Volume 23 Issue 6
Dec.  2010
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Xiao-Yan WANG, Yi ZUO, Di HUANG, Xian-Deng HOU, Yu-Bao LI. Comparative Study on Inorganic Composition and Crystallographic Properties of Cortical and Cancellous Bone[J]. Biomedical and Environmental Sciences, 2010, 23(6): 473-480.
Citation: Xiao-Yan WANG, Yi ZUO, Di HUANG, Xian-Deng HOU, Yu-Bao LI. Comparative Study on Inorganic Composition and Crystallographic Properties of Cortical and Cancellous Bone[J]. Biomedical and Environmental Sciences, 2010, 23(6): 473-480.

Comparative Study on Inorganic Composition and Crystallographic Properties of Cortical and Cancellous Bone

Funds:  China 973 Fund(2007CB936102)%the National Natural Science Foundation of China(50972096)
  • Objective To comparatively investigate the inorganic composition and crystallographic properties of cortical and cancellous bone via thermal treatment under 700 ℃. Methods Thermogravimetric measurement, infrared spectrometer,X-ray diffraction, chemical analysis and X-ray photo-electron spectrometer were used to test the physical and chemical properties of cortical and cancellous bone at room temperature 250 ℃, 450 ℃, and 650 ℃, respectively. Results The process of heat treatment induced an extension in the a-lattice parameter and changes of the c-lattice parameter, and an increase in the crystallinity reflecting lattice rearrangement after release of lattice carbonate and possible lattice water. The mineral content in cortical and cancellous bone was 73.2wt% and 71.5wt%, respectively. For cortical bone, the weight loss was 6.7% at the temperature from 60 ℃ to 250 ℃, 17.4% from 250 ℃ to 450 ℃, and 2.7% from 450 ℃ to 700 ℃. While the weight loss for the cancellous bone was 5.8%, 19.9%, and 2.8 % at each temperature range, the Ca/P ratio of cortical bone was 1.69 which is higher than the 1.67 of stoichiometric HA due to the B-type CO32- substitution in apatite lattice. The Ca/P ratio of cancellous bone was lower than 1.67, suggesting the presence of more calcium deficient apatite. Conclusion The collagen fibers of cortical bone were arrayed more orderly than those of cancellous bone, while their mineralized fibers ollkded similar.The minerals in both cortical and cancellous bone are composed of poorly crystallized nano-size apatite crystals with lattice carbonate and possible lattice water. The process of heat treatment induces a change of the lattice parameter, resulting in lattice rearrangement after the release of lattice carbonate and lattice water and causing an increase in crystal size and crystallinity.This finding is helpful for future biomaterial design, preparation and application.
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Comparative Study on Inorganic Composition and Crystallographic Properties of Cortical and Cancellous Bone

Funds:  China 973 Fund(2007CB936102)%the National Natural Science Foundation of China(50972096)

Abstract: Objective To comparatively investigate the inorganic composition and crystallographic properties of cortical and cancellous bone via thermal treatment under 700 ℃. Methods Thermogravimetric measurement, infrared spectrometer,X-ray diffraction, chemical analysis and X-ray photo-electron spectrometer were used to test the physical and chemical properties of cortical and cancellous bone at room temperature 250 ℃, 450 ℃, and 650 ℃, respectively. Results The process of heat treatment induced an extension in the a-lattice parameter and changes of the c-lattice parameter, and an increase in the crystallinity reflecting lattice rearrangement after release of lattice carbonate and possible lattice water. The mineral content in cortical and cancellous bone was 73.2wt% and 71.5wt%, respectively. For cortical bone, the weight loss was 6.7% at the temperature from 60 ℃ to 250 ℃, 17.4% from 250 ℃ to 450 ℃, and 2.7% from 450 ℃ to 700 ℃. While the weight loss for the cancellous bone was 5.8%, 19.9%, and 2.8 % at each temperature range, the Ca/P ratio of cortical bone was 1.69 which is higher than the 1.67 of stoichiometric HA due to the B-type CO32- substitution in apatite lattice. The Ca/P ratio of cancellous bone was lower than 1.67, suggesting the presence of more calcium deficient apatite. Conclusion The collagen fibers of cortical bone were arrayed more orderly than those of cancellous bone, while their mineralized fibers ollkded similar.The minerals in both cortical and cancellous bone are composed of poorly crystallized nano-size apatite crystals with lattice carbonate and possible lattice water. The process of heat treatment induces a change of the lattice parameter, resulting in lattice rearrangement after the release of lattice carbonate and lattice water and causing an increase in crystal size and crystallinity.This finding is helpful for future biomaterial design, preparation and application.

Xiao-Yan WANG, Yi ZUO, Di HUANG, Xian-Deng HOU, Yu-Bao LI. Comparative Study on Inorganic Composition and Crystallographic Properties of Cortical and Cancellous Bone[J]. Biomedical and Environmental Sciences, 2010, 23(6): 473-480.
Citation: Xiao-Yan WANG, Yi ZUO, Di HUANG, Xian-Deng HOU, Yu-Bao LI. Comparative Study on Inorganic Composition and Crystallographic Properties of Cortical and Cancellous Bone[J]. Biomedical and Environmental Sciences, 2010, 23(6): 473-480.

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