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A Mathematical Model on the Resolution of Extrusion Bioprinting for the Development of New Bioinks

机译：用于开发新型生物墨水的挤出生物打印分辨率的数学模型

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摘要

Pneumatic extrusion-based bioprinting is a recent and interesting technology that is very useful for biomedical applications. However, many process parameters in the bioprinter need to be fully understood in order to print at an adequate resolution. In this paper, a simple yet accurate mathematical model to predict the printed width of a continuous hydrogel line is proposed, in which the resolution is expressed as a function of nozzle size, pressure, and printing speed. A thermo-responsive hydrogel, pluronic F127, is used to validate the model predictions. This model could provide a platform for future correlation studies on pneumatic extrusion-based bioprinting as well as for developing new bioink formulations.

机译：基于气动挤压的生物打印技术是一种最新且有趣的技术，对生物医学应用非常有用。但是，为了以足够的分辨率进行打印，需要充分了解生物打印机中的许多过程参数。在本文中，提出了一种简单而准确的数学模型来预测连续水凝胶线的印刷宽度，其中分辨率表示为喷嘴尺寸，压力和印刷速度的函数。热响应水凝胶pluronic F127用于验证模型预测。该模型可以为基于气动挤压的生物印刷以及开发新的生物墨水配方的未来相关性研究提供平台。

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期刊名称 Materials
作者
Ratima Suntornnond; Edgar Yong Sheng Tan; Jia An; Chee Kai Chua;
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作者单位

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年(卷),期 2016(9),9
年度 2016
页码 756
总页数 11
原文格式 PDF
正文语种
中图分类外科学 ;
关键词
extrusion system bioprinting 3D printing pluronic F-127 bioink;

机译：挤出系统;生物打印;3D打印;普朗尼克F-127;生物墨水;

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专利

1. A Mathematical Model on the Resolution of Extrusion Bioprinting for the Development of New Bioinks [J] . Ratima Suntornnond, Edgar Yong Sheng Tan, Jia An, Materials . 2016 ,第9期

机译：一种关于新型生物型开发挤出生物监测措施的数学模型
2. Hydrogel Bioink with Multilayered Interfaces Improves Dispersibility of Encapsulated Cells in Extrusion Bioprinting [J] . Chen Nan, Zhu Kai, Zhang Yu Shrike, ACS applied materials & interfaces . 2019 ,第34期

机译：具有多层界面的水凝胶生物孔可提高挤出生物印刷中包封细胞的分散性
3. Printability of pulp derived crystal, fibril and blend nanocellulose-alginate bioinks for extrusion 3D bioprinting [J] . Jessop Zita M., Al-Sabah Ayesha, Gao Neng, Biofabrication . 2019 ,第4期

机译：胶浆衍生晶体，原纤维和混合物纳米纤维素 - 藻酸盐生物酸盐的可印刷性 - 用于挤出3D BioPlinting
4. Photocurable Alginate Bioink Development for Cartilage Replacement Bioprinting [C] . H. Mishbak, Enes Aslan, Glen Cooper, International Conference on Progress in Digital and Physical Manufacturing . 2020

机译：用于软骨替代品BioPlinting的光固化藻类生物型开发
5. Experimental identification and mathematical modeling of fluorocarbonpolymer sheet extrusion. [D] . Al-Awairdy, Saleh. 2003

机译：氟碳聚合物板材挤出的实验鉴定和数学建模。
6. Generation of a 3D Liver Model Comprising Human Extracellular Matrix in an Alginate/Gelatin-Based Bioink by Extrusion Bioprinting for Infection and Transduction Studies [O] . Thomas Hiller, Johanna Berg, Laura Elomaa, 2018

机译：藻类/明胶基生物墨水中包含人类细胞外基质的3D肝模型的生成通过挤压生物印刷进行感染和转导研究
7. A Mathematical Model on the Resolution of Extrusion Bioprinting for the Development of New Bioinks [O] . Ratima Suntornnond, Edgar Yong Sheng Tan, Jia An, 2016

机译：新型Bioinks开发中挤出生物印迹分辨率的数学模型
8. Report of the Resolution on the Use of Mathematical Models by EPA for Regulatory Assessment and Decision-Making [R] . 1989

机译：美国环保署关于使用数学模型进行监管评估和决策的决议报告

A Mathematical Model on the Resolution of Extrusion Bioprinting for the Development of New Bioinks

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