Construction of porous cellulose tubes and the evaluations of mechanical properties and cytocompatibility |
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Authors: | Wen Yang Yifan Li Yuelong Xiao Jianhua Hou Keyong Tang Ying Pei |
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Affiliation: | 1. School of Materials Science and Engineering, Zhengzhou University, Zhengzhou, China;2. School of Mechanics Science, Zhengzhou University, Zhengzhou, China |
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Abstract: | In this work, regenerated cellulose (RC) tubes with the porous structure were successfully fabricated for constructing the non-invasive detection platform of vascular microenvironment. Polyethylene oxide (PEO) as a porogen was applied to induce porous structure of cellulose tubes. Tensile and burst pressure tests were carried out to evaluate the effects of PEO molecular weight and amount on the mechanical properties of cellulose tubes. The results showed that tensile strength of RC tubes was increased with increasing PEO molecular weight. The compliance of cellulose tubes decreased with increasing the PEO content. When 120 kDa PEO was applied, the average tensile strength of RC tubes could reach 1.27 MPa. The maximum burst pressure and compliance of RC tubes could reach 488.25 ± 35 mmHg and 7.50 ± 3.7%/100 mmHg, respectively. Human umbilical vein endothelia cells (HUVECs) exhibited obvious proliferation on cellulose tubes, and the collagen coating further improve the biocompatibility. The incorporated collagen further improved adhesion of the cells and growth on cellulose tubes. This work provided a kind of cellulose-based tube material with potential application for the construction of the vitro vascular microenvironment. |
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Keywords: | biopolymers and renewable polymers cellulose and other wood products polysaccharides |
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