Enhancing 3D scaffold performance for bone tissue engineering: A comprehensive review of modification and functionalization strategies
Bone tissue engineering holds promise for addressing bone injuries by using biomaterial-based 3D scaffolds. The efficacy of these scaffolds is paramount, relying heavily on their ability to interact with cells and facilitate tissue regeneration. This comprehensive review delves into various modifica...
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| Format: | Article |
| Language: | English |
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Elsevier
2024-12-01
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| Series: | Journal of Science: Advanced Materials and Devices |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2468217924001370 |
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| author | M. Selim Hamouda M. Mousa Muhammad Umar Aslam Khan Gamal T. Abdel-Jaber Nabisab Mujawar Mubarak Ahmed Barhoum Abdulaziz Al-Anazi Abdalla Abdal-hay |
| author_facet | M. Selim Hamouda M. Mousa Muhammad Umar Aslam Khan Gamal T. Abdel-Jaber Nabisab Mujawar Mubarak Ahmed Barhoum Abdulaziz Al-Anazi Abdalla Abdal-hay |
| author_sort | M. Selim |
| collection | DOAJ |
| description | Bone tissue engineering holds promise for addressing bone injuries by using biomaterial-based 3D scaffolds. The efficacy of these scaffolds is paramount, relying heavily on their ability to interact with cells and facilitate tissue regeneration. This comprehensive review delves into various modification and functionalization strategies to enhance the performance of biomaterial 3D scaffolds in bone tissue engineering. The review encompasses a wide range of techniques, including physical methods such as surface roughening and patterning, and chemical modifications like plasma treatment and functional group grafting. Additionally, surface-coating approaches employing biomolecules and nanoparticles are explored. Synthesizing current research findings offers valuable insights into optimizing biomaterial scaffolds for effective bone tissue regeneration applications. In addition, discussions encompass the influence of scaffold morphology, mechanical properties, and degradation kinetics on cellular responses and tissue integration. By thoroughly examining these strategies, future research will be guided toward developing advanced biomaterial scaffolds tailored specifically for bone tissue engineering applications. |
| format | Article |
| id | doaj-art-575c84e18ea1493a84e75dfc5f79a84a |
| institution | Kabale University |
| issn | 2468-2179 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Journal of Science: Advanced Materials and Devices |
| spelling | doaj-art-575c84e18ea1493a84e75dfc5f79a84a2024-12-13T11:00:33ZengElsevierJournal of Science: Advanced Materials and Devices2468-21792024-12-0194100806Enhancing 3D scaffold performance for bone tissue engineering: A comprehensive review of modification and functionalization strategiesM. Selim0Hamouda M. Mousa1Muhammad Umar Aslam Khan2Gamal T. Abdel-Jaber3Nabisab Mujawar Mubarak4Ahmed Barhoum5Abdulaziz Al-Anazi6Abdalla Abdal-hay7Department of Mechanical Engineering, Faculty of Engineering South Valley University, Qena, 83523, EgyptDepartment of Mechanical Engineering, Faculty of Engineering South Valley University, Qena, 83523, Egypt; Faculty of Technological Industry and Energy, Thebes Technological University, Thebes, Luxor, 85863, EgyptDepartment of Mechanical and Industrial Engineering, Qatar University, Doha, 2713, Qatar; Biomedical Research Center, Qatar University, Doha, 2713, QatarDepartment of Mechanical Engineering, Faculty of Engineering South Valley University, Qena, 83523, EgyptPetroleum and Chemical Engineering, Faculty of Engineering, Universiti Teknologi Brunei, Bandar Seri Begawan, BE1410, Brunei Darussalam; Department of Chemistry, School of Chemical Engineering and Physical Sciences, Lovely Professional University, Jalandhar, Punjab, India; Centre for Research Impact & Outcome, Chitkara University Institute of Engineering and Technology, Chitkara University, Rajpura, 140401, Punjab, IndiaNanoStruc Research Group, Chemistry Department, Faculty of Science, Helwan University, Cairo, 11795, EgyptDepartment of Chemical Engineering, College of Engineering, King Saud University, P.O. Box 800, Riyadh, 11421, Saudi Arabia; Corresponding author.Department of Mechanical Engineering, Faculty of Engineering South Valley University, Qena, 83523, Egypt; School of Dentistry, The University of Queensland, Herston, QLD, 4006, Australia; Centre for Orofacial Regeneration, Reconstruction and Rehabilitation (COR3), Herston, QLD, 4006, Australia; Corresponding author. Department of Mechanical Engineering, Faculty of Engineering South Valley University, Qena, 83523, Egypt.Bone tissue engineering holds promise for addressing bone injuries by using biomaterial-based 3D scaffolds. The efficacy of these scaffolds is paramount, relying heavily on their ability to interact with cells and facilitate tissue regeneration. This comprehensive review delves into various modification and functionalization strategies to enhance the performance of biomaterial 3D scaffolds in bone tissue engineering. The review encompasses a wide range of techniques, including physical methods such as surface roughening and patterning, and chemical modifications like plasma treatment and functional group grafting. Additionally, surface-coating approaches employing biomolecules and nanoparticles are explored. Synthesizing current research findings offers valuable insights into optimizing biomaterial scaffolds for effective bone tissue regeneration applications. In addition, discussions encompass the influence of scaffold morphology, mechanical properties, and degradation kinetics on cellular responses and tissue integration. By thoroughly examining these strategies, future research will be guided toward developing advanced biomaterial scaffolds tailored specifically for bone tissue engineering applications.http://www.sciencedirect.com/science/article/pii/S2468217924001370Bone tissue engineeringBiomaterialsNanoparticle integration3D scaffoldsSurface coatingTissue regeneration |
| spellingShingle | M. Selim Hamouda M. Mousa Muhammad Umar Aslam Khan Gamal T. Abdel-Jaber Nabisab Mujawar Mubarak Ahmed Barhoum Abdulaziz Al-Anazi Abdalla Abdal-hay Enhancing 3D scaffold performance for bone tissue engineering: A comprehensive review of modification and functionalization strategies Journal of Science: Advanced Materials and Devices Bone tissue engineering Biomaterials Nanoparticle integration 3D scaffolds Surface coating Tissue regeneration |
| title | Enhancing 3D scaffold performance for bone tissue engineering: A comprehensive review of modification and functionalization strategies |
| title_full | Enhancing 3D scaffold performance for bone tissue engineering: A comprehensive review of modification and functionalization strategies |
| title_fullStr | Enhancing 3D scaffold performance for bone tissue engineering: A comprehensive review of modification and functionalization strategies |
| title_full_unstemmed | Enhancing 3D scaffold performance for bone tissue engineering: A comprehensive review of modification and functionalization strategies |
| title_short | Enhancing 3D scaffold performance for bone tissue engineering: A comprehensive review of modification and functionalization strategies |
| title_sort | enhancing 3d scaffold performance for bone tissue engineering a comprehensive review of modification and functionalization strategies |
| topic | Bone tissue engineering Biomaterials Nanoparticle integration 3D scaffolds Surface coating Tissue regeneration |
| url | http://www.sciencedirect.com/science/article/pii/S2468217924001370 |
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