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Details

Category:

Articles

Type:

publikacja w in. zagranicznym czasopiśmie naukowym (tylko język obcy)

Published in:

American Journal of Biomedical Science & Research no. 4, pages 390 - 391,
ISSN: 2642-1747

Language:

English

Publication year:

2019

Bibliographic description:

Dziaduszewska M., Zieliński A.. Titanium Scaffolds – Hopes and Limitations. American Journal of Biomedical Science & Research, 2019, Vol. 4, iss. 6, s.390-391

DOI:

Digital Object Identifier (open in new tab) 10.34297/ajbsr.2019.04.000841

Bibliography: test

1. Zhang L, Yang G, Johnson BN, Jia X (2019) Three-dimensional (3D) print- ed scaffold and material selection for bone repair. Acta Biomater 84: 16- 33. open in new tab
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3. Barbas A, Bonnet AS, Lipinski P, Pesci R, Dubois G (2012) Development and mechanical characterization of porous titanium bone substitutes. J Mech Behav Biomed Mater 9: 34-44. open in new tab
4. Deb P, Deoghare AB, Borah A, Barua E, Das Lal S (2018) Scaffold Devel- opment Using Biomaterials: A Review Mater Today Proc 5(5): 12909- 12919. open in new tab
5. Wu S, Liu X, Yeung KWK, Liu C, Yang X (2014) Biomimetic porous scaf- folds for bone tissue engineering. Mater Sci Eng R Reports 80(1): 1-36. open in new tab
6. Fahmy MD, Jazayeri HE, Razavi M, Masri R, Tayebi L (2016) Three-Di- mensional Bioprinting Materials with Potential Application in Prepros- thetic Surgery J Prosthodont 25(4): 310-318. open in new tab
7. Yuan L, Ding S, Wen C (2019) Additive manufacturing technology for po- rous metal implant applications and triple minimal surface structures: A review, Bioact Mater 4(1): 56-70. open in new tab
8. Chen Q, Thouas GA (2015) Metallic implant biomaterials. Mater Sci Eng R 87: 1-57. open in new tab
9. Li N et al. (2019) Progress in additive manufacturing on new materials: A review. J Mater Sci Technol 35(2): 242-269. open in new tab
10. Melancon D (2017) Mechanical characterization of structurally porous biomaterials built via additive manufacturing: experiments, predictive models, and design maps for load-bearing bone replacement implants. Acta Biomater 63: 350-368. open in new tab
11. Zhao S, Li SJ, Hou WT, Hao L, Yang R, et al. (2016) The influence of cell morphology on the compressive fatigue behavior of Ti-6Al-4V meshes fabricated by electron beam melting. J Mech Behav Biomed Mater 59: 251-264. open in new tab
12. Wang Z (2017) Analysis of factors influencing bone ingrowth into three-dimensional printed porous metal scaffolds: A review. J Alloys Compd 717: 271-285. open in new tab
13. Ghassemi T et al. (2018). Current Concepts in Scaffolding for Bone Tis- sue Engineering. Arch Bone Jt Surg 6(2): 90-99.
14. Manjaiah M, Laubscher RF (2017) A Review of The Surface Modifica- tions of Titanium Alloys for Biomedical Applications. Mater Techn 51(2): 181-193. open in new tab
15. Ma T, Ge X, Zhang Y, Lin Y (2016) Effect of Titanium Surface Modifica- tions of Dental Implants on Rapid Osseointegration. In: Sasaki K, Suzuki O, Takahashi N (eds.) Interface Oral Health Science Springer, Singapore 247-256. open in new tab

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Sources of funding:

• Statutory activity/subsidy

Verified by:

Gdańsk University of Technology