组织再生用聚乳酸/聚乙二醇/骨脱细胞细胞外基质可生物降解复合材料的表征

Q3 Health Professions
W. Wattanutchariya, Kullapop Suttiat
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引用次数: 0

摘要

摘要本研究的重点是评估聚乳酸/聚乙二醇(PLA/PEG)与骨脱细胞细胞外基质(骨dECM)相结合作为替代生物降解材料用于组织再生目的。制备了纯PLA、PLA/PEG共混物和PLA/PEG与5、10和20wt%骨dECM颗粒结合的流延膜,并研究了其表面形态、表面接触角、热性能、细胞活力、体外成骨和体外生物降解行为的特征。开发的复合材料的亲水性得到了改善。在PBS/溶菌酶中进行7、30、60和90天的体外降解试验后,具有较高骨dECM颗粒比例的复合材料显示出较高的材料重量损失百分比。然而,在降解试验90天后,仅在PLA/PEG/20wt%骨dECM上观察到具有统计学意义的材料重量变化(P≤0.05)。所有样品在90天体外水解降解试验结束时均显示出物理完整性。与纯PLA相比,PLA/PEG/骨-dECM复合物显著增强了L929细胞的代谢活性(P≤0.05)。茜素红S染色结果证实了该复合物的成骨诱导特性。本研究探讨了PLA/PEG/骨-dECM复合材料作为一种可生物降解的替代材料在组织再生中的应用前景。关键词:生物材料,可生物降解复合材料,骨脱细胞细胞外基质,聚乳酸
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of Polylactic/Polyethylene glycol/Bone Decellularized Extracellular Matrix Biodegradable Composite for Tissue Regeneration
Abstract This study focused on evaluating the Polylactic acid /Polyethylene glycol (PLA/PEG) combining with bone decellularized extracellular matrix (bone dECM) as the alternative biodegradable material for tissue regenerative purposes. The casting membranes of pure PLA, PLA/PEG blend, and PLA/PEG combining with 5, 10 and 20 wt% bone dECM particles were fabricated and the characteristics of surface morphology, surface contact angle, thermal properties, cell viability, in vitro osteogenesis, and in vitro biodegradative behaviors were investigated. The improvement in hydrophilic characteristic was found in the developing composite. Following the in vitro degradation test in PBS/lysozyme for 7, 30, 60 and 90 days, the composite with higher ratio of bone dECM particles showed the higher percentage of material weight loss. However, the statistically significant of material weight alteration was observed only on the PLA/PEG/20wt% bone dECM after degradation test for 90 days (P ≤0.05). All specimens showed the physically intact at the end of the 90-day in vitro hydrolytic degradation test. The metabolic activities of L929 cells were significantly enhanced by the presence of PLA/PEG/bone dECM composites comparing to pure PLA (P ≤ 0.05). The result from Alizarin red S staining confirmed the osteo-inductive property of developing composite. The present study addressed the promising potential of PLA/PEG/bone dECM composites for applying as an alternative biodegradable material in tissue regenerative purpose. Keywords: Biomaterial, Biodegradable Composite, Bone Decellularized Extracellular Matrix, Polylactic Acid
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来源期刊
Chiang Mai University journal of natural sciences
Chiang Mai University journal of natural sciences Health Professions-Health Professions (miscellaneous)
CiteScore
1.70
自引率
0.00%
发文量
67
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