Lecithin doped electrospun poly(lactic acid)-thermoplastic polyurethane fibers for hepatocyte viability improvement
Autor: | Peng Heng, Lingtong Zhou, Qingmiao Zhang, Michael E. Hickey, Jinyi Wang, Jingcheng Xiao, Junping Lv, Xiang Liu, Qin Tu |
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Rok vydání: | 2019 |
Předmět: |
Biocompatibility
Cell Survival Polyesters Polyurethanes Nanofibers Biocompatible Materials 02 engineering and technology 01 natural sciences law.invention chemistry.chemical_compound Tissue culture Thermoplastic polyurethane Bioreactors Colloid and Surface Chemistry stomatognathic system Polylactic acid law Lecithins 0103 physical sciences Humans Fiber Physical and Theoretical Chemistry Cell Proliferation 010304 chemical physics technology industry and agriculture Bioartificial liver device Electrochemical Techniques Hep G2 Cells Surfaces and Interfaces General Medicine respiratory system equipment and supplies 021001 nanoscience & nanotechnology Electrospinning Lactic acid chemistry Hepatocytes Biophysics lipids (amino acids peptides and proteins) 0210 nano-technology Biotechnology |
Zdroj: | Colloids and Surfaces B: Biointerfaces. 175:264-271 |
ISSN: | 0927-7765 |
Popis: | The development of hepatocyte cultures in vitro holds great significance in the study of bioartificial liver support systems. Electrospun fiber cultures have received widespread attention as an effective method to culture hepatocytes in vitro. Polylactic acid (PLA) –a synthetic polymer with high biocompatibility and biodegradability– is widely used to fabricate electrospun fibers in the biomedical field. However, the use of PLA is limited in cell cultures due to its brittleness, strong hydrophobicity, and lack of biologically active functional groups. In this study, thermoplastic polyurethane (TPU) and lecithin (Lec) were used to modify PLA by spiking them into the PLA electrospun solution in attempt to establish a suitable fiber scaffold for hepatocyte culture in bioreactors. TPU and lecithin incorporation into PLA increases the flexibility, hydrophilicity, and biologically active groups of the fibers which further promotes the growth, proliferation, and viability of hepatocytes. The morphology, wettability, and biocompatibility of the as-prepared PLA-TPU-Lec fibers were carefully characterized. The results showed that the PLA-TPU-Lec fibers possessed favorable morphology and hydrophilicity, as well as high biocompatibility ability. HepG2 cells on the PLA-TPU-Lec fibers and tissue culture plates (TCP) were exposed to hepatotoxins for 24 h and we found that HepG2 cells on the PLA-TPU-Lec fibers had higher viability than cells on TCP. The PLA-TPU-Lec fibers are therefore expected to be used in vitro for hepatocyte culture to improve cellular activity in artificial liver bioreactors. |
Databáze: | OpenAIRE |
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