The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis Segment

The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis Segment

Ventricular assist device (VAD) implantation is an effective treatment for patients with end-stage heart failure. However, patients who undergo long-term application of VADs experience a series of VAD-related adverse effects including pump thrombosis, which is induced by rotate impeller-caused blood...

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Main Authors: Donghai Li, Guiling Li, Yuanyuan Chen, Jia Man, Qingyu Wu, Mingkui Zhang, Haosheng Chen, Yu Zhang
Format: Article
Language:English
Published: MDPI AG 2019-06-01
Series:Processes
Subjects:
erythrocyte injury
flow pattern
bionic microfluidic device
thrombosis
Online Access:https://www.mdpi.com/2227-9717/7/6/372
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spelling doaj-f03ef168b0ff46c9adf568984c2cdeee2020-11-24T21:27:42ZengMDPI AGProcesses2227-97172019-06-017637210.3390/pr7060372pr7060372The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis SegmentDonghai Li0Guiling Li1Yuanyuan Chen2Jia Man3Qingyu Wu4Mingkui Zhang5Haosheng Chen6Yu Zhang7School of Medicine, Tsinghua University, Beijing 100084, ChinaSchool of Pharmaceutical Sciences, Tsinghua University, Beijing 100084, ChinaSchool of Mechanical Engineering and Automation, Beijing Advanced Innovation Center for Biomedical Engineering, Beihang University, Beijing 100191, ChinaSchool of Mechanical Engineering, Shandong University; Key Laboratory of High-efficiency and Clean Mechanical Manufacture at Shandong University, Ministry of Education, Shandong 250061, ChinaFirst Hospital of Tsinghua University, School of Medicine, Tsinghua University, Beijing 100084, ChinaFirst Hospital of Tsinghua University, School of Medicine, Tsinghua University, Beijing 100084, ChinaSchool of Mechanical Engineering, State Key Laboratory of Tribology, Tsinghua University, Beijing 100084, ChinaSchool of Medicine, Tsinghua University, Beijing 100084, ChinaVentricular assist device (VAD) implantation is an effective treatment for patients with end-stage heart failure. However, patients who undergo long-term application of VADs experience a series of VAD-related adverse effects including pump thrombosis, which is induced by rotate impeller-caused blood cell injury and hemolysis. Blood cell trauma-related flow patterns are the key mechanism for understanding thrombus formation. In this study, we established a new method to evaluate the blood cell damage and investigate the real-time characteristics of blood flow patterns in vitro using rheometer and bionic microfluidic devices. The variation of plasma free hemoglobin (PFH) and lactic dehydrogenase (LDH) in the rheometer test showed that high shear stress was the main factor causing erythrocyte membrane injury, while the long-term exposure of high shear stress further aggravated this trauma. Following this rheometer test, the damaged erythrocytes were collected and injected into a bionic microfluidic device. The captured images of bionic microfluidic device tests showed that with the increase of shear stress suffered by the erythrocyte, the migration rate of damaged erythrocyte in bionic microchannel significantly decreased and, meanwhile, aggregation of erythrocyte was clearly observed. Our results indicate that mechanical shear stress caused by erythrocyte injury leads to thrombus formulation and adhesion in arterioles.https://www.mdpi.com/2227-9717/7/6/372erythrocyte injuryflow patternbionic microfluidic devicethrombosis
collection DOAJ
language English
format Article
sources DOAJ
author Donghai Li
Guiling Li
Yuanyuan Chen
Jia Man
Qingyu Wu
Mingkui Zhang
Haosheng Chen
Yu Zhang
spellingShingle Donghai Li
Guiling Li
Yuanyuan Chen
Jia Man
Qingyu Wu
Mingkui Zhang
Haosheng Chen
Yu Zhang
The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis Segment
Processes
erythrocyte injury
flow pattern
bionic microfluidic device
thrombosis
author_facet Donghai Li
Guiling Li
Yuanyuan Chen
Jia Man
Qingyu Wu
Mingkui Zhang
Haosheng Chen
Yu Zhang
author_sort Donghai Li
title The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis Segment
title_short The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis Segment
title_full The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis Segment
title_fullStr The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis Segment
title_full_unstemmed The Impact of Erythrocytes Injury on Blood Flow in Bionic Arteriole with Stenosis Segment
title_sort impact of erythrocytes injury on blood flow in bionic arteriole with stenosis segment
publisher MDPI AG
series Processes
issn 2227-9717
publishDate 2019-06-01
description Ventricular assist device (VAD) implantation is an effective treatment for patients with end-stage heart failure. However, patients who undergo long-term application of VADs experience a series of VAD-related adverse effects including pump thrombosis, which is induced by rotate impeller-caused blood cell injury and hemolysis. Blood cell trauma-related flow patterns are the key mechanism for understanding thrombus formation. In this study, we established a new method to evaluate the blood cell damage and investigate the real-time characteristics of blood flow patterns in vitro using rheometer and bionic microfluidic devices. The variation of plasma free hemoglobin (PFH) and lactic dehydrogenase (LDH) in the rheometer test showed that high shear stress was the main factor causing erythrocyte membrane injury, while the long-term exposure of high shear stress further aggravated this trauma. Following this rheometer test, the damaged erythrocytes were collected and injected into a bionic microfluidic device. The captured images of bionic microfluidic device tests showed that with the increase of shear stress suffered by the erythrocyte, the migration rate of damaged erythrocyte in bionic microchannel significantly decreased and, meanwhile, aggregation of erythrocyte was clearly observed. Our results indicate that mechanical shear stress caused by erythrocyte injury leads to thrombus formulation and adhesion in arterioles.
topic erythrocyte injury
flow pattern
bionic microfluidic device
thrombosis
url https://www.mdpi.com/2227-9717/7/6/372
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