-derivative spectra of the mineral near the transitional region were within +/- 2 cm-1 of the least mature synthetic HAs whereas spectra of the mineral deeper into the mineralization front were within +/- 2 cm-1 of the most mature synthetic HAs. Spectra from cross- and longitudinal sections at equivalent positions in the tendon, and polarized FT-IRMS data were analyzed to determine the effect of mineral orientation on the parameters used to characterize the mineral. Spectra of cross- and longitudinal sections of the tendon showed no major differences in either the v1, v3 phosphate region or the amide I, II, or III components (1200-1800 cm-1). However, polarized FT-IR spectra revealed dramatic differences in both of these regions. Despite these differences, second-derivative analysis of the v1, v3 regions revealed no significant changes in the positions of the underlying bands used to characterize the environments of the phosphate ion in poorly crystalline HA. The results of this study demonstrate the power of FT-IRMS to monitor spatial variations of the mineral phase in calcified tissue. Also, the incorporation of polarized radiation provides a method capable of assessing the molecular orientation of the mineral phase relative to the collagen matrix. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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