1. |
Wang, J. L.; Xu, J. K.; Hopkins, C.; Chow, D. H.; Qin, L. Biodegradable magnesium-based implants in orthopedics-a general review and perspectives. Adv Sci (Weinh). 2020, 7, 1902443.
|
2. |
Staiger, M. P.; Pietak, A. M.; Huadmai, J.; Dias, G. Magnesium and its alloys as orthopedic biomaterials: a review. Biomaterials. 2006, 27, 1728-1734.
doi: 10.1016/j.biomaterials.2005.10.003
URL
|
3. |
Yu, D.; Li, B.; Yu, M.; Guo, S.; Guo, Z.; Han, Y. Cubic multi-ions-doped Na(2)TiO(3) nanorod-like coatings: Structure-stable, highly efficient platform for ions-exchanged release to immunomodulatory promotion on vascularized bone apposition. Bioact Mater. 2022, 18, 72-90.
|
4. |
Lin, Z.; Shen, D.; Zhou, W.; Zheng, Y.; Kong, T.; Liu, X.; Wu, S.; Chu, P. K.; Zhao, Y.; Wu, J.; Cheung, K. M. C.; Yeung, K. W. K. Regulation of extracellular bioactive cations in bone tissue microenvironment induces favorable osteoimmune conditions to accelerate in situ bone regeneration. Bioact Mater. 2021, 6, 2315-2330.
|
5. |
Zhang, Y.; Xu, J.; Ruan, Y. C.; Yu, M. K.; O’Laughlin, M.; Wise, H.; Chen, D.; Tian, L.; Shi, D.; Wang, J.; Chen, S.; Feng, J. Q.; Chow, D. H.; Xie, X.; Zheng, L.; Huang, L.; Huang, S.; Leung, K.; Lu, N.; Zhao, L.; Li, H.; Zhao, D.; Guo, X.; Chan, K.; Witte, F.; Chan, H. C.; Zheng, Y.; Qin, L. Implant-derived magnesium induces local neuronal production of CGRP to improve bone-fracture healing in rats. Nat Med. 2016, 22, 1160-1169.
doi: 10.1038/nm.4162
|
6. |
Luthringer, B. J.; Willumeit-Römer, R. Effects of magnesium degradation products on mesenchymal stem cell fate and osteoblastogenesis. Gene. 2016, 575, 9-20.
doi: 10.1016/j.gene.2015.08.028
URL
|
7. |
Lawrence, T.; Natoli, G. Transcriptional regulation of macrophage polarization: enabling diversity with identity. Nat Rev Immunol. 2011, 11, 750-761.
|
8. |
Qiao, W.; Wong, K. H. M.; Shen, J.; Wang, W.; Wu, J.; Li, J.; Lin, Z.; Chen, Z.; Matinlinna, J. P.; Zheng, Y.; Wu, S.; Liu, X.; Lai, K. P.; Chen, Z.; Lam, Y. W.; Cheung, K. M. C.; Yeung, K. W. K. TRPM7 kinase-mediated immunomodulation in macrophage plays a central role in magnesium ion-induced bone regeneration. Nat Commun. 2021, 12, 2885.
doi: 10.1038/s41467-021-23005-2
|
9. |
Qiao, W.; Pan, D.; Zheng, Y.; Wu, S.; Liu, X.; Chen, Z.; Wan, M.; Feng, S.; Cheung, K. M. C.; Yeung, K. W. K.; Cao, X. Divalent metal cations stimulate skeleton interoception for new bone formation in mouse injury models. Nat Commun. 2022, 13, 535.
doi: 10.1038/s41467-022-28203-0
|
10. |
Takayanagi, H. Osteoimmunology in 2014: Two-faced immunology-from osteogenesis to bone resorption. Nat Rev Rheumatol. 2015, 11, 74-76.
doi: 10.1038/nrrheum.2014.219
|
11. |
Yu, F.; Lian, R.; Liu, L.; Liu, T.; Bi, C.; Hong, K.; Zhang, S.; Ren, J.; Wang, H.; Ouyang, N.; Du, L. J.; Liu, Y.; Zhou, L.; Liu, Y.; Fang, B.; Li, Y.; Duan, S. Z.; Xia, L. Biomimetic hydroxyapatite nanorods promote bone regeneration via accelerating osteogenesis of BMSCs through T cell-derived IL-22. ACS Nano. 2022, 16, 755-770.
doi: 10.1021/acsnano.1c08281
URL
|