Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius

Introduction: A 3D model of the aqueduct of Sylvius, i.e. the region of interest (ROI) in the human ventricular system (HVS) is used to investigate the flow of CSF within the human brain, using Computational Fluid Dynamics (CFD). CSF can be modeled as a Newtonian Fluid and its flow through the ROI...

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Main Authors: H, Edi Azali, A G, Ahmad Lutfi, S, Amir Hamzah, Osman, Kahar, A K, Mohammed Rafiq, Abd. Aziz, Azian, Sa'at@Yusof, Azlin
Format: Conference or Workshop Item
Language:English
Published: 2011
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Online Access:http://irep.iium.edu.my/5187/1/CSF_Flow_Analysis_for_CoR_2011.pdf
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Institution: Universiti Islam Antarabangsa Malaysia
Language: English
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spelling my.iium.irep.51872013-04-27T08:15:12Z http://irep.iium.edu.my/5187/ Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius H, Edi Azali A G, Ahmad Lutfi S, Amir Hamzah Osman, Kahar A K, Mohammed Rafiq Abd. Aziz, Azian Sa'at@Yusof, Azlin TA164 Bioengineering Introduction: A 3D model of the aqueduct of Sylvius, i.e. the region of interest (ROI) in the human ventricular system (HVS) is used to investigate the flow of CSF within the human brain, using Computational Fluid Dynamics (CFD). CSF can be modeled as a Newtonian Fluid and its flow through the ROI can be visualized using CFD. In this investigation a 3D geometric model of the ROI is constructed from MRI data. The flow of CSF within the ROI is a complicated phenomenon due to the complex ROI geometry. Different flow rate was simulated at the foramen of Monro and a small stenosis was modeled at the middle of the Aqueduct of Sylvius. Understanding the nature of CSF flow may allow engineers and physicians to design medical techniques and drugs to treat various ventricular complications, such as hydrocephalus as a result of obstruction. Objective: To analyze cerebrospinal fluid flow through the region of interest i.e.Aqueduct of Sylvius. Scopes: •With&withoutblockageinAqueductofSylvius. •Numericalstudy(3D-modelling). •Laminar and turbulence model is used. Conclusion: CFD simulations was used to obtain ventricular geometry from anatomical MRI images. In Engineering Fluid Dynamics (EFD), various flow rates was artificially defined at inlets & stenosed aqueduct was modeled within the domain of the geometry. The results show as the flow rate increase, the pressure drop of CSF in the ROI proportionally increased. For normal CSF flow rate, the presence of stenosis in the aqueduct demonstrates a significant increased pressure drop. 2011-04-08 Conference or Workshop Item REM application/pdf en http://irep.iium.edu.my/5187/1/CSF_Flow_Analysis_for_CoR_2011.pdf H, Edi Azali and A G, Ahmad Lutfi and S, Amir Hamzah and Osman, Kahar and A K, Mohammed Rafiq and Abd. Aziz, Azian and Sa'at@Yusof, Azlin (2011) Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius. In: Annual Scientific Meeting, College of Radiology, Malaysia, 8 - 10 April 2011, The Legend Hotel, Kuala Lumpur. (Unpublished)
institution Universiti Islam Antarabangsa Malaysia
building IIUM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider International Islamic University Malaysia
content_source IIUM Repository (IREP)
url_provider http://irep.iium.edu.my/
language English
topic TA164 Bioengineering
spellingShingle TA164 Bioengineering
H, Edi Azali
A G, Ahmad Lutfi
S, Amir Hamzah
Osman, Kahar
A K, Mohammed Rafiq
Abd. Aziz, Azian
Sa'at@Yusof, Azlin
Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius
description Introduction: A 3D model of the aqueduct of Sylvius, i.e. the region of interest (ROI) in the human ventricular system (HVS) is used to investigate the flow of CSF within the human brain, using Computational Fluid Dynamics (CFD). CSF can be modeled as a Newtonian Fluid and its flow through the ROI can be visualized using CFD. In this investigation a 3D geometric model of the ROI is constructed from MRI data. The flow of CSF within the ROI is a complicated phenomenon due to the complex ROI geometry. Different flow rate was simulated at the foramen of Monro and a small stenosis was modeled at the middle of the Aqueduct of Sylvius. Understanding the nature of CSF flow may allow engineers and physicians to design medical techniques and drugs to treat various ventricular complications, such as hydrocephalus as a result of obstruction. Objective: To analyze cerebrospinal fluid flow through the region of interest i.e.Aqueduct of Sylvius. Scopes: •With&withoutblockageinAqueductofSylvius. •Numericalstudy(3D-modelling). •Laminar and turbulence model is used. Conclusion: CFD simulations was used to obtain ventricular geometry from anatomical MRI images. In Engineering Fluid Dynamics (EFD), various flow rates was artificially defined at inlets & stenosed aqueduct was modeled within the domain of the geometry. The results show as the flow rate increase, the pressure drop of CSF in the ROI proportionally increased. For normal CSF flow rate, the presence of stenosis in the aqueduct demonstrates a significant increased pressure drop.
format Conference or Workshop Item
author H, Edi Azali
A G, Ahmad Lutfi
S, Amir Hamzah
Osman, Kahar
A K, Mohammed Rafiq
Abd. Aziz, Azian
Sa'at@Yusof, Azlin
author_facet H, Edi Azali
A G, Ahmad Lutfi
S, Amir Hamzah
Osman, Kahar
A K, Mohammed Rafiq
Abd. Aziz, Azian
Sa'at@Yusof, Azlin
author_sort H, Edi Azali
title Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius
title_short Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius
title_full Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius
title_fullStr Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius
title_full_unstemmed Analysis of the Cerebrospinal Fluid Flow in the Stenosed Aqueduct of Sylvius
title_sort analysis of the cerebrospinal fluid flow in the stenosed aqueduct of sylvius
publishDate 2011
url http://irep.iium.edu.my/5187/1/CSF_Flow_Analysis_for_CoR_2011.pdf
http://irep.iium.edu.my/5187/
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