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NIR-Responsive Deployable and Self-Fitting 4D-Printed Bone Tissue Scaffold

材料科学 生物医学工程 3d打印 脚手架 骨组织 纳米技术 工程类
作者
Saswat Choudhury,Akshat Joshi,Akhilesh Agrawal,Amit Nain,Ashutosh Bagde,Aditya Patel,Zahiruddin Quazi Syed,Sonal Asthana,Kaushik Chatterjee
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (37): 49135-49147 被引量:48
标识
DOI:10.1021/acsami.4c10385
摘要

The treatment of irregular-shaped and critical-sized bone defects poses a clinical challenge. Deployable, self-fitting tissue scaffolds that can be implanted by minimally invasive procedures are a promising solution. Toward this, we fabricated NIR-responsive and programmable polylactide-co-trimethylene carbonate (PLMC) scaffolds nanoengineered with polydopamine nanoparticles (PDA) by extrusion-based three-dimensional (3D) printing. The 3D-printed scaffolds demonstrated excellent (>99%), fast (under 30 s), and tunable shape recovery under NIR irradiation. PLMC–PDA composites demonstrated significantly higher osteogenic potential in vitro as revealed by the significantly enhanced alkaline phosphatase (ALP) secretion and mineral deposition in contrast to neat PLMC. Intraoperative deployability and in vivo bone regeneration ability of PLMC–PDA composites were demonstrated, using self-fitting scaffolds in critical-sized cranial bone defects in rabbits. The 3D-printed scaffolds were deformed into compact shapes that could self-fit into the defect shape intraoperatively under low power intensity (0.76 W cm–2) NIR. At 6 and 12 weeks postsurgical implantation, near-complete bone regeneration was observed in PLMC–PDA composites, unlike neat PLMC through microcomputed tomography (micro-CT) analysis. The potential clinical utility of the 3D-printed composites to secure complex defects was confirmed through self-fitting of the scaffolds into irregular defects in ex vivo models of rabbit tibia, mandible, and tooth models. Taken together, the composite scaffolds fabricated here offer an innovative strategy for minimally invasive deployment to fit irregular and complex tissue defects for bone tissue regeneration.
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