Neuralized and vascularized fast bone regeneration using recombinant humanized type 1 collagen and native bone composite inorganic salts DOI Creative Commons
Peng Hou, Song Chen, Tuerxun Maimaitiaili

et al.

APL Materials, Journal Year: 2025, Volume and Issue: 13(3)

Published: March 1, 2025

Bone injury is a prevalent condition in clinical therapy that can lead to significant functional impairments and substantially disrupt the quality of life for patients. However, there has been limited breakthrough achieving neuralized vascularized rapid bone regeneration. In this study, we collaborated with recombinant humanized collagen 1 (rhCOL1), native composite inorganic salts (NBCISs), methacrylated silk fibroin (SilMA), marrow mesenchymal stem cells (BMSCs) construct biomimetic organic bio-mineralized multifunctional organoids repair defects, regeneration within just six weeks rabbits. We first determined optimal concentration SilMA (10%) by comprehensively evaluating crosslinking, operability, BMSC proliferation. The rhCOL1 NBCIS mixture was prepared using ratio 3:7, reference bone, subsequently added create biomineralized microenvironments NCSilMA. Similarly, proportions were optimized based on their effects compressive modulus, swelling, degradation. As result, successfully constructed hydrogel scaffold defect repair, characterized excellent biodegradability, appropriate strength, good biocompatibility, osteoinductive biological function. Finally, BMSC-loaded NCSilMA (organoids) achieved regeneration, up-regulated osteogenic genes enhanced cell colonization, collagen, polysaccharide deposition.

Language: Английский

Neuralized and vascularized fast bone regeneration using recombinant humanized type 1 collagen and native bone composite inorganic salts DOI Creative Commons
Peng Hou, Song Chen, Tuerxun Maimaitiaili

et al.

APL Materials, Journal Year: 2025, Volume and Issue: 13(3)

Published: March 1, 2025

Bone injury is a prevalent condition in clinical therapy that can lead to significant functional impairments and substantially disrupt the quality of life for patients. However, there has been limited breakthrough achieving neuralized vascularized rapid bone regeneration. In this study, we collaborated with recombinant humanized collagen 1 (rhCOL1), native composite inorganic salts (NBCISs), methacrylated silk fibroin (SilMA), marrow mesenchymal stem cells (BMSCs) construct biomimetic organic bio-mineralized multifunctional organoids repair defects, regeneration within just six weeks rabbits. We first determined optimal concentration SilMA (10%) by comprehensively evaluating crosslinking, operability, BMSC proliferation. The rhCOL1 NBCIS mixture was prepared using ratio 3:7, reference bone, subsequently added create biomineralized microenvironments NCSilMA. Similarly, proportions were optimized based on their effects compressive modulus, swelling, degradation. As result, successfully constructed hydrogel scaffold defect repair, characterized excellent biodegradability, appropriate strength, good biocompatibility, osteoinductive biological function. Finally, BMSC-loaded NCSilMA (organoids) achieved regeneration, up-regulated osteogenic genes enhanced cell colonization, collagen, polysaccharide deposition.

Language: Английский

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