分析灌流、力学和电刺激在心脏组织工程生物反应器中的作用。

Analysis of the role of perfusion, mechanical, and electrical stimulation in bioreactors for cardiac tissue engineering.

机构信息

Biological Engineering Undergraduate Program, Division of Natural Science and Engineering, Universidad Autonoma Metropolitana-Cuajimalpa, Ciudad de Mexico C.P. 05348, México.

Natural Science and Engineering Graduate Program, Universidad Autonoma Metropolitana-Cuajimalpa, Ciudad de Mexico C.P. 05348, México.

出版信息

Bioprocess Biosyst Eng. 2024 Jun;47(6):767-839. doi: 10.1007/s00449-024-03004-5. Epub 2024 Apr 20.

DOI:10.1007/s00449-024-03004-5

PMID:38643271

Abstract

Since cardiovascular diseases (CVDs) are globally one of the leading causes of death, of which myocardial infarction (MI) can cause irreversible damage and decrease survivors' quality of life, novel therapeutics are needed. Current approaches such as organ transplantation do not fully restore cardiac function or are limited. As a valuable strategy, tissue engineering seeks to obtain constructs that resemble myocardial tissue, vessels, and heart valves using cells, biomaterials as scaffolds, biochemical and physical stimuli. The latter can be induced using a bioreactor mimicking the heart's physiological environment. An extensive review of bioreactors providing perfusion, mechanical and electrical stimulation, as well as the combination of them is provided. An analysis of the stimulations' mechanisms and modes that best suit cardiac construct culture is developed. Finally, we provide insights into bioreactor configuration and culture assessment properties that need to be elucidated for its clinical translation.

摘要

由于心血管疾病（CVDs）是全球主要死因之一，其中心肌梗死（MI）可导致不可逆转的损伤并降低幸存者的生活质量，因此需要新的治疗方法。目前的方法，如器官移植，不能完全恢复心脏功能或受到限制。作为一种有价值的策略，组织工程旨在使用细胞、生物材料作为支架、生化和物理刺激来获得类似于心肌组织、血管和心脏瓣膜的构建体。后者可以通过模拟心脏生理环境的生物反应器来诱导。本文广泛综述了提供灌注、机械和电刺激的生物反应器，以及它们的组合。分析了最适合心脏构建体培养的刺激机制和模式。最后，我们深入探讨了生物反应器的结构和培养评估特性，这些特性需要阐明以实现其临床转化。

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分析灌流、力学和电刺激在心脏组织工程生物反应器中的作用。

Analysis of the role of perfusion, mechanical, and electrical stimulation in bioreactors for cardiac tissue engineering.

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