Design and Fabrication of Bone Scaffold Using Ceramic Composite Filament by 3D Printer
Subject Areas : Composite materials
Hamideh Soleymani asl
1
,
Fatemeh Kalantarzadeh
2
,
Mina Alafzadeh
3
,
Mojdeh Azizi
4
,
Mahyar Soheily
5
1 - Department of Aerospace Engineering, Sharif University of Technology, Tehran, Iran
2 - School of Mechanical Engineering, University of Tehran, Tehran, Iran
3 - Department of Mechanical Engineering, Faculty of Engineering, Ardakan University, Ardakan, Iran
4 - Academic Center for Education, Culture and Research, Yazd, Iran
5 - Department of Engineering, Yazd Branch, Islamic Azad University, Yazd, Iran
Keywords:
Abstract :
[1] DR. Nisbet, JS. Forsythe, W. Shen, DI. Finkels tein and MK. Horne, “A Review of the Cellular Response on Electrospun Nanofibers for Tissue Engineering”, J. Biomater. Appl, 24, 2009,pp. 7-29
[2] K. Fujihara, M. Kotaki and S. Ramakrishna, “Guided bone regeneration membrane made of polycaprolactone/calcium carbonate composite nano-fibers”, Biomaterials, 26(19), 2005, pp. 4139-4147
[3] JY. Rho, L. Kuhn-Spearing and P. Zioupos, “Mechanical properties and the hierarchical structure of bone”, Med Eng Phys., 20 ,1998, pp. 92-102
[4] G. Lalwani, SC. Patel and B. Sitharaman, “Two-and Three-dimensional All-carbon Nanomaterial Assemblies for Tissue Engineering and Regenerative Medicine”, Ann Biomed Eng, 44, 2016, pp. 2020-2035
[5] S. Yang, K. F. Leong, Z. Du and C. K. Chua. “The design of scaffolds for use in tissue engineering. Part II. Rapid prototyping techniques”, Tissue Eng., 8, 2002, pp. 1–11
[6] K. F. Leong, C. M. Cheah and C. K. Chua, “Solid freeform fabrication of threedimensional scaffolds for engineering replacement tissues and organs”, Biomaterials, 24, 2003, pp. 2363–2378
[7] L. Lin, A. Tong, H. Zhang, Q. Hu and M. Fang, “The mechanical properties of bone tissue engineering scaffold fabricating via selective laser sintering”, In International Conference on Life System Modeling and Simulation, Berlin, Heidelberg , 2007, pp. 146-152
[8] S. I. Rohani-Esfahani, P. Newman and H. Zreiqat, “Design and fabrication of 3D printed scaffolds with a mechanical strength comparable to cortical bone to repair large bone defects”, Scientific reports, 6, 2016.
[9] S. Eshraghi and S. Das, “Mechanical and microstructural properties of polycaprolactone scaffolds with one-dimensional, two-dimensional, and three-dimensional orthogonally oriented porous architectures produced by selective laser sintering”, Acta biomaterial, 6, 2010, pp. 2467-2476.
[10] B. Zhang, L. Wang, P. Song, X. Pei, H. Sun, L. Wu, Ch. Zhou, K. Wang, Y. Fan and X. Zhang, “3D printed bone tissue regenerative PLA/HA scaffolds with comprehensive performance optimizations”, Materials & Design, 201, 2021, pp. 1-12.
[11] Ch. G. Kim, K. S. Han, S. Lee, M. Ch. Kim, S. Y. Kim and J. Nah, “Fabrication of biocompatible polycaprolactone-Hydroxyapatite composite filament for the FDM 3D printing of bone scaffolds”, Applied science, 11, 2021, pp.1-9.
[12] A. Arora, A. Kothari and D. S. Katti, “Pore Orientation Mediated Corol of Mechanical Behavior of Scaffolds and its Application in Cartilage-mimetic Scaffold Design”, Journal of the Mechanical Behavior of Biomedical Materials, 51, 2015, pp. 169-183
[13] B. Ostrowska, A. Di Luca, L. Moroni and W. Swieszkowski, “Influence of Internal Pore Architecture on Biological and Mechanical Properties of Three‐dimensional Fiber”, Journal of biomedical materials research. Part A, 104, 2016, pp.991-1001
[14] R. Langer, J. P. Vacanti, “Tissue engineering”, Science, 260, 1993, pp. 920– 926 2.
[15] C. Corcione, F. Gervaso, F. Scalera, F. Montagna, T. Maiullaro, A. Sannino and A. Maffezzoli, “3D printing of hydroxyapatite polymer-based composites for bone tissue enginnering”, J. Polym Eng., 8, 2017, pp. 741-746.
[16] D. Canales, M. Saavedra, M. T. Flores, J. Bejarano, J. A. Ortiz, P. Orihuela, A. Alfaro, E. Pabón, H. Palza, P. A.
Zapata, “Effect of bioglass nanoparticles on the properties and bioactivity of poly (lactic acid) films”, j. biomed. Mater. Res. Part A., 108, 2020, pp. 2032-2043.
[17] E. Schätzlein, Ch. Kicker, N. Söhling, U. Ritz, J. Neijhoft, D. Henrich, J. Frank, I. Marzi and A. Blaeser, “3D-Printed PLA-Bioglass Scaffolds with Controllable Calcium Release and MSC Adhesion for Bone Tissue Engineering”, Polymers, 14, 2022, pp. 2389-2394.
[18] M. Alksne, M. Kalvaityte, E. Simoliunas, I. Rinkunaite, I. Gendviliene, J. Locs, V. Rutkunas, V. Bukelskiene,” In vitro comparison of 3D printed polylactic acid/hydroxyapatite and polylactic acid/bioglass composite scaffolds: Insights into materials for bone regeneration”, Journal of the Mechanical Behavior of Biomedical Materials, 104, 2020, pp. 103641.
