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Raising the Bar: Progress in 3D-Printed Hybrid Bone Scaffolds for Clinical Applications: A Review

Ahsan Riaz Khan, Navdeep Singh Grewal, Zhang Jun, Ferdous M. O. Tawfiq, Fairouz Tchier, Rana Muhammad Zulqarnain, Haijun Zhang

2024Cell Transplantation16 citationsDOIOpen Access PDF

Abstract

Damage to bones resulting from trauma and tumors poses a significant challenge to human health. Consequently, current research in bone damage healing centers on developing three-dimensional (3D) scaffolding materials that facilitate and enhance the regeneration of fractured bone tissues. In this context, the careful selection of materials and preparation processes is essential for creating demanding scaffolds for bone tissue engineering. This is done to optimize the regeneration of fractured bones. This study comprehensively analyses the latest scientific advancements and difficulties in developing scaffolds for bone tissue creation. Initially, we clarified the composition and process by which bone tissue repairs itself. The review summarizes the primary uses of materials, both inorganic and organic, in scaffolds for bone tissue engineering. In addition, we present a comprehensive study of the most recent advancements in the mainstream techniques used to prepare scaffolds for bone tissue engineering. We also examine the distinct advantages of each method in great detail. This article thoroughly examines potential paths and obstacles in bone tissue engineering scaffolds for clinical applications.

Topics & Concepts

ScaffoldTissue engineeringContext (archaeology)Process (computing)Regeneration (biology)Bone tissueBiomedical engineeringBone healingComputer scienceEngineeringMedicineAnatomyBiologyCell biologyPaleontologyOperating systemBone Tissue Engineering Materials3D Printing in Biomedical ResearchDental Implant Techniques and Outcomes