A novel bioreactor for the dynamic flexural stimulation of tissue engineered heart valve biomaterials

G. C. Engelmayr, Daniel K. Hildebrand, Fraser W. H. Sutherland, J. Mayer, M. Sacks
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引用次数: 71

Abstract

A novel bioreactor was developed for the purpose of studying the effect of dynamic flexural stimulation on the properties of tissue engineered heart valve (TEHV) scaffolds and constructs. While pulse duplicator and flow loop bioreactors have shown promise in the development of functional tissue engineered cardiovascular constructs, these devices present several drawbacks when applied to the study of fundamental biomechanical phenomena, including: small sample capacity, anatomical sample geometry, and coupled mechanical stimuli. In contrast, our bioreactor was designed to provide a simple, user-controllable mode of mechanical stimulation; cyclic three-point bending; offer a sufficient sample capacity for statistically significant comparisons at multiple time points, and accommodate a simple sample geometry amenable to mechanical testing. The bioreactor has the capacity to dynamically flex twelve rectangular samples (2.5 /spl times/ 0.75 /spl times/ 0.2 cm) under sterile conditions in a humidified cell culture incubator operating at 37/spl deg/C and 5 % CO/sub 2/.
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一种用于组织工程心脏瓣膜生物材料动态弯曲刺激的新型生物反应器
为了研究动态弯曲刺激对组织工程心脏瓣膜支架和构建体性能的影响,研制了一种新型生物反应器。虽然脉冲复制器和流动环生物反应器在功能性组织工程心血管结构的发展中显示出前景,但这些设备在应用于基本生物力学现象的研究时存在一些缺点,包括:样本容量小,解剖样本几何形状,耦合机械刺激。相比之下,我们的生物反应器旨在提供一种简单的、用户可控的机械刺激模式;循环三点弯曲;提供足够的样本容量,在多个时间点进行统计上显著的比较,并适应简单的样品几何形状,以适应机械测试。该生物反应器能够在37/spl℃和5% CO/sub / 2/的潮湿细胞培养箱中,在无菌条件下动态伸缩12个矩形样品(2.5 /spl倍/ 0.75 /spl倍/ 0.2 cm)。
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