2019
DOI: 10.1002/jbm.a.36675
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3D printing collagen/chitosan scaffold ameliorated axon regeneration and neurological recovery after spinal cord injury

Abstract: Spinal cord injury (SCI) is a disaster that can cause severe motor, sensory, and functional disorders. Implanting biomaterials have been regarded as hopeful strategies to restore neurological function. However, no optimized scaffold has been available. In this study, a novel 3D printing technology was used to fabricate the scaffold with designed structure. The composite biomaterials of collagen and chitosan were also adopted to balance both compatibility and strength. Female Sprague–Dawley rats were subjected … Show more

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Cited by 101 publications
(58 citation statements)
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“…For application in the CNS, hydrogels have been obtained from chitosan (Chedly et al, 2017), its derivatives as CMC (Xu et al, 2018) and chitosan lactate (Nawrotek et al, 2017), and mixtures with other polymers like gelatin (Gao S. et al, 2014). Biodegradable scaffolds are mainly structured by freeze-drying but can be also obtained by electrospinning, solvent evaporation, supercritical carbon dioxide, and 3D printing (Croisier and Jérôme, 2013;Wang Y. et al, 2018;Sun et al, 2019). For porous scaffolds, many chitosan-blends have been made by combining different biodegradable materials, like gelatin (Wang et al, 2017), collagen (Yan et al, 2019), and PEDOT (Wang S. et al, 2018), among others.…”
Section: Chitosan-based Materials For Tissue Engineering and Regeneramentioning
confidence: 99%
See 1 more Smart Citation
“…For application in the CNS, hydrogels have been obtained from chitosan (Chedly et al, 2017), its derivatives as CMC (Xu et al, 2018) and chitosan lactate (Nawrotek et al, 2017), and mixtures with other polymers like gelatin (Gao S. et al, 2014). Biodegradable scaffolds are mainly structured by freeze-drying but can be also obtained by electrospinning, solvent evaporation, supercritical carbon dioxide, and 3D printing (Croisier and Jérôme, 2013;Wang Y. et al, 2018;Sun et al, 2019). For porous scaffolds, many chitosan-blends have been made by combining different biodegradable materials, like gelatin (Wang et al, 2017), collagen (Yan et al, 2019), and PEDOT (Wang S. et al, 2018), among others.…”
Section: Chitosan-based Materials For Tissue Engineering and Regeneramentioning
confidence: 99%
“…Given that the design of the internal structure and surface of the scaffolds is determinant for cell adhesion and proliferation, Sun and collaborators printed a collagen-chitosan 3D scaffold with a specific structure. They observed nerve fibers regeneration and functional recovery after its implantation in rats with spinal cord injury (SCI), showing enhanced therapeutic effects compared with the non-3D-printed material (Sun et al, 2019).…”
Section: Chitosan-based Scaffoldingmentioning
confidence: 99%
“…On the flip side, SCI is a disaster that may result in severe motor, sensory, and functional disorders. Implanting biomaterials are actually considered as optimistic approaches to recover neurological functionality [118]. As Bardakova et al [119] exhibited, there are recognized works in which lyophilized CS scaffolds were effectively examined as applicants for spinal cord reproduction.…”
Section: Nerve Regenerationmentioning
confidence: 99%
“…In one study, a new 3D printing technology was used to produce a scaffold with a designed structure. Meanwhile, collagen and chitosan composite materials were used for compatibility and strength balance (Sun et al, 2019b). Joung et al (2018) used 3D printing approach to precisely place iPSC derived spinal cord neuronal progenitor cells (NPCs) and OPCs in a biocompatible scaffold.…”
Section: Technology Of 3d Printingmentioning
confidence: 99%