体外静脉动脉化、预处理和组织工程的工具和程序:向对抗血管移植重塑后果的翻译迈进了一步。

Marco Piola, Monica Soncini, Francesca Prandi, Gianluca Polvani, Gianfranco Beniamino Fiore, Maurizio Pesce
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引用次数: 14

摘要

目前的贡献回顾了最近的进展,生物工程方法用于模拟动脉血流动力学条件的血管移植物和血管替代物用于血管手术。虽然血管旁路植入仍然是心脏和血管外科医生恢复心脏和周围缺血组织血液灌注的主要选择,但减少移植后血管重构影响的有效技术还不够。在我们看来,设计特定的生物反应器,以复杂的刺激模式进行血管调节,将为血管动脉化过程的全面分子分析提供有价值的工具。此外,这种方法将允许未来设计精细的方案,以进行天然血管的预处理,重新播种人类或动物来源的脱细胞血管移植物,或者最终衍生出完全工程化的动脉顺应性替代品,减少重塑影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tools and procedures for ex vivo vein arterialization, preconditioning and tissue engineering: a step forward to translation to combat the consequences of vascular graft remodeling.

The present contribution reviews recent progress in bioengineering approaches used to mimic arterial hemodynamic conditions in vascular grafts and vessel substitutes used in vascular surgery. While implantation of vascular bypasses is still the primary option for cardiac and vascular surgeons to recover blood perfusion in cardiac and peripheral ischemic tissues, effective techniques to reduce the impact of post-grafting vascular remodeling are insufficient. In our view, the design of specific bioreactors to perform vascular conditioning with complex stimulation patterns will provide valuable tools for comprehensive molecular analysis of vessel arterialization process. In addition, this approach will allow the future design of refined protocols to perform pre-conditioning of natural vessels, reseeding of human or animalderived decellularized vascular grafts or, finally, derivation of fully engineered arterial-compliant substitutes, with a reduced remodeling impact.

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