2018
DOI: 10.1007/s40204-018-0087-0
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Skin bioprinting: a novel approach for creating artificial skin from synthetic and natural building blocks

Abstract: Significant progress has been made over the past few decades in the development of in vitro-engineered substitutes that mimic human skin, either as grafts for the replacement of lost skin, or for the establishment of in vitro human skin models. Tissue engineering has been developing as a novel strategy by employing the recent advances in various fields such as polymer engineering, bioengineering, stem cell research and nanomedicine. Recently, an advancement of 3D printing technology referred as bioprinting was… Show more

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Cited by 150 publications
(127 citation statements)
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“…Although many biomaterials are widely used in tissue engineering, such as PLA and PCL, cell compatibility is essential for the selection of bioink for cell encapsulation and bioprinting . For instance, PLA with a relatively high processing (melting) temperature is not suitable for bioprinting . Based on this and previous studies, hydrogels; natural biopolymers such as alginate, chitosan, gelatin, etc …”
Section: Bioinkmentioning
confidence: 99%
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“…Although many biomaterials are widely used in tissue engineering, such as PLA and PCL, cell compatibility is essential for the selection of bioink for cell encapsulation and bioprinting . For instance, PLA with a relatively high processing (melting) temperature is not suitable for bioprinting . Based on this and previous studies, hydrogels; natural biopolymers such as alginate, chitosan, gelatin, etc …”
Section: Bioinkmentioning
confidence: 99%
“…Because there is no direct force applied to the cells, laser‐assisted bioprinter supports high cell viabilities. It is characterised by excellent resolution, but the cost of laser sources is a little high …”
Section: D Bioprintermentioning
confidence: 99%
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“…When synthetic biomaterials are used, they should be non-toxic, non-immunogenic, and non-inflammatory and eventually degrade [10, 11]. Very recently, threedimensional (3D) bioprinting strategies have been introduced in the skin tissue engineering because of their capability to produce complex micro-architectures with cellular components [1215]. Patient-specific bioengineered tissue constructs can also be prepared by 3D bioprinting a fabrication code obtained from the patient’s CT data [16].…”
Section: Introductionmentioning
confidence: 99%