血管动力学建模:层流剪切应力下葡萄糖变化对中空纤维生物反应器中 HUVEC 的影响

IF 5.3 2区 医学 Q1 ENGINEERING, BIOMEDICAL Biocybernetics and Biomedical Engineering Pub Date : 2024-07-01 DOI:10.1016/j.bbe.2024.08.004
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引用次数: 0

摘要

本研究旨在中空纤维生物反应器内建立一个血管模型,以评估层流剪切应力(LSS)下高浓度和波动葡萄糖水平对人脐静脉内皮细胞(HUVECs)的影响。在 0.66 Pa 的层流剪切应力条件下,HUVECs 分别在正常(5 mM)、高(20 mM)和波动(20 mM / 5 mM,每 24 小时交替一次)葡萄糖浓度下培养 48 小时。对照培养物保持静止。分析包括细胞活力(通过细胞计量分析)、葡萄糖消耗、乳酸生成(通过电酶方法)以及 21 个基因的表达(通过 qPCR)。在 LSS 条件下,不同葡萄糖浓度下凋亡细胞的百分比没有显著差异。无论 LSS 如何变化,HUVEC 都倾向于通过糖酵解获得能量。在 LSS 条件下,IL1B、CCL2 和 SELE 基因在高葡萄糖条件下上调,而在变葡萄糖条件下下调。其他一些与炎症、氧化应激、细胞粘附和细胞凋亡有关的基因在高糖条件下上调。总之,利用血管模型,我们在一个复制血管圆柱几何形状的装置中有效地研究了 LSS 条件下葡萄糖曲线对 HUVEC 的影响。LSS 和管状细胞排列可能会减轻不同葡萄糖对内皮细胞的不利影响。
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Modeling blood vessel dynamics: Effects of glucose variations on HUVECs in a hollow fiber bioreactor under laminar shear stress

This study aimed to establish a blood vessel model within a hollow fiber bioreactor to evaluate the impact of high and fluctuating glucose levels on human umbilical vein endothelial cells (HUVECs) under laminar shear stress (LSS). HUVECs were cultured for 48 h in normal (5 mM), high (20 mM), and variable (20 mM / 5 mM alternating every 24 h) glucose concentrations under LSS of 0.66 Pa. An automated medium replacement system was developed. The control cultures remained static. The analysis included cell viability via cytometric analysis, glucose consumption, lactate production via electroenzymatic methods, and the expression of 21 genes via qPCR. The percentage of apoptotic cells did not significantly differ across glucose concentrations under LSS. HUVECs favor glycolysis for energy regardless of LSS. Under LSS, the IL1B, CCL2, and SELE genes were upregulated under high-glucose conditions and downregulated under variable-glucose conditions. A few other genes related to inflammation, oxidative stress, cell adhesion and apoptosis were upregulated under high-glucose conditions. In conclusion, using the blood vessel model we effectively examined the impact of glucose profiles on HUVECs under LSS in a device replicating the cylindrical geometry of blood vessels. LSS and tubular cell arrangement might mitigate the adverse effects of variable glucose on endothelial cells.

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来源期刊
CiteScore
16.50
自引率
6.20%
发文量
77
审稿时长
38 days
期刊介绍: Biocybernetics and Biomedical Engineering is a quarterly journal, founded in 1981, devoted to publishing the results of original, innovative and creative research investigations in the field of Biocybernetics and biomedical engineering, which bridges mathematical, physical, chemical and engineering methods and technology to analyse physiological processes in living organisms as well as to develop methods, devices and systems used in biology and medicine, mainly in medical diagnosis, monitoring systems and therapy. The Journal''s mission is to advance scientific discovery into new or improved standards of care, and promotion a wide-ranging exchange between science and its application to humans.
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