Study of vascularization of hydroxyapatite/tricalcium phosphate biomaterials implanted in mice during osteoinduction_Journal of Biomedical Engineering

Authors：

CHENG Lijia , YAN Shuo , SHI Zheng , FANG Yiting ,  ZHU Jiang

Medical School, Chengdu University, Chengdu 610106, P.R.China;

Corresponding author：

ZHU Jiang, Email: 13378119012@163.com

Keywords：

hydroxyapatite/tricalcium phosphate; vascularization; osteoinduction; bone tissue engineering

DOI：

10.7507/1001-5515.201601007

Video：

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This study aims to explore the vascularization of hydroxyapatite/tricalcium phosphate (HA/TCP) biomaterials implanted in mice during osteoinduction. The HA/TCP biomaterials were implanted in muscle of mice, and 2, 4, 6, 8, 10 and 12 weeks after the implantation, the materials were harvested to prepare serial sections and hematoxylin-eosin (HE) staining. The process of vascularization was dynamically described, and the area percentage of neovascularization was quantitatively analyzed. The results showed that neovascularization formation was a continuous and dynamic process. The neovascularization appeared largely in the first two weeks, with a rising trend in week 4, reached peak in week 6, and gradually reduced in week 8. The results provide ideas for improving the success rate of bone tissue engineering, and indicate the mechanism of osteoinduction.

Citation： CHENGLijia, YANShuo, SHIZheng, FANGYiting, ZHUJiang. Study of vascularization of hydroxyapatite/tricalcium phosphate biomaterials implanted in mice during osteoinduction. Journal of Biomedical Engineering, 2017, 34(1): 83-86. doi: 10.7507/1001-5515.201601007 Copy

1.	Zhang X D, Zhou P, Wu C, et al. A study of porous block HA ceramics and its osteogenesis//RAVAGLIOLI A, KRAJEWSKI A. Bioceramics and the human body. Amsterdam: Elsevier Applied Science, 1991: 408-415.
2.	Cheng Lijia, Ye Feng, Yang Ruina, et al. Osteoinduction of hydroxyapatite/β-tricalcium phosphate bioceramics in mice with a fractured fibula. Acta Biomater, 2010, 6(4): 1569-1574.
3.	Kusuma G D, Menicanin D, Gronthos S, et al. Ectopic bone formation by mesenchymal stem cells derived from human term placenta and the decidua. PLoS One, 2015, 10(10): e0141246.
4.	Bajpai I, Kim D Y, Kyong-Jin J, et al. Response of human bone marrow-derived MSCs on triphasic Ca-P substrate with various HA/TCP ratio[J]. J Biomed Mater Res B Appl Biomater, 2015. DOI: 10.1002/jbm.b.33538.[Epub ahead of print].
5.	Eder C, Meissner J, Bretschneider W, et al. Analysis of a β-TCP bone graft extender explanted during revision surgery after 28 months in vivo. Eur Spine J, 2014, 23(2): 157-160.
6.	Goldman O, Han S, Hamou W, et al. Endoderm generates endothelial cells during liver development. Stem Cell Reports, 2014, 3(4): 556-565.
7.	Subramaniam S, Fang Y H, Sivasubramanian S, et al. Hydroxyapatite-calcium sulfate-hyaluronic acid composite encapsulated with collagenase as bone substitute for alveolar bone regeneration. Biomaterials, 2016, 74: 99-108.
8.	Chen Guobao, Dong Chanjuan, Yang Li, et al. 3D scaffolds with different stiffness but the same microstructure for bone tissue engineering. ACS Appl Mater Interfaces, 2015, 7(29): 15790-15802.
9.	Cheng Lijia, Lu Xiaofeng, Shi Yujun, et al. Repair of segmental bone defects with bone marrow and BMP-2 adenovirus in the rabbit radius. Appl Surf Sci, 2012, 262: 188-193.
10.	Kuboki Y, Jin Q M, Takita H. Geometry of carriers controlling phenotypic expression in BMP-induced osteogenesis and chondrogenesis. J Bone Joint Surg Am, 2001, 83A(2, 1): S105-S115.
11.	Cassell O C, Hofer S O, Morrison W A, et al. Vascularisation of tissue-engineered grafts: the regulation of angiogenesis in reconstructive surgery and in disease states. Br J Plast Surg, 2002, 55(8): 603-610.

1. Zhang X D, Zhou P, Wu C, et al. A study of porous block HA ceramics and its osteogenesis//RAVAGLIOLI A, KRAJEWSKI A. Bioceramics and the human body. Amsterdam: Elsevier Applied Science, 1991: 408-415.
2. Cheng Lijia, Ye Feng, Yang Ruina, et al. Osteoinduction of hydroxyapatite/β-tricalcium phosphate bioceramics in mice with a fractured fibula. Acta Biomater, 2010, 6(4): 1569-1574.
3. Kusuma G D, Menicanin D, Gronthos S, et al. Ectopic bone formation by mesenchymal stem cells derived from human term placenta and the decidua. PLoS One, 2015, 10(10): e0141246.
4. Bajpai I, Kim D Y, Kyong-Jin J, et al. Response of human bone marrow-derived MSCs on triphasic Ca-P substrate with various HA/TCP ratio[J]. J Biomed Mater Res B Appl Biomater, 2015. DOI: 10.1002/jbm.b.33538.[Epub ahead of print].
5. Eder C, Meissner J, Bretschneider W, et al. Analysis of a β-TCP bone graft extender explanted during revision surgery after 28 months in vivo. Eur Spine J, 2014, 23(2): 157-160.
6. Goldman O, Han S, Hamou W, et al. Endoderm generates endothelial cells during liver development. Stem Cell Reports, 2014, 3(4): 556-565.
7. Subramaniam S, Fang Y H, Sivasubramanian S, et al. Hydroxyapatite-calcium sulfate-hyaluronic acid composite encapsulated with collagenase as bone substitute for alveolar bone regeneration. Biomaterials, 2016, 74: 99-108.
8. Chen Guobao, Dong Chanjuan, Yang Li, et al. 3D scaffolds with different stiffness but the same microstructure for bone tissue engineering. ACS Appl Mater Interfaces, 2015, 7(29): 15790-15802.
9. Cheng Lijia, Lu Xiaofeng, Shi Yujun, et al. Repair of segmental bone defects with bone marrow and BMP-2 adenovirus in the rabbit radius. Appl Surf Sci, 2012, 262: 188-193.
10. Kuboki Y, Jin Q M, Takita H. Geometry of carriers controlling phenotypic expression in BMP-induced osteogenesis and chondrogenesis. J Bone Joint Surg Am, 2001, 83A(2, 1): S105-S115.
11. Cassell O C, Hofer S O, Morrison W A, et al. Vascularisation of tissue-engineered grafts: the regulation of angiogenesis in reconstructive surgery and in disease states. Br J Plast Surg, 2002, 55(8): 603-610.

Journal of Biomedical Engineering

Study of vascularization of hydroxyapatite/tricalcium phosphate biomaterials implanted in mice during osteoinduction

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