The carbonate ion in hydroxyapatite: Recent X-ray and infrared results

Frontiers in Bioscience - Elite

Volumn 5 E, Issue 2, 2013, Pages 643-652

  Fleet, Michael E ^a  

^a UNIVERSITY OF WESTERN ONTARIO   (Canada)

Author keywords

Apatite structure; Biomineralisation; Carbonate hydroxyapatite; Infrared spectroscopy; X ray structure

Indexed keywords

CALCIUM PYROPHOSPHATE; CARBONIC ACID; HYDROXYAPATITE; HYDROXYL GROUP; PHOSPHATE; BICARBONATE; CALCIUM;

ABSORPTION; ARTICLE; ATOM; BONE MINERAL; CHEMICAL COMPOSITION; CRYSTAL STRUCTURE; ELECTRON PROBE MICROANALYSIS; ENAMEL; INFRARED RADIATION; INFRARED SPECTROSCOPY; MICROSCOPY; PRESSURE; STRUCTURE ANALYSIS; SUBSTITUTION REACTION; SYNTHESIS; X RAY ANALYSIS; X RAY DIFFRACTION; CHEMICAL STRUCTURE; CHEMISTRY; REVIEW;

BICARBONATES; CALCIUM; DURAPATITE; MODELS, MOLECULAR; SPECTROSCOPY, FOURIER TRANSFORM INFRARED; X-RAY DIFFRACTION;

MLCS; MLOWN;

EID: 84878474228     PISSN: 19450494     EISSN: 19450508     Source Type: Journal    
DOI: 10.2741/E645     Document Type: Article

References (46)

1. Y Pan and M E Fleet: Compositions of the apatite-group minerals: Substitution mechanisms and controlling factors. In: Phosphates. Eds: Kohn M J Rakovan J Hughes J M. Reviews in Mineralogy and Geochemistry 48, 13-49, Mineralogical Society of America, Washington, D.C. (2002)
2. J C Elliott: Calcium phosphate biominerals. In: Phosphates. Eds: Kohn M J Rakovan J Hughes J M. Reviews in Mineralogy and Geochemistry 48, 427-453, Mineralogical Society of America, Washington, D.C. (2002)
3. F Brudevold D E Gardner F A Smith: Distribution of fluorine in human enamel. J Dental Res 35, 420-429 (1956)
4. G H McClellan J R Lehr: Crystal chemical investigation of natural apatites. Am Mineral 54, 1374-1391 (1969)
5. Xi Liu S R Shieh M E Fleet L Zhang Q He: Equation of state of carbonated hydroxylapatite at ambient temperature up to 10 GPa: Significance of carbonate. Am Mineral 96, 74-80 (2011)
6. J M Hughes J Rakovan:(2002) The crystal structure of apatite, Ca5(PO4)3(F,OH,Cl). In: Phosphates. Eds: Kohn M J Rakovan J Hughes J M. Reviews in Mineralogy and Geochemistry 48, 1-12, Mineralogical Society of America, Washington, D.C. (2002)
7. J M Hughes M Cameron K D Crowley: Structural variations in natural F, OH, and Cl apatites. Am Mineral 74, 870-876 (1989)
8. J C Elliott: Structure and Chemistry of the Apatites and Other Calcium Orthophosphates, 389 p, Elsevier, Amsterdam (1994)
9. Y Suetsugu Y Takahashi F P Okamura J Tanaka: Structure analysis of A-type carbonate apatite by a singlecrystal X-ray diffraction method. J Solid State Chem 155, 292-297 (2000)
10. T I Ivanova O V Frank-Kamenetskaya A B Kol'tsov V L Ugolkov: Crystal structure of calcium-deficient carbonated hydroxyapatite. Thermal decomposition. J Solid State Chem 160, 340-349 (2001)
11. R M Wilson J C Elliott S E P Dowker R I Smith: Rietveld structure refinement of precipitated carbonate apatite using neutron diffraction data. Biomaterials 25, 2205-2213 (2004)
12. Th Leventouri B C Chakoumakos H Y Moghaddam V Perdikatsis: Powder neutron diffraction studies of a carbonate fluorapatite. J Materials Res 15, 511-517 (2000)
13. T Tonegawa T Ikoma T Yoshioka N Hanagata J Tanaka: Crystal structure refinement of A-type carbonate apatite by Xray powder diffraction. J Materials Sci 45, 2419-2426 (2010)
14. J C Elliott: The interpretation of the infra-red absorption spectra of some carbonate-containing apatites. In: Tooth Enamel: Its Composition, Properties, and Fundamental Structure. Eds: Fearnhead R W Stack M V. pp. 20-22. John Wright & Sons Bristol, UK. (1964)
15. G Bonel: Contribution l'?ude de la carbonatation des apatites. I. Synthèse et étude des propriétés physico-chimiques des apatites carbonatées du type A. Annales de Chimie (Paris) 7, 65-88 (1972)
16. R Z LeGeros O R Trautz E Klein J P LeGeros:Two types of carbonate substitution in the apatite structure. Experimentia 25, 5-7 (1969)
17. C Rey B Collins T Goehl I R Dickson M J Glimcher: The carbonate environment in bone mineral: A resolution-enhanced Fourier transform infrared study. Calcif Tissue Int 45, 157-164 (1989)
18. C Rey V Renugopalakrishnan M Shimizu B Collins M J Glimcher: A resolution-enhanced Fourier transform infrared spectroscopic study of the environment of the CO3 2-ion in the mineral phase of enamel during its formation and maturation. Calcif Tissue Int 49, 259-268 (1991)
19. H-M Kim C Rey M J Glimcher: X-ray diffraction, electron microscopy, and Fourier transform infrared spectroscopy of apatite crystals isolated from chicken and bovine calcified cartilage. Calcif Tissue Int 59, 58-63 (1996)
20. G Cho Y Wu J L Ackerman: Detection of hydroxyl ions in bone mineral by solid state NMR spectroscopy. Science (Wash) 300, 1123-1127 (2003)
21. H E Mason A Kozlowski B L Phillips: Solid-state NMR study of the role of H and Na in AB-type carbonate hydroxylapatite. Chem Materials 20, 294-302 (2007)
22. M E Fleet X Liu P L King: Accommodation of the carbonate ion in apatite: An FTIR and X-ray structure study of crystals synthesized at 2-4 GPa. Am Mineral 89, 1422-1432 (2004)
23. R C Tacker: Carbonate in igneous and metamorphic fluorapatite: Two type A and two type B substitutions. Am Mineral 93, 168-176 (2008)
24. M E Fleet: Infrared spectra of carbonate apatites: nu2-region bands. Biomaterials 30, 1473-1481 (2009)
25. A Peeters E A P De Maeyer C Van Alsenoy R M H Verbeeck: Solids modeled by ab initio crystal-field methods. 12. Structure, orientation and position of A-type carbonate in a hydroxyapatite lattice. J Phys Chem B 101, 3995-3998 (1997)
26. S Peroos Z Du N H de Leeuw: A computer modelling study of the uptake, structure and distribution of carbonate defects in hydroxyapatite. Biomaterials 27, 2150-2161 (2006)
27. M E Fleet X Liu: Carbonate apatite type A synthesized at high pressure: new space group (P-3) and orientation of channel carbonate ion. J Solid State Chem 174, 412-417 (2003)
28. M E Fleet X Liu: Location of type B carbonate ion in type A-B carbonate apatite synthesized at high pressure. J Solid State Chem 177, 3174-3182 (2004)
29. M E Fleet X Liu: Local structure of channel ions in carbonate apatite. Biomaterials 26, 7548-7554 (2005)
30. M E Fleet Xi Liu: Coupled substitution of type A and B carbonate in sodium-bearing apatite. Biomaterials 28, 916-926 (2007)
31. M E Fleet Xi Liu: Accommodation of the carbonate ion in fluorapatite synthesized at high pressure. Am Mineral 93, 1460-1469 (2008)
32. M E Fleet Xi Liu: Type A-B carbonate chlorapatite synthesized at high pressure. J Solid State Chem 181, 2494-2500 (2008)
33. Nonius, COLLECT Software. Bruker-Nonius, Delft, The Netherlands (1997)
34. Siemens SHELXTL PC, Version 4.1, Siemens Analytical X-ray Instruments, Inc., Madison, WI, USA (1993)
35. P Coppens, LINEX77, State University of New York, Buffalo, USA (1977)
36. International Tables for X-ray Crystallography, Vol. IV. Eds. Ibers J A. Hamilton W C. Kynoch Press, Birmingham, UK (1974)
37. M E Fleet X Liu Xi Liu: Orientation of channel carbonate ions in apatite: Effect of pressure and composition. Am Mineral 96, 1148-1157 (2011)
38. H Morgan R M Wilson J C Elliott S E P Dowker P Anderson: Preparation and characterization of monoclinic hydroxyapatite and its precipitated carbonate apatite intermediate. Biomaterials 21, 617-627 (2000)
39. D Farlay G Panzcer C Rey P D Delmas G Boivin: Mineral maturity and crystallinity index are distinct characteristics of bone mineral. J Bone Miner Met 28, 433-445 (2010)
40. D G A Nelson B E Williamson: Low-temperature laser Raman spectroscopy of synthetic carbonated apatites and dental enamel. Aust J Chem 35, 715-727 (1982)
41. T Ikoma A Yamazaki S Nakamura M. Akao: Preparation and structure refinement of monoclinic hydroxyapatite. J Solid State Chem 144, 272-276 (1999)
42. S Aparicio S B Doty N P Camacho E P Paschalis L Spevak R Mendelsohn A L Boskey: Optimal methods for processing mineralized tissues for Fourier transform infrared microspectroscopy. Calcif Tissue Int 70, 422-429 (2002)
43. B Wopenka J D Pasteris: A mineralogical perspective on the apatite in bone. Materials Sci Engin C25, 131-143 (2005)
44. A L Boskey: Mineral analysis provides insights into the mechanism of biomineralization. Calcif Tissue Int 72, 533-536 (2003)
45. D A Bushinsky S B Smith K L Gavrilov L F Gavrilov J Li R Levi-Setti: Acute acidosis-induced alteration in bone bicarbonate and phosphate, Am J Physiol-Renal Physiol 283, F1091-F1097 (2002)
46. H R Low C Ritter T J White: Crystal structure refinements of the 2H and 2M pseudomorphs of ferric carbonate-hydroxyapatite. Dalton Trans 39, 6488-6495 (2010)