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Authors | Year | Technique | Results | Application |
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Kontogiannopoulos et al. [11] | 2011 | Incorporated wound healing and antimicrobial agents | High drug entrapment efficiencies and multifunctional activities | Tissue engineering scaffolds |
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Shafiee et al. [12] | 2011 | Seed MSC in electrospun scaffold | Improved cartilage defects healing | Bone and cartilage tissue engineering |
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Xu et al. [13] | 2012 | Bioprinting and electrospinning | 80% survived chondrocytes and cartilage-like tissue formation | Cartilage tissue engineering |
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He et al. [14] | 2013 | Electrospinning | Cartilage-like tissue formation | Cartilage tissue engineering |
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Liu et al. [15] | 2014 | Freeze-dried electrospinning | Successful regenerated osteochondral defects | Triphasic osteochondral implant |
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Man et al. [16] | 2014 | Electrospinning | Sustained rhTGF-β1 release and better chondrogenic differentiation | Cartilage tissue engineering |
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Zheng et al. [17] | 2014 | Electrospinning | 3D cartilage regeneration | Cartilage tissue engineering |
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Mohan et al. [18] | 2015 | Electrospun fiber assembled hydrogel | Sustained release of chondroitin sulfate | Cartilage tissue engineering |
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Huang et al. [19] | 2016 | Electrospinning | Enhanced MSC chondrogenesis | Cartilage tissue engineering |
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Li et al. [20] | 2016 | Composite electrospinning | Better chondrocytes adhesion and filtration | Cartilage tissue engineering |
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Kalaithong et al. [21] | 2016 | Electrospinning and wet spinning | Better water absorption and cell infiltration | Cartilage tissue engineering |
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Sadeghi et al. [22] | 2016 | Electrospinning | Better hydrophilic property and cell attachment | Cartilage tissue engineering |
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Cao et al. [23] | 2017 | Chitosan/graphene oxide polymer nanofiber | Better biocompatibility and cell growth rate | Cartilage tissue engineering |
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Yin et al. [24] | 2017 | Core-shell structure nanofiber with embedded kartogenin solution | Promoted chondrogenic differentiation | Tracheal cartilage regeneration |
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Mirzaei et al. [25] | 2017 | Glucosamine incorporated into PLLA/PEG scaffolds | Enhanced cell proliferation rate | Cartilage tissue engineering |
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Wang et al. [26] | 2017 | Two-phase electrospinning | Prolonged drug release time and enhanced MSCs growth rate | Cartilage tissue engineering |
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