Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness

According to World Health Organization (WHO), in 2008, an estimated 17.3million people died from Cardiovascular Disease, representing 30% of all global death. About 6.2 million of it was due to stroke. In Malaysia, stroke becomes the third killer after heart disease and cancer with an average 110...

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Main Author: ISHAK, MUHAMMAD AMINUDDIN
Format: Final Year Project
Language:English
Published: Universiti Teknologi Petronas 2011
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Online Access:http://utpedia.utp.edu.my/8916/1/2011-Computational%20Design%20Of%20Mechanical%20Thrombectomy%20Device%20For%20Blood%20CLot%20Removal-A%20STudy%20ON%20Suc.pdf
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Institution: Universiti Teknologi Petronas
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spelling my-utp-utpedia.89162017-01-25T09:41:35Z http://utpedia.utp.edu.my/8916/ Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness ISHAK, MUHAMMAD AMINUDDIN TP Chemical technology According to World Health Organization (WHO), in 2008, an estimated 17.3million people died from Cardiovascular Disease, representing 30% of all global death. About 6.2 million of it was due to stroke. In Malaysia, stroke becomes the third killer after heart disease and cancer with an average 110 people dying of it every day. Stroke occurs because of the interruption of blood supply to the brain due to the blood clot formation in blood vessel and to be specific, the artery in the crane. There are several techniques that have been developed to overcome the problem and one of the techniques developed was "GP" Mechanical Thrombectomy Device(GPMTD).The concept used by the device is to remove the blood clot from the artery. This device was mechanically proven suitable for soft clot while in acute cerebrovascular stroke, the whole blood clot is firm and hard. This shows that the clot is formed at di:ffi:rent hardness. Besides, from the literature review, the clot can be removed by applying suction pressure within the range of 40kPa to 60kPa. Therefore; Navier Stokes equation will be used in ANSYS FLUENT simulation software which is Fluent 6.3.26 to simulate the blood clot extraction from the blood artery with different hardness of blood clot and under different suction pressure. By performing the simulation, the e:ffi:ct of suction pressure and clot hardness on blood clot removal process can be studied. By this understanding, it will help to increase the effectiveness of the blood clot removal system. Universiti Teknologi Petronas 2011-09 Final Year Project NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/8916/1/2011-Computational%20Design%20Of%20Mechanical%20Thrombectomy%20Device%20For%20Blood%20CLot%20Removal-A%20STudy%20ON%20Suc.pdf ISHAK, MUHAMMAD AMINUDDIN (2011) Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness. Universiti Teknologi Petronas. (Unpublished)
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Electronic and Digitized Intellectual Asset
url_provider http://utpedia.utp.edu.my/
language English
topic TP Chemical technology
spellingShingle TP Chemical technology
ISHAK, MUHAMMAD AMINUDDIN
Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness
description According to World Health Organization (WHO), in 2008, an estimated 17.3million people died from Cardiovascular Disease, representing 30% of all global death. About 6.2 million of it was due to stroke. In Malaysia, stroke becomes the third killer after heart disease and cancer with an average 110 people dying of it every day. Stroke occurs because of the interruption of blood supply to the brain due to the blood clot formation in blood vessel and to be specific, the artery in the crane. There are several techniques that have been developed to overcome the problem and one of the techniques developed was "GP" Mechanical Thrombectomy Device(GPMTD).The concept used by the device is to remove the blood clot from the artery. This device was mechanically proven suitable for soft clot while in acute cerebrovascular stroke, the whole blood clot is firm and hard. This shows that the clot is formed at di:ffi:rent hardness. Besides, from the literature review, the clot can be removed by applying suction pressure within the range of 40kPa to 60kPa. Therefore; Navier Stokes equation will be used in ANSYS FLUENT simulation software which is Fluent 6.3.26 to simulate the blood clot extraction from the blood artery with different hardness of blood clot and under different suction pressure. By performing the simulation, the e:ffi:ct of suction pressure and clot hardness on blood clot removal process can be studied. By this understanding, it will help to increase the effectiveness of the blood clot removal system.
format Final Year Project
author ISHAK, MUHAMMAD AMINUDDIN
author_facet ISHAK, MUHAMMAD AMINUDDIN
author_sort ISHAK, MUHAMMAD AMINUDDIN
title Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness
title_short Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness
title_full Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness
title_fullStr Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness
title_full_unstemmed Computational Design of Thrombectomy Device for Blood Clot Removal: A Study on Suction Pressure and Clot Hardness
title_sort computational design of thrombectomy device for blood clot removal: a study on suction pressure and clot hardness
publisher Universiti Teknologi Petronas
publishDate 2011
url http://utpedia.utp.edu.my/8916/1/2011-Computational%20Design%20Of%20Mechanical%20Thrombectomy%20Device%20For%20Blood%20CLot%20Removal-A%20STudy%20ON%20Suc.pdf
http://utpedia.utp.edu.my/8916/
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