Quantitative image analysis of thrombus formation in microfluidic in-vitro models

Ji Seob Choi; Dong Hwi Ham; Jung Hyun Kim; Helem Betsua Flores Marcial; Pyeong Ho Jeong; Jin Ho Choi; Woo Tae Park

doi:10.1186/s40486-022-00166-3

Quantitative image analysis of thrombus formation in microfluidic in-vitro models

Ji Seob Choi, Dong Hwi Ham, Jung Hyun Kim, Helem Betsua Flores Marcial, Pyeong Ho Jeong, Jin Ho Choi, Woo Tae Park

Dept. of Mechanical & Automotive Engineering

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

In this study, we present a method to quantitatively analyze the thrombus formation process through image analysis in an in vitro thrombus model with a circular cross section. The thrombus model used was designed based on the mechanism between the physical principle of wall shear rate (WSR) and thrombus formation. Image analysis was used to help visualize the thrombus formation process and calculate the thrombus area. Through this method, the thrombus formation and growth from the channel wall was demonstrated without the use of fluorescence. In addition, by dividing the image into sub-sections, the accuracy of the thrombus growth pattern was improved. The departing blood clots which are called embolus, were observed being separated from the thrombus.

Original language	English
Article number	23
Journal	Micro and Nano Systems Letters
Volume	10
Issue number	1
DOIs	https://doi.org/10.1186/s40486-022-00166-3
State	Published - Dec 2022

Keywords

Embolus
Image analysis
Platelet
Thrombosis
Thrombus formation

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10.1186/s40486-022-00166-3

Cite this

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title = "Quantitative image analysis of thrombus formation in microfluidic in-vitro models",

abstract = "In this study, we present a method to quantitatively analyze the thrombus formation process through image analysis in an in vitro thrombus model with a circular cross section. The thrombus model used was designed based on the mechanism between the physical principle of wall shear rate (WSR) and thrombus formation. Image analysis was used to help visualize the thrombus formation process and calculate the thrombus area. Through this method, the thrombus formation and growth from the channel wall was demonstrated without the use of fluorescence. In addition, by dividing the image into sub-sections, the accuracy of the thrombus growth pattern was improved. The departing blood clots which are called embolus, were observed being separated from the thrombus.",

keywords = "Embolus, Image analysis, Platelet, Thrombosis, Thrombus formation",

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AU - Choi, Ji Seob

AU - Ham, Dong Hwi

AU - Kim, Jung Hyun

AU - Marcial, Helem Betsua Flores

AU - Jeong, Pyeong Ho

AU - Choi, Jin Ho

AU - Park, Woo Tae

PY - 2022/12

Y1 - 2022/12

N2 - In this study, we present a method to quantitatively analyze the thrombus formation process through image analysis in an in vitro thrombus model with a circular cross section. The thrombus model used was designed based on the mechanism between the physical principle of wall shear rate (WSR) and thrombus formation. Image analysis was used to help visualize the thrombus formation process and calculate the thrombus area. Through this method, the thrombus formation and growth from the channel wall was demonstrated without the use of fluorescence. In addition, by dividing the image into sub-sections, the accuracy of the thrombus growth pattern was improved. The departing blood clots which are called embolus, were observed being separated from the thrombus.

AB - In this study, we present a method to quantitatively analyze the thrombus formation process through image analysis in an in vitro thrombus model with a circular cross section. The thrombus model used was designed based on the mechanism between the physical principle of wall shear rate (WSR) and thrombus formation. Image analysis was used to help visualize the thrombus formation process and calculate the thrombus area. Through this method, the thrombus formation and growth from the channel wall was demonstrated without the use of fluorescence. In addition, by dividing the image into sub-sections, the accuracy of the thrombus growth pattern was improved. The departing blood clots which are called embolus, were observed being separated from the thrombus.

KW - Embolus

KW - Image analysis

KW - Platelet

KW - Thrombosis

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Quantitative image analysis of thrombus formation in microfluidic in-vitro models

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Keywords

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