2020
DOI: 10.3390/bioengineering7030071
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Prospects and Challenges of Translational Corneal Bioprinting

Abstract: Corneal transplantation remains the ultimate treatment option for advanced stromal and endothelial disorders. Corneal tissue engineering has gained increasing interest in recent years, as it can bypass many complications of conventional corneal transplantation. The human cornea is an ideal organ for tissue engineering, as it is avascular and immune-privileged. Mimicking the complex mechanical properties, the surface curvature, and stromal cytoarchitecure of the in vivo corneal tissue remains a great ch… Show more

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Cited by 45 publications
(46 citation statements)
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“…Bioprinting is an additional manufacturing method that has gained much interest for the production of corneal substitutes due to its ability to control the hierarchical assembly of biological constructs while allowing the fast synthesis of thick and customizable constructs ( Isaacson et al, 2018 ; Sorkio et al, 2018 ; Zhang et al, 2019 ; Fuest et al, 2020 ). Several collagen-based bioinks are being explored to encapsulate and deposit corneal cells upon printing ( Isaacson et al, 2018 ; Sorkio et al, 2018 ; Duarte Campos et al, 2019 ; Kim et al, 2019 ), some of which based on human type I collagen (derived from neonatal fibroblast cells) for better mimesis of the human corneal stroma and higher compatibility with human stem cells ( Sorkio et al, 2018 ).…”
Section: Optimization Of Type I Collagen-based Scaffolds For the Development Of Specific Tissue Substitutesmentioning
confidence: 99%
“…Bioprinting is an additional manufacturing method that has gained much interest for the production of corneal substitutes due to its ability to control the hierarchical assembly of biological constructs while allowing the fast synthesis of thick and customizable constructs ( Isaacson et al, 2018 ; Sorkio et al, 2018 ; Zhang et al, 2019 ; Fuest et al, 2020 ). Several collagen-based bioinks are being explored to encapsulate and deposit corneal cells upon printing ( Isaacson et al, 2018 ; Sorkio et al, 2018 ; Duarte Campos et al, 2019 ; Kim et al, 2019 ), some of which based on human type I collagen (derived from neonatal fibroblast cells) for better mimesis of the human corneal stroma and higher compatibility with human stem cells ( Sorkio et al, 2018 ).…”
Section: Optimization Of Type I Collagen-based Scaffolds For the Development Of Specific Tissue Substitutesmentioning
confidence: 99%
“…The endothelium is the deepest layer and is composed of endothelial cells that are responsible for maintaining the fluid balance of the cornea [31]. They have very little capacity of regeneration in vivo, therefore any damage in this area would cause irreversible blindness [36].…”
Section: Corneamentioning
confidence: 99%
“…It is composed of different layers in which different materials, cells and internal structure are found. Conventional cell therapies have been shown ineffective due to the poor survival rate and functionality of the implanted cells [36]. Furthermore, single material membranes have not achieved the multilayer complexity of the cornea.…”
Section: Corneamentioning
confidence: 99%
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“…A new approach to producing cornea scaffolds involves the adaptation of the classic 3D printing, where biomaterials are printed to form cornea layers suitable for implantation. 92 A 3D bioprinted corneal stroma equivalent was designed as a substitute for native tissue. A reproducible outer and inner organization of the stroma was obtained by optimizing the printing conditions such as the nozzle speed in the x-y direction and the spindle speed.…”
Section: Bioprintingmentioning
confidence: 99%