3D printing and additive manufacturing. 2024 Oct 22;11(5):e1899-e1908. doi: 10.1089/3dp.2023.0138 Q32.12025

Factorial Design of Experiment Method to Characterize Bioprinting Process Parameters to Obtain the Targeted Scaffold Porosity

基于因子设计的实验方法表征用于获得目标支架孔隙率的生物打印工艺参数翻译改进

Connor Quigley¹, Shah M Limon², Rokeya Sarah¹, Ahasan Habib¹

作者单位 +展开

作者单位

¹ Keene State College, Keene, New Hampshire, USA.

² Slippery Rock University of Pennsylvania, Slippery Rock, Pennsylvania, USA.

DOI: 10.1089/3dp.2023.0138 PMID: 39741536

摘要 Ai翻译

Due to its inbuilt ability to release biocompatible materials encapsulating living cells in a predefined location, 3D bioprinting is a promising technique for regenerating patient-specific tissues and organs. Among various 3D bioprinting techniques, extrusion-based 3D bioprinting ensures a higher percentage of cell release, ensuring suitable external and internal scaffold architectures. Scaffold architecture is mainly defined by filament geometry and width... ...点击完成人机验证后继续浏览

相关内容

期刊名：3d printing and additive manufacturing

缩写：3D PRINT ADDIT MANUF

ISSN：2329-7662

e-ISSN：2329-7670

IF/分区：2.1/Q3

文章目录更多期刊信息

全文链接

官方链接

PMC全文

引文链接

复制

已复制！

格式：

Factorial Design of Experiment Method to Characterize Bioprinting Process Parameters to Obtain the Targeted Scaffold Porosity

基于因子设计的实验方法表征用于获得目标支架孔隙率的生物打印工艺参数翻译改进

Bioprinting: A focus on improving bioink printability and cell performance based on different process parameters

生物打印：基于不同工艺参数提高生物墨水可打印性及细胞性能的关注点

Assessment of scaffold porosity: the new route of micro-CT

用于评估支架多孔性的微计算机断层扫描的新方法

Optimization of Bone Scaffold Porosity Distributions

骨支架多孔分布的优化

Preparation and evaluation of a biomimetic scaffold with porosity gradients in vitro

体外制备并评估梯度多孔仿生支架

Preparation and evaluation of a biomimetic scaffold with porosity gradients in vitro

体外制备和评价梯度多孔仿生支架

Effect of porosity of a functionally-graded scaffold for the treatment of corticosteroid-associated osteonecrosis of the femoral head in rabbits

用于治疗兔股骨头固醇性骨坏死的功能梯度支架多孔率的影响

Scaffold porosity and oxygenation of printed hydrogel constructs affect functionality of embedded osteogenic progenitors

印刷水凝胶结构的支架孔隙率和氧气供应影响其中骨祖细胞的功能性

Changes in scaffold porosity during bone tissue engineering in perfusion bioreactors considerably affect cellular mechanical stimulation for mineralization

流体流动生物反应器中骨组织工程支架多孔结构的变化会显著影响细胞的力学刺激进而影响矿化作用

Factorial Design of Experiment Method to Characterize Bioprinting Process Parameters to Obtain the Targeted Scaffold Porosity

基于因子设计的实验方法表征用于获得目标支架孔隙率的生物打印工艺参数 翻译改进

Bioprinting: A focus on improving bioink printability and cell performance based on different process parameters

生物打印：基于不同工艺参数提高生物墨水可打印性及细胞性能的关注点

Assessment of scaffold porosity: the new route of micro-CT

用于评估支架多孔性的微计算机断层扫描的新方法

Optimization of Bone Scaffold Porosity Distributions

骨支架多孔分布的优化

Preparation and evaluation of a biomimetic scaffold with porosity gradients in vitro

体外制备并评估梯度多孔仿生支架

Preparation and evaluation of a biomimetic scaffold with porosity gradients in vitro

体外制备和评价梯度多孔仿生支架

Effect of porosity of a functionally-graded scaffold for the treatment of corticosteroid-associated osteonecrosis of the femoral head in rabbits

用于治疗兔股骨头固醇性骨坏死的功能梯度支架多孔率的影响

Scaffold porosity and oxygenation of printed hydrogel constructs affect functionality of embedded osteogenic progenitors

印刷水凝胶结构的支架孔隙率和氧气供应影响其中骨祖细胞的功能性

Changes in scaffold porosity during bone tissue engineering in perfusion bioreactors considerably affect cellular mechanical stimulation for mineralization

流体流动生物反应器中骨组织工程支架多孔结构的变化会显著影响细胞的力学刺激进而影响矿化作用

基于因子设计的实验方法表征用于获得目标支架孔隙率的生物打印工艺参数翻译改进