Ying He , Yongtao Liu , Lili Long , Yajie Wei , Yunxia Lu
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引用次数: 0
Abstract
Diabetes mellitus is a metabolic disorder syndrome caused by various pathogenic factors leading to imbalance of active substance secretion and endothelial dysfunction, causing macro and micro vascular complications. As the most important signal transduction molecule released by endothelium, NO participates in various physiological processes of microcirculation and plays an important role in vascular relaxation regulation. Extensive studies focus on the investigation of the analysis of NO transport in microvessels, RBC motion and its influence on NO transport since they are of extremely importance for understanding the mechanisms of vessel autoregulation and microcirculation lesion. NO transport characteristics are closely associated with hemorheology, hemodynamics and microvascular structure. Nevertheless, up to date, there are limited reports on NO transport characteristics in diabetic mellitus. The purpose of this review is to summarize the current advances in the investigation of NO transport characteristics from cellular to vascular level, which can provide effective ideas for the early diagnosis of vascular complications in diabetes.
糖尿病是由多种致病因素引起的代谢紊乱综合征,导致活性物质分泌失衡和内皮功能障碍,引起大血管和微血管并发症。NO 作为内皮释放的最重要的信号转导分子,参与微循环的各种生理过程,在血管舒张调节中发挥着重要作用。大量研究集中于研究分析微血管中的 NO 转运、RBC 运动及其对 NO 转运的影响,因为它们对了解血管自动调节和微循环病变的机制极为重要。NO 转运特性与血液流变学、血液动力学和微血管结构密切相关。然而,迄今为止,关于糖尿病患者 NO 转运特征的报道还很有限。本综述旨在总结目前从细胞到血管层面研究 NO 转运特征的进展,为糖尿病血管并发症的早期诊断提供有效思路。
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