Biomedical Engineering Reference
In-Depth Information
17. Pleshko, N., Boskey, A., and Mendelsohn, R. 1991. A novel infrared spectroscopic
method for the determination of crystallinity of hydroxyapatite minerals.
Biophys.
60, 786-793.
18. Doyle, B. B., Bendit, E. G., and Blout, E. R. 1975. Infrared spectroscopy of
collagen and collagen-like polypeptides.
Biopolymers
14, 935-957.
19. Chapman, A. C., and Thirlwell, P. 1964. Spectra of phosphorus compounds-I.
The infrared spectra of orthophosphates
. Spectrochem. Acta
20, 937-945.
20. Rehman, I. U., and Bonfield, W. 1997. Characterisation of hydroxyapatite and
carbonated apatite by photo-acoustic FTIR spectroscopy.
Journal of Materials
Science; Materials in Medicine
8, 1-4.
21. Smith, R., and Rehman, I. U. 1994. Fourier transform Raman spectroscopic stud-
ies of human bone.
Journal of Material. Science; Materials in Medicine
5 (9-10),
775-778.
22. Cook, S. D., Thomas, K. A., Key, J. K., and Jarcho, M. 1988. Hydroxyapatite-
coated porous titanium for use as an orthopedic biologic attachment system.
Clin. Orthop. Xelat. Res.
230, 303.
23. Tudor, A. M., Melia, C. D., Davies, M. C., Anderson, D., Hasting, G., Morrey, S.,
Sandoz, J. D., and Barbosa, M. 1993. The analysis of biomedical hydroxyapatite
powders and hydroxyapatite coatings on metallic medical implants by near-
infrared Fourier transform Raman spectroscopy.
Spectrochem. Acta
49A, 675-680.
24. Rehman, I. U., Smith, R., Hench, L. L., and Bonfield, W. 1995. Structural evalu-
ation of human and sheep bone and comparison with synthetic hydroxyapatite
by FT-Raman spectroscopy.
Journal of Biomedical Materials Research
29, 1287-1294.
25. Rockley, M. G. 1980. Fourier-transformed infrared photoacoustic spectroscopy
of solids.
Spectroscopy
34, 405-406.
26. Colthup, N. B., Dally, L. H., and Wiberley, S. E. 1990.
Introduction to Infrared and
Raman Spectroscopy
, 3
rd
ed. Boston: Academic Press.
27. Osborne, B. G., and Fearrn, T. 1986.
Near-Infrared Spectroscopy in Food Analysis
.
Essex. UK: Longman Scientific and Technical.
28. Elliott, J. C., Holcomb, D. W., and Young, R. A. 1985. Infrared determination
of the degree of substitution of hydroxyl by carbonate ions in human dental
enamel.
Calcified Tissue International
37(4), 372-375.
29. Paschalis, E. P., DiCarlo, E., Betts, F., Sherman, P., Mendelsohn, R., and Boskey,
A. L. 1996. FTIR micro-spectroscopic analysis of human osteonal bone.
Calcified
Tissue International
59(6), 480-487.
30. Paschalis, E. P., Betts, F., DiCarlo, E., Mendelsohn, R., and Boskey, A. L. 1997.
FTIR micro-spectroscopic analysis of normal human cortical and trabecular
bone.
Calcified Tissue International
61(6), 480-486.
31. Kimura-Suda, H., Kajiwara, M., Matsumoto, N., Murayama, H., and Yamato,
H. 2009. Characterization of apatite and collagen in bone with FTIR imaging.
Molecular Crystals and Liquid Crystals
505(1), 64/[302]-69/[307].
32. Paschalis, E. P., Betts, F., DiCarlo, E., Mendelsohn, R., and Boskey, A. L. 1997.
FTIR microspectroscopic analysis of human iliac crest biopsies from untreated
osteoporotic bone.
Calcified Tissue International
61(6), 487-492.
33. Elkin, S. L., Vedi, S., Bord, S., Garrahan, N. J., Hodson, M. E., and
Compston, J. E. 2002. Histomorphometric analysis of bone biopsies from the
iliac crest of adults with cystic fibrosis.
American Journal of Respiratory and Critical
Care Medicine
166(11), 1470-1474.
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