Cellularizing hydrogel-based scaffolds to repair bone tissue: How to create a physiologically relevant micro-environment?

Maisani, Mathieu; Pezzoli, Daniele; Chassande, Olivier; Mantovani, Diego

doi:10.1177/2041731417712073

Cited by 80 publications

(70 citation statements)

References 250 publications

(365 reference statements)

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“…Engineered hydrogels are considered as a promising material to provide an optimal environment to maintain long lasting cell viability of stem cells in situ [19,51,52]. These materials allow the cells to be delivered appropriately into the defect sites for the treatment purpose [5,[52][53][54]. However, various limits in cell function and growth have been exhibited when stem cells are encapsulated into biomaterials [2,5,6,57].…”

Section: Discussionmentioning

confidence: 99%

Evaluation of double network hydrogel of poloxamer-heparin/gellan gum for bone marrow stem cells delivery carrier

Choi

Lee

et al. 2019

Colloids and Surfaces B: Biointerfaces

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In this study, a double network hydrogel of a natural polysaccharide gellan gum (GG) hydrogel and a synthetic hydrogel poloxamer-heparin (PoH) hydrogel (PoH/GG DNH) is introduced to complement disadvantages of each hydrogel and improve the microenvironment for cell delivery. The microstructure, surface morphology, gelation temperature, swelling and weight loss, sol fraction, mechanical property and thermal stability was examined. The potential of the composite hydrogel for cell vehicle was demonstrated by encapsulation of bone marrow stem cells isolated from rabbits (rBMSCs) within the PoH/GG DNH in vitro. The results showed that the DNH system supported cell survival and retained rBMSCs morphology and phenotype. Moreover, cell distribution, adherence, and ECM production were supported by PoH/GG DNH in vivo. Overall results provide a potential opportunity to apply the composite hydrogels in tissue engineering purpose.

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Section: Discussionmentioning

confidence: 99%

Evaluation of double network hydrogel of poloxamer-heparin/gellan gum for bone marrow stem cells delivery carrier

Choi

Lee

et al. 2019

Colloids and Surfaces B: Biointerfaces

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“…Bone tissue regeneration is important in periodontal therapy. Tissue regeneration can be induced by growth factors, 19 scaffolds, 20 and stem cell transplantation. 21 It was found in our previous study that calcium alginate, PLGA, and CS have an excellent biocompatibility and are able to improve cell mineralization.…”

Section: Discussionmentioning

confidence: 99%

Preparation and biological characterization of the mixture of poly(lactic-co-glycolic acid)/chitosan/Ag nanoparticles for periodontal tissue engineering

Xue¹,

Hong

Gao³

et al. 2019

IJN

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ObjectiveThis study aims to produce nanoparticles of chitosan (CS), poly(lactic-co-glycolic acid) (PLGA), and silver and investigate the optimal composite ratio of these three materials for periodontal tissue regeneration.MethodsPLGA nanoparticles (nPLGA), CS nanoparticles (nCS), and silver nanoparticles (nAg) were prepared. The antibacterial properties of single nanoparticles and their effects on the proliferation and mineralization of periodontal membrane cells were investigated. Different ratios of nPLGA and nCS were combined, the proliferation and mineralization of periodontal membrane cells were investigated, and based on the results, the optimal ratio was determined. Finally, nPLGA and nCS in optimal ratio were combined with nAg, and the effects of the complex of these three materials on the proliferation and mineralization of periodontal membrane cells were investigated and tested in animals.ResultsThe single nanoparticles were found to have no cytotoxicity and were able to promote cell mineralization. nCS and nAg in low concentrations showed antibacterial activity; however, nAg inhibited cell proliferation. The nPLGA and nCS complex in 3:7 ratio contributed to cell mineralization and had no cytotoxicity. nPLGA/nCS/nAg complex, which had the optimal proportion of the three materials, showed no cytotoxicity and contributed to cell mineralization.ConclusionnPLGA/nCS/nAg complex had no cytotoxicity and contributed to cell mineralization. The 3:7 ratio of nPLGA/nCS and 50 µg/mL nAg were found as the optimal proportion of the three materials.

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“…Silk fibroin is a widely known natural biomaterial acquired from B. mori cocoons and contains alanine, glycine and serine [42,43]. Previous reports have shown that silk fibroin has excellent biocompatibility, strong mechanical properties and low degradation rate [50][51][52]. BM-MSCs produced new ECM on patterned silk fibroin surfaces [53].…”

Section: Discussionmentioning

confidence: 99%

Isogenic-Induced Endothelial Cells Enhance Osteogenic Differentiation of Mesenchymal Stem Cells on Silk Fibroin Scaffold

Eswaramoorthy

Dhiman

Korra³

et al. 2019

Regen. Med.

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Aim: We investigated the role of induced endothelial cells (iECs) in mesenchymal stem cells (MSCs)/iECs co-culture and assessed their osteogenic ability on silk fibroin nanofiber scaffolds. Methods: The osteogenic differentiation was assessed by the ALP assay, calcium assay and gene expression studies. Results: The osteogenic differentiation of the iECs co-cultures was found to be higher than the MSCs group and proximal to endothelial cells (ECs) co-cultures. Furthermore, the usage of isogenic iECs for co-culture increased the osteogenic and endothelial gene expression. Conclusion: These findings suggest that iECs mimic endothelial cells when co-cultured with MSCs and that one MSCs source can be used to give rise to both MSCs and iECs. The isogenic MSCs/iECs co-culture provides a new option for bone tissue engineering applications.

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Cellularizing hydrogel-based scaffolds to repair bone tissue: How to create a physiologically relevant micro-environment?

Cited by 80 publications

References 250 publications

Evaluation of double network hydrogel of poloxamer-heparin/gellan gum for bone marrow stem cells delivery carrier

Evaluation of double network hydrogel of poloxamer-heparin/gellan gum for bone marrow stem cells delivery carrier

Preparation and biological characterization of the mixture of poly(lactic-co-glycolic acid)/chitosan/Ag nanoparticles for periodontal tissue engineering

Isogenic-Induced Endothelial Cells Enhance Osteogenic Differentiation of Mesenchymal Stem Cells on Silk Fibroin Scaffold

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