Functional Scaffolds for Bone Tissue Regeneration: A Comprehensive Review of Materials, Methods, and Future Directions

Emily Ann Todd; Nicholas A. Mirsky; Bruno Luís Graciliano Silva; Ankita Raja Shinde; Aris R.L. Arakelians; Vasudev Vivekanand Nayak; Rosemary Adriana Chiérici Marcantonio; Nikhil Gupta; Lukasz Witek; Paulo Coelho

doi:10.3390/jfb15100280

Functional Scaffolds for Bone Tissue Regeneration: A Comprehensive Review of Materials, Methods, and Future Directions

Emily Ann Todd, Nicholas A. Mirsky, Bruno Luís Graciliano Silva, Ankita Raja Shinde, Aris R.L. Arakelians, Vasudev Vivekanand Nayak, Rosemary Adriana Chiérici Marcantonio, Nikhil Gupta, Lukasz Witek, Paulo Coelho

Research output: Contribution to journal › Review article › peer-review

Abstract

Bone tissue regeneration is a rapidly evolving field aimed at the development of biocompatible materials and devices, such as scaffolds, to treat diseased and damaged osseous tissue. Functional scaffolds maintain structural integrity and provide mechanical support at the defect site during the healing process, while simultaneously enabling or improving regeneration through amplified cellular cues between the scaffold and native tissues. Ample research on functionalization has been conducted to improve scaffold–host tissue interaction, including fabrication techniques, biomaterial selection, scaffold surface modifications, integration of bioactive molecular additives, and post-processing modifications. Each of these methods plays a crucial role in enabling scaffolds to not only support but actively participate in the healing and regeneration process in bone and joint surgery. This review provides a state-of-the-art, comprehensive overview of the functionalization of scaffold-based strategies used in tissue engineering, specifically for bone regeneration. Critical issues and obstacles are highlighted, applications and advances are described, and future directions are identified.

Original language	English (US)
Article number	280
Journal	Journal of Functional Biomaterials
Volume	15
Issue number	10
DOIs	https://doi.org/10.3390/jfb15100280
State	Published - Oct 2024

Keywords

3D printing
bone tissue regeneration
functionalization
osseous defects
scaffolds

ASJC Scopus subject areas

Biomaterials
Biomedical Engineering

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10.3390/jfb15100280

Cite this

Todd, E. A., Mirsky, N. A., Silva, B. L. G., Shinde, A. R., Arakelians, A. R. L., Nayak, V. V., Marcantonio, R. A. C., Gupta, N., Witek, L., & Coelho, P. (2024). Functional Scaffolds for Bone Tissue Regeneration: A Comprehensive Review of Materials, Methods, and Future Directions. Journal of Functional Biomaterials, 15(10), Article 280. https://doi.org/10.3390/jfb15100280

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abstract = "Bone tissue regeneration is a rapidly evolving field aimed at the development of biocompatible materials and devices, such as scaffolds, to treat diseased and damaged osseous tissue. Functional scaffolds maintain structural integrity and provide mechanical support at the defect site during the healing process, while simultaneously enabling or improving regeneration through amplified cellular cues between the scaffold and native tissues. Ample research on functionalization has been conducted to improve scaffold–host tissue interaction, including fabrication techniques, biomaterial selection, scaffold surface modifications, integration of bioactive molecular additives, and post-processing modifications. Each of these methods plays a crucial role in enabling scaffolds to not only support but actively participate in the healing and regeneration process in bone and joint surgery. This review provides a state-of-the-art, comprehensive overview of the functionalization of scaffold-based strategies used in tissue engineering, specifically for bone regeneration. Critical issues and obstacles are highlighted, applications and advances are described, and future directions are identified.",

keywords = "3D printing, bone tissue regeneration, functionalization, osseous defects, scaffolds",

author = "Todd, {Emily Ann} and Mirsky, {Nicholas A.} and Silva, {Bruno Lu{\'i}s Graciliano} and Shinde, {Ankita Raja} and Arakelians, {Aris R.L.} and Nayak, {Vasudev Vivekanand} and Marcantonio, {Rosemary Adriana Chi{\'e}rici} and Nikhil Gupta and Lukasz Witek and Paulo Coelho",

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year = "2024",

month = oct,

doi = "10.3390/jfb15100280",

language = "English (US)",

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AU - Shinde, Ankita Raja

AU - Arakelians, Aris R.L.

AU - Nayak, Vasudev Vivekanand

AU - Marcantonio, Rosemary Adriana Chiérici

AU - Gupta, Nikhil

AU - Witek, Lukasz

AU - Coelho, Paulo

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N2 - Bone tissue regeneration is a rapidly evolving field aimed at the development of biocompatible materials and devices, such as scaffolds, to treat diseased and damaged osseous tissue. Functional scaffolds maintain structural integrity and provide mechanical support at the defect site during the healing process, while simultaneously enabling or improving regeneration through amplified cellular cues between the scaffold and native tissues. Ample research on functionalization has been conducted to improve scaffold–host tissue interaction, including fabrication techniques, biomaterial selection, scaffold surface modifications, integration of bioactive molecular additives, and post-processing modifications. Each of these methods plays a crucial role in enabling scaffolds to not only support but actively participate in the healing and regeneration process in bone and joint surgery. This review provides a state-of-the-art, comprehensive overview of the functionalization of scaffold-based strategies used in tissue engineering, specifically for bone regeneration. Critical issues and obstacles are highlighted, applications and advances are described, and future directions are identified.

AB - Bone tissue regeneration is a rapidly evolving field aimed at the development of biocompatible materials and devices, such as scaffolds, to treat diseased and damaged osseous tissue. Functional scaffolds maintain structural integrity and provide mechanical support at the defect site during the healing process, while simultaneously enabling or improving regeneration through amplified cellular cues between the scaffold and native tissues. Ample research on functionalization has been conducted to improve scaffold–host tissue interaction, including fabrication techniques, biomaterial selection, scaffold surface modifications, integration of bioactive molecular additives, and post-processing modifications. Each of these methods plays a crucial role in enabling scaffolds to not only support but actively participate in the healing and regeneration process in bone and joint surgery. This review provides a state-of-the-art, comprehensive overview of the functionalization of scaffold-based strategies used in tissue engineering, specifically for bone regeneration. Critical issues and obstacles are highlighted, applications and advances are described, and future directions are identified.

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Functional Scaffolds for Bone Tissue Regeneration: A Comprehensive Review of Materials, Methods, and Future Directions

Abstract

Keywords

ASJC Scopus subject areas

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