Compositional and histological comparison of carbonate apatite fabricated by dissolution–precipitation reaction and Bio-Oss®

Kenji Fujisawa; Kazuya Akita; Naoyuki Fukuda; Kumiko Kamada; Takaharu Kudoh; Go Ohe; Takamitsu Mano; Kanji Tsuru; Kunio Ishikawa; Youji Miyamoto

doi:10.1007/s10856-018-6129-2

Compositional and histological comparison of carbonate apatite fabricated by dissolution–precipitation reaction and Bio-Oss^®

Kenji Fujisawa, Kazuya Akita, Naoyuki Fukuda, Kumiko Kamada, Takaharu Kudoh, Go Ohe, Takamitsu Mano, Kanji Tsuru, Kunio Ishikawa, Youji Miyamoto

口腔機能修復学

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

28 被引用数 (Scopus)

抄録

Carbonate apatite (CO₃Ap) is an inorganic component of bone. This study aimed to compare the composition and tissue response to of CO₃Ap (CO₃Ap-DP) fabricated by the dissolution–precipitation reaction using calcite as a precursor and Bio-Oss®, which is widely used in orthopedic and dental fields as a synthetic bone substitute. X-ray diffraction and Fourier transform infrared results showed that CO₃Ap-DP and Bio-Oss® were both B-type carbonate apatite with low crystallinity. The average sizes of CO₃Ap-DP and Bio-Oss® granules were 450 ± 58 and 667 ± 168μ m, respectively, and their carbonate contents were 12.1 ± 0.6 and 5.6 ± 0.1 wt%, respectively. CO₃Ap-DP had a larger amount of CO₃ than Bio-Oss® but higher crystallinity than Bio-Oss®. When a bone defect made at the femur of rabbits was reconstructed with CO₃Ap-DP and Bio-Oss®, CO₃Ap-DP granules were partially replaced with bone, whereas Bio-Oss® remained at 8 weeks after implantation. CO₃Ap-DP granules elicited a significantly larger amount of new bone formation at the cortical bone portion than Bio-Oss® at 4 weeks after the implantation. The results obtained in the present study demonstrated that CO₃Ap-DP and Bio-Oss® showed different behavior even though they were both classified as CO₃Ap. The CO₃ content in CO₃Ap played a more important role than the crystallinity of CO₃Ap for replacement to bone and high osteoconductivity. [Figure not available: see fulltext.].

本文言語	英語
論文番号	121
ジャーナル	Journal of Materials Science: Materials in Medicine
巻	29
号	8
DOI	https://doi.org/10.1007/s10856-018-6129-2
出版ステータス	出版済み - 8月 1 2018

!!!All Science Journal Classification (ASJC) codes

生物理学
バイオエンジニアリング
生体材料
生体医工学

文献へのアクセス

10.1007/s10856-018-6129-2

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引用スタイル

Fujisawa, K., Akita, K., Fukuda, N., Kamada, K., Kudoh, T., Ohe, G., Mano, T., Tsuru, K., Ishikawa, K., & Miyamoto, Y. (2018). Compositional and histological comparison of carbonate apatite fabricated by dissolution–precipitation reaction and Bio-Oss^® Journal of Materials Science: Materials in Medicine, 29(8), Article 121. https://doi.org/10.1007/s10856-018-6129-2

Fujisawa, K, Akita, K, Fukuda, N, Kamada, K, Kudoh, T, Ohe, G, Mano, T, Tsuru, K, Ishikawa, K & Miyamoto, Y 2018, 'Compositional and histological comparison of carbonate apatite fabricated by dissolution–precipitation reaction and Bio-Oss^® ', Journal of Materials Science: Materials in Medicine, vol. 29, no. 8, 121. https://doi.org/10.1007/s10856-018-6129-2

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title = "Compositional and histological comparison of carbonate apatite fabricated by dissolution–precipitation reaction and Bio-Oss{\textregistered} ",

abstract = "Carbonate apatite (CO3Ap) is an inorganic component of bone. This study aimed to compare the composition and tissue response to of CO3Ap (CO3Ap-DP) fabricated by the dissolution–precipitation reaction using calcite as a precursor and Bio-Oss{\textregistered}, which is widely used in orthopedic and dental fields as a synthetic bone substitute. X-ray diffraction and Fourier transform infrared results showed that CO3Ap-DP and Bio-Oss{\textregistered} were both B-type carbonate apatite with low crystallinity. The average sizes of CO3Ap-DP and Bio-Oss{\textregistered} granules were 450 ± 58 and 667 ± 168μ m, respectively, and their carbonate contents were 12.1 ± 0.6 and 5.6 ± 0.1 wt%, respectively. CO3Ap-DP had a larger amount of CO3 than Bio-Oss{\textregistered} but higher crystallinity than Bio-Oss{\textregistered}. When a bone defect made at the femur of rabbits was reconstructed with CO3Ap-DP and Bio-Oss{\textregistered}, CO3Ap-DP granules were partially replaced with bone, whereas Bio-Oss{\textregistered} remained at 8 weeks after implantation. CO3Ap-DP granules elicited a significantly larger amount of new bone formation at the cortical bone portion than Bio-Oss{\textregistered} at 4 weeks after the implantation. The results obtained in the present study demonstrated that CO3Ap-DP and Bio-Oss{\textregistered} showed different behavior even though they were both classified as CO3Ap. The CO3 content in CO3Ap played a more important role than the crystallinity of CO3Ap for replacement to bone and high osteoconductivity. [Figure not available: see fulltext.].",

author = "Kenji Fujisawa and Kazuya Akita and Naoyuki Fukuda and Kumiko Kamada and Takaharu Kudoh and Go Ohe and Takamitsu Mano and Kanji Tsuru and Kunio Ishikawa and Youji Miyamoto",

note = "Funding Information: Acknowledgements This study was supported, in part, by the Strategic Promotion of Innovative Research and Development Program (17im0502004h) from Japan Agency for Medical Research and Development, and Grant-in-Aids for Scientific Research (C) 16K11752 from the Japanese Society for the Promotion of Science and Research. Publisher Copyright: {\textcopyright} 2018, Springer Science+Business Media, LLC, part of Springer Nature.",

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T1 - Compositional and histological comparison of carbonate apatite fabricated by dissolution–precipitation reaction and Bio-Oss®

AU - Fujisawa, Kenji

AU - Akita, Kazuya

AU - Fukuda, Naoyuki

AU - Kamada, Kumiko

AU - Kudoh, Takaharu

AU - Ohe, Go

AU - Mano, Takamitsu

AU - Tsuru, Kanji

AU - Ishikawa, Kunio

AU - Miyamoto, Youji

N1 - Funding Information: Acknowledgements This study was supported, in part, by the Strategic Promotion of Innovative Research and Development Program (17im0502004h) from Japan Agency for Medical Research and Development, and Grant-in-Aids for Scientific Research (C) 16K11752 from the Japanese Society for the Promotion of Science and Research. Publisher Copyright: © 2018, Springer Science+Business Media, LLC, part of Springer Nature.

PY - 2018/8/1

Y1 - 2018/8/1

N2 - Carbonate apatite (CO3Ap) is an inorganic component of bone. This study aimed to compare the composition and tissue response to of CO3Ap (CO3Ap-DP) fabricated by the dissolution–precipitation reaction using calcite as a precursor and Bio-Oss®, which is widely used in orthopedic and dental fields as a synthetic bone substitute. X-ray diffraction and Fourier transform infrared results showed that CO3Ap-DP and Bio-Oss® were both B-type carbonate apatite with low crystallinity. The average sizes of CO3Ap-DP and Bio-Oss® granules were 450 ± 58 and 667 ± 168μ m, respectively, and their carbonate contents were 12.1 ± 0.6 and 5.6 ± 0.1 wt%, respectively. CO3Ap-DP had a larger amount of CO3 than Bio-Oss® but higher crystallinity than Bio-Oss®. When a bone defect made at the femur of rabbits was reconstructed with CO3Ap-DP and Bio-Oss®, CO3Ap-DP granules were partially replaced with bone, whereas Bio-Oss® remained at 8 weeks after implantation. CO3Ap-DP granules elicited a significantly larger amount of new bone formation at the cortical bone portion than Bio-Oss® at 4 weeks after the implantation. The results obtained in the present study demonstrated that CO3Ap-DP and Bio-Oss® showed different behavior even though they were both classified as CO3Ap. The CO3 content in CO3Ap played a more important role than the crystallinity of CO3Ap for replacement to bone and high osteoconductivity. [Figure not available: see fulltext.].

AB - Carbonate apatite (CO3Ap) is an inorganic component of bone. This study aimed to compare the composition and tissue response to of CO3Ap (CO3Ap-DP) fabricated by the dissolution–precipitation reaction using calcite as a precursor and Bio-Oss®, which is widely used in orthopedic and dental fields as a synthetic bone substitute. X-ray diffraction and Fourier transform infrared results showed that CO3Ap-DP and Bio-Oss® were both B-type carbonate apatite with low crystallinity. The average sizes of CO3Ap-DP and Bio-Oss® granules were 450 ± 58 and 667 ± 168μ m, respectively, and their carbonate contents were 12.1 ± 0.6 and 5.6 ± 0.1 wt%, respectively. CO3Ap-DP had a larger amount of CO3 than Bio-Oss® but higher crystallinity than Bio-Oss®. When a bone defect made at the femur of rabbits was reconstructed with CO3Ap-DP and Bio-Oss®, CO3Ap-DP granules were partially replaced with bone, whereas Bio-Oss® remained at 8 weeks after implantation. CO3Ap-DP granules elicited a significantly larger amount of new bone formation at the cortical bone portion than Bio-Oss® at 4 weeks after the implantation. The results obtained in the present study demonstrated that CO3Ap-DP and Bio-Oss® showed different behavior even though they were both classified as CO3Ap. The CO3 content in CO3Ap played a more important role than the crystallinity of CO3Ap for replacement to bone and high osteoconductivity. [Figure not available: see fulltext.].

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