新型灌注生物反应器系统在癌症研究中的验证

Jasmina Stojkovska, Jovana Zvicer, M. Milivojevic, Isidora P Petrović, M. Stevanović, B. Obradovic
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引用次数: 3

摘要

由于缺乏标准化和可靠的表征技术和模型,药物的开发是一个复杂、耗时和成本高的过程。传统上,药物筛选是基于使用二维(2D)细胞培养的体外分析,然后进行体内动物试验。不幸的是,在大约90%的情况下,将获得的结果应用于人类失败。因此,重要的是开发和改进基于细胞的系统,可以模拟体内样条件,以提供更可靠的结果。在本文中,我们介绍了一种新型的、用户友好的灌注生物反应器系统的开发和验证,该系统用于癌症研究、药物筛选、抗癌药物反应研究、生物材料表征和组织工程。灌注生物反应器设计简单,可提供生理速度(100?250 μ m s-1),通过不同尺寸和形状的样品。在连续培养基流动条件下,对海藻酸盐微纤维固定的宫颈癌SiHa细胞进行了短期培养研究,证实了该生物反应器的生物相容性。结果显示保存的细胞活力表明,与海藻酸盐水凝胶作为细胞载体的灌注生物反应器可以潜在地用作在3D环境中进行可控抗癌药物筛选的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Validation of a novel perfusion bioreactor system in cancer research
Development of drugs is a complex, time- and cost-consuming process due to the lack of standardized and reliable characterization techniques and models. Traditionally, drug screening is based on in vitro analysis using two-dimensional (2D) cell cultures followed by in vivo animal testing. Unfortunately, application of the obtained results to humans in about 90 % of cases fails. Therefore, it is important to develop and improve cell-based systems that can mimic the in vivo-like conditions to provide more reliable results. In this paper, we present development and validation of a novel, user-friendly perfusion bioreactor system for single use aimed for cancer research, drug screening, anti-cancer drug response studies, biomaterial characterization, and tissue engineering. Simple design of the perfusion bioreactor provides direct medium flow at physiological velocities (100?250 ?m s-1) through samples of different sizes and shapes. Biocompatibility of the bioreactor was confirmed in short term cultivation studies of cervical carcinoma SiHa cells immobilized in alginate microfibers under continuous medium flow. The results have shown preserved cell viability indicating that the perfusion bioreactor in conjunction with alginate hydrogels as cell carriers could be potentially used as a tool for controlled anti-cancer drug screening in a 3D environment.
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