完美导管的生物力学和生物相容性——我们能制造出这样的导管吗?
Biomechanics and biocompatibility of the perfect conduit-can we build one?
机构信息
The Baird Institute for Applied Heart and Lung Surgical Research, Sydney, Australia; ; Royal Prince Alfred Hospital, Sydney, Australia; ; University of Sydney, Sydney, Australia;
出版信息
Ann Cardiothorac Surg. 2013 Jul;2(4):435-43. doi: 10.3978/j.issn.2225-319X.2013.05.04.
Abstract
No currently available conduit meets the criteria for an ideal coronary artery bypass graft. The perfect conduit would combine the availability and complication-free harvest of a synthetic vessel with the long-term patency performance of the internal mammary artery. However, current polymer conduits suffer from inelastic mechanical properties and especially poor surface biocompatibility, resulting in early loss of patency as a coronary graft. Approaches to manufacture an improved conduit using new polymers or polymer surfaces, acellular matrices, or cellular constructs have to date failed to achieve a commercially successful alternative. Elastin, by mimicking the native extracellular environment as well as providing elasticity, provides the 'missing link' in vascular conduit design and brings new hope for realization of the perfect conduit.
摘要
目前尚无一种可用的移植物能满足理想冠状动脉旁路移植术的标准。理想的移植物应将合成血管的可用性和无并发症收获与内乳动脉的长期通畅性能相结合。然而,目前的聚合物移植物存在弹性机械性能差和表面生物相容性差的问题,导致作为冠状动脉移植物早期闭塞。使用新型聚合物或聚合物表面、去细胞基质或细胞构建体制造改良移植物的方法迄今为止尚未成功开发出商业上可行的替代品。弹性蛋白通过模拟天然细胞外环境并提供弹性,为血管移植物设计提供了“缺失的一环”,为实现理想的移植物带来了新的希望。
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