Calcium phosphate formation in gelatin matrix using free ion precursors of Ca2+ and phosphate ions

Dental Materials

Volumn 25, Issue 2, 2009, Pages 261-268

  Chang, Myung Chul ^a,b   DeLong, Ralph ^a  

^a MDRCBB   (United States)

^b Kunsan National University   (South Korea)

Author keywords

Calcium phosphate; Electrodialysis; Gelatin; Ion diffusion; Triprotic acid

Indexed keywords

BONE; CALCIUM ALLOYS; CALCIUM PHOSPHATE; CHEMICAL REACTIONS; COLLOIDS; ELECTRODIALYSIS; FLOW INTERACTIONS; GELATION; GELS; GRAFTS; GRAIN BOUNDARIES; HYDROXYAPATITE; IONS; MACROMOLECULES; METALLIC MATRIX COMPOSITES; MINERALOGY; NANOCOMPOSITES; NEGATIVE IONS; PHOSPHATES; POSITIVE IONS; PRECIPITATION (CHEMICAL); PROTEINS; SUPRAMOLECULAR CHEMISTRY;

AQUEOUS SOLUTIONS; ARTIFICIAL BONES; BONE SUBSTITUTES; CALCIUM IONS; CALCIUM PHOSPHATE FORMATIONS; FREE IONS; GEL MATRIXES; GELATIN; GELATIN MATRIXES; INORGANIC PHOSPHATES; ION DIFFUSION; MINERALIZATION REACTIONS; NANOCOMPOSITE FORMATIONS; PHOSPHATE IONS; PRECIPITATION PROCESSES; PROCESS USING; REFERENCE MATERIALS; TRIPROTIC ACID;

CALCIUM;

CALCIUM; CALCIUM HYDROXIDE; CALCIUM PHOSPHATE; GELATIN; HYDROXYAPATITE; NANOCOMPOSITE; PHOSPHATE; PHOSPHORIC ACID; TISSUE SCAFFOLD;

ARTICLE; CHEMISTRY; CRYSTALLOGRAPHY; ELECTRON PROBE MICROANALYSIS; ELECTROOSMOSIS; HUMAN; INFRARED SPECTROSCOPY; INSTRUMENTATION; MATERIALS TESTING; PRECIPITATION; SYNTHESIS; TRANSMISSION ELECTRON MICROSCOPY; X RAY DIFFRACTION;

CALCIUM; CALCIUM HYDROXIDE; CALCIUM PHOSPHATES; CRYSTALLOGRAPHY; DURAPATITE; ELECTRON PROBE MICROANALYSIS; ELECTROOSMOSIS; GELATIN; HUMANS; MATERIALS TESTING; MICROSCOPY, ELECTRON, TRANSMISSION; NANOCOMPOSITES; PHOSPHATES; PHOSPHORIC ACIDS; PRECIPITATION; SPECTROSCOPY, FOURIER TRANSFORM INFRARED; TISSUE SCAFFOLDS; X-RAY DIFFRACTION;

EID: 58149236716     PISSN: 01095641     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.dental.2008.07.005     Document Type: Article

References (20)

1. Heaney R.P. Calcium, dairy products and osteoporosis. J Am Coll Nutr 19 2 Suppl. (2000) 83S-99S
2. Brown W.B., Smith J.P., Rehr J.R., and Frazer A.W. Octacalcium phosphate and hydroxyapatite. Nature 196 4859 (1962) 1048-1055
3. Young R.A. Biological apatite vs. hydroxyapatite at the atomic level. Clin Orthopedics 113 (1975) 249-260
4. Nawrot C.F., and Campbell D.J. A chromatograph study of the relative affinities of rat bone and skin collagen α1 chains for hydroxyapatite. J Dent Res 56 8 (1977) 1017-1022
5. Ascenzi A., and Bell G.H. Bone as a mechanical engineering problem. In: Bell G.H. (Ed). The biochemistry and physiology of bone vol. 1 (1972), Academic Press, New York 311-352
6. Chang M.C., Ko C.C., and Douglas W.H. Preparation of hydroxyapatite-gelatin nanocomposite. Biomaterials 24 (2003) 2853-2862
7. Chang M.C., Douglas W.H., and Tanaka J. Organic-inorganic interaction and the growth mechanism of hydroxyapatite crystals in gelatin matrices between 37 and 80 °C. J Mater Sci: Mater Med 17 (2006) 387-396
8. Peters F., and Epple M. Simulating arterial wall calcification in-vitro: biomimetic crystallization of calcium phosphates under controlled conditions. Z Kardiol 90 Suppl. 3 (2001) III/81-III/85
9. Iijima M., Moriwaki Y., Wen H.B., Fincham A.G., and Moradian-Oldak J. Elongated growth of octacalcium phosphate crystals in recombinant amelogenin gels under controlled ionic flow. J Dent Res 81 1 (2002) 69-73
10. LeGeros R.Z. Calcium phosphates in oral biology and medicine. Monographs in oral science, vol. 15 (1998), Kager AG, Basel, Switzerland p. 1-129
11. Chow L.C. Development of self-setting calcium phosphate cements. J Ceram Soc Jpn 99 (1991) 954-964
12. 2+ ions in aqueous solvent. Nature 297 (1982) 138-139
13. Chang M.C. Fluoride incorporation in hydroxyapatite/gelatin nanocomposite. J. Mater Sci: Mater Med 19 (2008) 2837-2843
14. Corbridge Dec. Phosphorus: an outline of its chemistry, biochemistry and technology. 5th ed. (1995), Elsevier, Amsterdam
15. Hollerman A.F., and Wiberg E. Inorganic chemistry (2001), Academic Press, San Diego
16. Tanaka Y. Ion exchange membranes, fundamentals and applications (membrane science and technology), vol. 12 (2007), Elsevier, Amsterdam
17. Private communication with SELEMION Division in Asahi Glass Engineering (Japan).
18. Chang MC. Organic-inorganic interaction between hydroxyapatite and gelatin with the aging of gelatin in aqueous phosphoric acid solution. J Mater Sci: Mater Med; 2008 [on-line first].
19. Chang M.C., Ko C.C., and Douglas W.H. Conformational change of hydroxyapatite/gelatin nanocomposite by glutaraldehyde. Biomaterials 24 (2003) 3087-3094
20. Sonju Clasen A.B., and Ruyter I.E. Quantitative determination of type A and type B carbonate in human deciduous and permanent enamel by means of Fourier transformation infrared spectroscopy. Adv Dent Res 11 (1997) 523-527