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Biofabrication: ‘Printability' of Candidate Biomaterials for Extrusion Based 3D Printing: State‐of‐the‐Art (Adv. Healthcare Mater. 16/2017)
Advanced Healthcare Materials ( IF 10.0 ) Pub Date : 2017-08-23 , DOI: 10.1002/adhm.201770081 Stuart Kyle 1, 2 , Zita M. Jessop 1, 2 , Ayesha Al-Sabah 1 , Iain S. Whitaker 1, 2
Advanced Healthcare Materials ( IF 10.0 ) Pub Date : 2017-08-23 , DOI: 10.1002/adhm.201770081 Stuart Kyle 1, 2 , Zita M. Jessop 1, 2 , Ayesha Al-Sabah 1 , Iain S. Whitaker 1, 2
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3D bioprinting has the potential to replicate complex tissue architecture and biomanufacture physiologically relevant multicellular constructs on demand. In article number 1700264, Stuart Kyle, Iain S. Whitaker, and co‐workers review a new generation of bioinks with suitable biocompatibility and high shape/print fidelity, that have the potential to match or exceed the physical, chemical and biological properties of human tissue, when combined with the appropriate cell source. Image of 3D Bioprinter kindly provided by Aether.
中文翻译:
生物加工:用于基于挤压的3D打印的候选生物材料的“可印刷性”:最新技术(Adv。Healthcare Mater。16/2017)
3D生物打印具有按需复制复杂的组织结构和生物制造生理相关的多细胞结构的潜力。斯图尔特·凯尔(Stuart Kyle),伊恩·惠特克(Iain S.Whitaker)及其同事在文章1700264中回顾了具有适当生物相容性和高形状/印刷保真度的新一代生物墨水,这些墨水有可能达到或超过人类的物理,化学和生物学特性。组织,当与适当的细胞来源结合时。Aether友善提供的3D Bioprinter图像。
更新日期:2017-08-23
中文翻译:
生物加工:用于基于挤压的3D打印的候选生物材料的“可印刷性”:最新技术(Adv。Healthcare Mater。16/2017)
3D生物打印具有按需复制复杂的组织结构和生物制造生理相关的多细胞结构的潜力。斯图尔特·凯尔(Stuart Kyle),伊恩·惠特克(Iain S.Whitaker)及其同事在文章1700264中回顾了具有适当生物相容性和高形状/印刷保真度的新一代生物墨水,这些墨水有可能达到或超过人类的物理,化学和生物学特性。组织,当与适当的细胞来源结合时。Aether友善提供的3D Bioprinter图像。
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