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Printability in extrusion bioprinting
Biofabrication, 2021Abstract Extrusion bioprinting has been widely used to extrude continuous filaments of bioink (or the mixture of biomaterial and living cells), layer-by-layer, to build three-dimensional constructs for biomedical applications. In extrusion bioprinting, printability is an important parameter used to measure the difference between the ...
Zhouquan Fu +5 more
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Progress in cardiovascular bioprinting
Artificial Organs, 2021AbstractCardiovascular disease has been the leading cause of death globally for the past 15 years. Following a major cardiac disease episode, the ideal treatment would be the replacement of the damaged tissue, due to the limited regenerative capacity of cardiac tissues.
Sanjairaj Vijayavenkataraman +3 more
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Ethics and Policy for Bioprinting
2020No description ...
Eliza Goddard, Susan Dodds
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2020
We describe an extrusion-based method to print a human bilayered skin using bioinks containing human plasma and primary human fibroblasts and keratinocytes from skin biopsies. We generate 100 cm2 of printed skin in less than 35 min. We analyze its structure using histological and immunohistochemical methods, both in in vitro 3D cultures and upon ...
Andrés Montero +6 more
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We describe an extrusion-based method to print a human bilayered skin using bioinks containing human plasma and primary human fibroblasts and keratinocytes from skin biopsies. We generate 100 cm2 of printed skin in less than 35 min. We analyze its structure using histological and immunohistochemical methods, both in in vitro 3D cultures and upon ...
Andrés Montero +6 more
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Rapid Volumetric Bioprinting of Decellularized Extracellular Matrix Bioinks
Advances in MaterialsDecellularized extracellular matrix (dECM)‐based hydrogels are widely applied to additive biomanufacturing strategies for relevant applications. The extracellular matrix components and growth factors of dECM play crucial roles in cell adhesion, growth ...
Liming Lian +18 more
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Stimuli-responsive biomaterials: smart avenue toward 4D bioprinting
Critical Reviews in Biotechnology, 20233D bioprinting is an advanced technology combining cells and bioactive molecules within a single bioscaffold; however, this scaffold cannot change, modify or grow in response to a dynamic implemented environment.
M. Rahimnejad +7 more
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Review: Bioprinting: A Beginning
Tissue Engineering, 2006An increasing demand for directed assembly of biologically relevant materials, with prescribed three-dimensional hierarchical organizations, is stimulating technology developments with the ultimate goal of re-creating multicellular tissues and organs de novo. Existing techniques, mostly adapted from other applications or fields of research, are capable
Vladimir Mironov +2 more
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Applied Physics Reviews, 2019
Bioprinters are being extensively used for different applications in life sciences and medicine in general and more specifically in regenerative medicine, tissue, and organ fabrication. The technology has matured from its purely academic origin owing to the involvement of materials science, engineering, biology, and physics, as well as commercial ...
Elham Ghadiri +11 more
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Bioprinters are being extensively used for different applications in life sciences and medicine in general and more specifically in regenerative medicine, tissue, and organ fabrication. The technology has matured from its purely academic origin owing to the involvement of materials science, engineering, biology, and physics, as well as commercial ...
Elham Ghadiri +11 more
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Polymeric Systems for Bioprinting
Chemical Reviews, 2020Bioprinting is rapidly being adopted as a major method for fabricating tissue engineering constructs. Through the precise deposition of cell- and bioactive molecule-laden materials, bioprinting offers researchers a means to create biological constructs with enhanced spatial complexity that more closely mimics native tissue.
Matthew L. Bedell +4 more
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Stereolithography 3D Bioprinting
2020Stereolithography (SLA) 3D bioprinting has emerged as a prominent bioprinting method addressing the requirements of complex tissue fabrication. This chapter addresses the advancement in SLA 3D bioprinting in concurrent with the development of novel photocrosslinkable biomaterials with enhanced physical and chemical properties.
Keekyoung Kim +2 more
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