体外细胞对聚l -丙交酯结晶度差异的响应。

A Park, L G Cima
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引用次数: 0

摘要

目前,许多不同的加工技术被用于从聚丙交酯/聚乙二醇酯家族的聚酯中生产组织再生装置。虽然人们普遍认识到加工技术会影响这些材料的整体机械和降解性能,但对其表面性能的影响研究相对较少。因此,我们研究了已知会改变体积性质而不是组成的加工条件对聚l -丙交酯(PLLA)表面性质的影响。具体来说,我们研究了PLLA底物的大块结晶度在表面的几个物理化学方面的作用,以及在培养的原代肝细胞的附着、形态和分化功能以及3T3成纤维细胞的生长方面的作用。我们制备了光滑、透明的PLLA薄膜,结晶度为13-37%。扫角x射线衍射表明,低结晶度的薄膜在表面的前50 A处缺乏秩序,而相对高结晶度的薄膜在这一范围内可以检测到秩序。在其他方面,所有PLLA衬底表面与XPS, SEM和推进接触角分析相同,但接触角滞后略大于更多的晶体膜。虽然表面的物理化学性质几乎相同,但我们观察到在少晶和多晶薄膜上细胞行为的差异。肝细胞在所有PLLA底物上形成球形,但在结晶底物上形成球形更快(24-48 H)。定量图像分析用于评估平均细胞面积作为培养时间的函数,我们的数据证实了先前的报道,即分化功能的保留与细胞扩散呈负相关,其中功能是通过P-450酶活性评估的。此外,3T3成纤维细胞在结晶基质上的生长速率低于在非晶态基质上的生长速率。这项工作的一个重要结论是,导致这些聚合物的体积和表面特性发生看似无关紧要的变化的加工技术可能会影响生物反应。
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In vitro cell response to differences in poly-L-lactide crystallinity.

Many different processing techniques are currently being used to produce tissue regeneration devices from polyesters in the polylactide/polyglycolide family. While it is generally well recognized that processing techniques influence bulk mechanical and degradation properties of these materials, the effects on surface properties are relatively less well studied. We thus investigated the effects of processing conditions that are known to change bulk properties, but not composition, on the surface properties of poly-L-lactide (PLLA). Specifically, we investigated the role of bulk crystallinity of PLLA substrates on several physiochemical aspects of the surface and on the attachment, morphology, and differentiated function of cultured primary hepatocytes and growth of 3T3 fibroblasts. We fabricated smooth, clear PLLA films of 13-37% crystallinity. Glancing angle X-ray diffraction indicated that low crystallinity films lacked order in the first 50 A of the surface while relatively high crystallinity films had detectable order in this range. In other aspects, the surfaces of all PLLA substrates appeared identical with XPS, SEM, and advancing contact angle analysis, but contact angle hysteresis was slightly greater for more crystalline films. Although the physicochemical properties of the surfaces appeared almost identical, we observed differences in cell behavior on less crystalline versus more crystalline films. Hepatocytes formed spheroids on all PLLA substrates, but spheroid formation was faster (24-48 H) on crystalline substrates. quantitative image analysis was used to assess the average cell area as a function of time in culture, and our data confirm previous reports that retention of differentiated function is inversely related to cell spreading where function was assessed by P-450 enzyme activity. In addition, the growth rate of 3T3 fibroblasts was lower on crystalline substrates than on amorphous substrates. An important conclusion from this work is that processing techniques that lead to seemingly inconsequential changes in bulk and surface properties of these polymers may influence biological response.

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