Targeted Microfluidic Manufacturing to Mimic Biological Microenvironments: Cell-Encapsulated Hollow Fibers

McNamara Marilyn C.; Aykar Saurabh S.; Montazami Reza; Hashemi Nicole N.

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Targeted Microfluidic Manufacturing to Mimic Biological Microenvironments: Cell-Encapsulated Hollow Fibers

机译：针对模拟生物微环境的有针对性的微流体制造：细胞包装的中空纤维

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摘要

At present, the blood-brain barrier (BBB) poses a challenge for treating a wide range of central nervous system disorders; reliable BBB models are still needed to understand and manipulate the transfer of molecules into the brain, thereby improving the efficiency of treatments. In this study, hollow, cell-laden microfibers are fabricated and investigated as a starting point for generating BBB models. The genetic effects of the manufacturing process are analyzed to understand the implications of encapsulating cells in this manner. These fibers are created using different manufacturing parameters to understand the effects on wall thickness and overall diameter. Then, dopaminergic rat cells are encapsulated into hollow fibers, which maintained at least 60% live cells throughout the three-day observation period. Lastly, genetic changes tyrosine hydroxylase (TH) and tubulin beta 3 class III (TUBB-3) are investigated to elucidate the effects on cell health and behavior; while the TH levels in encapsulated cells were similar to control cells, showing similar levels of TH synthesis, TUBB-3 was downregulated, indicating lower amounts of cellular neurogenesis.

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《ACS Macro Letters》 |2021年第6期|共5页
作者
McNamara Marilyn C.; Aykar Saurabh S.; Montazami Reza; Hashemi Nicole N.;
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作者单位

Iowa State Univ Dept Mech Engn Ames IA 50011 USA;

Iowa State Univ Dept Mech Engn Ames IA 50011 USA;

Iowa State Univ Dept Mech Engn Ames IA 50011 USA;

Iowa State Univ Dept Mech Engn Ames IA 50011 USA;

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正文语种 eng
中图分类有机化学;
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机译：旨在模拟微环境梯度并开发靶向癌症治疗剂的多功能微流体装置
5. Vascularized microfluidic platforms to mimic the tumor microenvironment [J] . Michna Rhys, Gadde Manasa, Ozkan Alican, Biotechnology and Bioengineering . 2018,第11期

机译：血管化的微流体平台模仿肿瘤微环境
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机译：中空纤维光源和制造中空芯纤维的方法
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机译：微流控细胞阵列可模拟3D组织微环境
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机译：交联的中空纤维膜，用于天然气净化及其由新型聚合物制造。
9. A multipurpose microfluidic device designed to mimic microenvironment gradients and develop targeted cancer therapeutics [O] . Colin L. Walsh, Brett M. Babin, Rachel W. Kasinskas, -1

机译：一种多功能微流控设备旨在模拟微环境梯度并开发针对性的癌症疗法
10. Targeted Microfluidic Manufacturing to Mimic Biological Microenvironments: Cell-Encapsulated Hollow Fibers [O] . Marilyn C. McNamara, Saurabh S. Aykar, Reza Montazami, 2021

机译：针对模拟生物微环境的靶向微流体制造：细胞包封的中空纤维
11. Membrane and Materials Evaluation:Validation of Test Methods for Sheet Membranes and Hollow Fibers,Evaluation of Amicon,Dow and Enka-Glanzstoff B2-AH Hollow Fibers. [R] . klein, elias holland, f. f. 1976

机译：膜和材料评估：板膜和中空纤维测试方法的验证，amicon，Dow和Enka-Glanzstoff B2-aH中空纤维的评估。

Targeted Microfluidic Manufacturing to Mimic Biological Microenvironments: Cell-Encapsulated Hollow Fibers

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