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Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting

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Main Authors:	Rahman Yahya, M.N., Shahriman Abu Bakar, Dr., Siti Khadijah, Za'aba, Dr., Sharifah Roohi, Syed Waseem Ahmad, Wan Khairunizam, Wan Ahmad, Dr., Mohd Nasir, Ayob, Abdul Halim, Ismail
Other Authors:	yahya.mnrahman@gmail.com
Format:	Article
Language:	English
Published:	IJENS Publishers 2014
Subjects:	Computational fluid dynamic Digital artery disease Numerical method Upper extremity Vein graft survival
Online Access:	http://dspace.unimap.edu.my:80/dspace/handle/123456789/34211
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spelling	my.unimap-342112014-05-02T02:41:29Z Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting Rahman Yahya, M.N. Shahriman Abu Bakar, Dr. Siti Khadijah, Za'aba, Dr. Sharifah Roohi, Syed Waseem Ahmad Wan Khairunizam, Wan Ahmad, Dr. Mohd Nasir, Ayob Abdul Halim, Ismail yahya.mnrahman@gmail.com shahriman@unimap.edu.my khadijah@unimap.edu.my roohi@medic.upm.edu.my khairunizam@unimap.edu.my nasirayob@unimap.edu.my ihalim@unimap.edu.my Computational fluid dynamic Digital artery disease Numerical method Upper extremity Vein graft survival Link to publisher's homepage at www.ijens.org/‎ Arterial disease of the upper extremity is an uncommon occurance, most commonly caused by atherosclerosis. In some patients with arterial disease, surgical bypass by vein grafting or vein interposition may be performed. However, due to the length kink between the existing artery and applied vein graft or more of the length of the applied vein graft may get blocked or severely narrowed. The objective of this study is to investigate the influence of blood flow on a failed vein graft due to length kink. The 3-D computational fluid dynamic method was employed to determine pulsatile flow velocity, pulsatile pressure gradient, and wall shear stress impact on the mismatched diameter of artery-vein graft model. We expect that pulsatile flow velocity, pulsatile pressure gradient and wall shear stress impact on mismatched diameter of artery-vein graft model to behave non-hydraulically compared to an ideal length model. 2014-05-02T02:41:29Z 2014-05-02T02:41:29Z 2012 Article International Journal of Mechanical and Mechatronics Engineering, vol. 12(6), 2012, pages 53-59 2227-2771 (P) 2077-124X (O) http://www.ijens.org/IJMME%20Vol%2012%20Issue%2006.html http://dspace.unimap.edu.my:80/dspace/handle/123456789/34211 en IJENS Publishers
institution	Universiti Malaysia Perlis
building	UniMAP Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Universiti Malaysia Perlis
content_source	UniMAP Library Digital Repository
url_provider	http://dspace.unimap.edu.my/
language	English
topic	Computational fluid dynamic Digital artery disease Numerical method Upper extremity Vein graft survival
spellingShingle	Computational fluid dynamic Digital artery disease Numerical method Upper extremity Vein graft survival Rahman Yahya, M.N. Shahriman Abu Bakar, Dr. Siti Khadijah, Za'aba, Dr. Sharifah Roohi, Syed Waseem Ahmad Wan Khairunizam, Wan Ahmad, Dr. Mohd Nasir, Ayob Abdul Halim, Ismail Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting
description	Link to publisher's homepage at www.ijens.org/‎
author2	yahya.mnrahman@gmail.com
author_facet	yahya.mnrahman@gmail.com Rahman Yahya, M.N. Shahriman Abu Bakar, Dr. Siti Khadijah, Za'aba, Dr. Sharifah Roohi, Syed Waseem Ahmad Wan Khairunizam, Wan Ahmad, Dr. Mohd Nasir, Ayob Abdul Halim, Ismail
format	Article
author	Rahman Yahya, M.N. Shahriman Abu Bakar, Dr. Siti Khadijah, Za'aba, Dr. Sharifah Roohi, Syed Waseem Ahmad Wan Khairunizam, Wan Ahmad, Dr. Mohd Nasir, Ayob Abdul Halim, Ismail
author_sort	Rahman Yahya, M.N.
title	Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting
title_short	Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting
title_full	Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting
title_fullStr	Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting
title_full_unstemmed	Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting
title_sort	computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting
publisher	IJENS Publishers
publishDate	2014
url	http://dspace.unimap.edu.my:80/dspace/handle/123456789/34211
_version_	1643797421569867776
score	13.214268

Computational fluid dynamic analysis of the effect of kink conduit in microvascular vein grafting

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