Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration

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Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration Publisher Pubmed

Angili SN¹ ; Morovvati MR¹ ; Kardanhalvaei M¹ ; Sabersamandari S^{2, 6} ; Razmjooee K² ; Abed AM³ ; Toghraie D⁴ ; Khandan A⁵

Show Affiliations

1. Department of Mechanical Engineering, Amirkabir University of Technology, 424 Hafez Ave., Tehran, Iran
2. New Technologies Research Center, Amirkabir University of Technology, Tehran, Iran
3. Air conditioning and Refrigeration Techniques Engineering Department, Al-Mustaqbal University College, Babylon, 51001, Iraq
4. Department of Mechanical Engineering, Khomeinishahr Branch, Islamic Azad University, Khomeinishahr, Iran
5. Dental Research Center, Dental Research Institute, School of Dentistry, Isfahan University of Medical Science, Isfahan, Iran
6. Composites Research Laboratory (CRLab), Amirkabir University of Technology, Tehran, Iran

Source: International Journal of Biological Macromolecules Published:2023

Abstract

This study proposes 3D-printed Poly L-lactic acid (PLA) scaffolds coated with alginate/MgO, and includes three different cellular topologies. Three unique scaffold models were considered: Perovskite type 1 (P1), Perovskite type 2 (P2), and IWP. Each scaffold was coated with alginate/MgO at the concentrations of 0 wt%, 5 wt%, 10 wt%, 15 wt%, and 20 wt%. For morphological and phase study, the microstructure of fabricated scaffolds was characterized using a Field Emission Scanning Electron Microscope (FESEM), energy dispersive spectroscopy (EDS), and X-ray diffraction (XRD) analysis. Besides, the biological characteristics of scaffolds, such as biocompatibility, antibacterial activity, and cell survival were studied after 21 days of soaking in the simulated body fluid (SBF). The results of biological studies indicate that the apatite layer covered the majority of composite scaffold's surface and sealed the pores' surface. The material properties of Alginate/MgO RVEs were evaluated under PBC, and it described that the elastic modulus enhanced from 100 (pure Alginate) to 130 MPA by adding 20 wt% MgO nanoparticles. The presented findings were compared to the results obtained by the experimental procedure and revealed satisfactory agreement. RVE-achieved material properties were used in the additional studies on the scaffolds to find the best candidate due to the material properties and architectures. Furthermore, experiment and finite element simulation were used to evaluate the mechanical properties of scaffolds under the compressive deformation. According to the results, the compressive strength of structures follows the order σPerovskite type 1>σPerovskite type 2 >σIWP. The results indicate that increasing MgO content from 0 wt% to 20 wt% enhances each structure's compressive strength and elastic modulus. In conclusion, based on the biological findings and simulation results, PLA scaffold with Perovskite type 1 (P1) architecture coated with Alginate/ 20 wt% MgO had the best response which is the final research candidate. © 2022 Elsevier B.V.

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Style	Citing Format
MLA	Angili SN, et al.. "Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration." International Journal of Biological Macromolecules, vol. 224, no. , 2023, pp. 1152-1165.
APA	Angili SN, Morovvati MR, Kardanhalvaei M, Sabersamandari S, Razmjooee K, Abed AM, Toghraie D, Khandan A (2023). Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration. International Journal of Biological Macromolecules, 224(), 1152-1165.
Chicago	Angili SN, Morovvati MR, Kardanhalvaei M, Sabersamandari S, Razmjooee K, Abed AM, Toghraie D, Khandan A. "Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration." International Journal of Biological Macromolecules 224, no. (2023): 1152-1165.
Harvard	Angili SN et al. (2023) 'Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration', International Journal of Biological Macromolecules, 224(), pp. 1152-1165.
Vancouver	Angili SN, Morovvati MR, Kardanhalvaei M, Sabersamandari S, Razmjooee K, Abed AM, et al.. Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration. International Journal of Biological Macromolecules. 2023;224():1152-1165.
BibTex	@article{ author = {Angili SN and Morovvati MR and Kardanhalvaei M and Sabersamandari S and Razmjooee K and Abed AM and Toghraie D and Khandan A}, title = {Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration}, journal = {International Journal of Biological Macromolecules}, volume = {224}, number = {}, pages = {1152-1165}, year = {2023} }
RIS	TY - JOUR AU - Angili SN AU - Morovvati MR AU - Kardanhalvaei M AU - Sabersamandari S AU - Razmjooee K AU - Abed AM AU - Toghraie D AU - Khandan A TI - Fabrication and Finite Element Simulation of Antibacterial 3D Printed Poly L-Lactic Acid Scaffolds Coated With Alginate/Magnesium Oxide for Bone Tissue Regeneration JO - International Journal of Biological Macromolecules VL - 224 IS - SP - 1152 EP - 1165 PY - 2023 ER -

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