Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels

Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels

碩士 === 國立成功大學 === 生物醫學工程學系 === 100 === After decades of efforts, there is still a lack for ideal blood vessel substitute for those internal diameter less than 6mm. Conventional synthetic polymers like PTFE(Polytetrafluoroethylene), PET(Polyethylene teraphthalate) have been popularly applied as medic...

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Main Authors: Chao-LinChen, 陳照臨
Other Authors: Jin-Jia Hu
Format: Others
Language:zh-TW
Published: 2012
Online Access:http://ndltd.ncl.edu.tw/handle/96808427316999200261
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spelling ndltd-TW-100NCKU51141182015-10-13T21:38:03Z http://ndltd.ncl.edu.tw/handle/96808427316999200261 Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels 體內原位力學刺激對於管狀組織成熟的影響 – 組織工程血管上的啟示 Chao-LinChen 陳照臨 碩士 國立成功大學 生物醫學工程學系 100 After decades of efforts, there is still a lack for ideal blood vessel substitute for those internal diameter less than 6mm. Conventional synthetic polymers like PTFE(Polytetrafluoroethylene), PET(Polyethylene teraphthalate) have been popularly applied as medical implantation. But for small blood vessel(〈6mm) applications, their functions are still enormously hampered by foreign body reaction and compliance mismatch. On the other side, tissue-engineered blood vessels are made mainly by culturing cells on biodegradable scaffold and ECM(extra-cellular matrix) in vitro, while bioreactor, a device to simulate physical hemodynamic condition in vitro, has gained its popularity in recent researches with promising results. This study is based on aforementioned footsteps and will look into the effect of mechanical stimulation on biological tissues. We use a custom-made mechanical tester to measure the compliance, burst pressure and suture retention force of tubular tissues, aiming to bring a new hope for small caliber tissue-engineered blood vessels. Jin-Jia Hu 胡晉嘉 2012 學位論文 ; thesis 52 zh-TW
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language zh-TW
format Others
sources NDLTD
description 碩士 === 國立成功大學 === 生物醫學工程學系 === 100 === After decades of efforts, there is still a lack for ideal blood vessel substitute for those internal diameter less than 6mm. Conventional synthetic polymers like PTFE(Polytetrafluoroethylene), PET(Polyethylene teraphthalate) have been popularly applied as medical implantation. But for small blood vessel(〈6mm) applications, their functions are still enormously hampered by foreign body reaction and compliance mismatch. On the other side, tissue-engineered blood vessels are made mainly by culturing cells on biodegradable scaffold and ECM(extra-cellular matrix) in vitro, while bioreactor, a device to simulate physical hemodynamic condition in vitro, has gained its popularity in recent researches with promising results. This study is based on aforementioned footsteps and will look into the effect of mechanical stimulation on biological tissues. We use a custom-made mechanical tester to measure the compliance, burst pressure and suture retention force of tubular tissues, aiming to bring a new hope for small caliber tissue-engineered blood vessels.
author2 Jin-Jia Hu
author_facet Jin-Jia Hu
Chao-LinChen
陳照臨
author Chao-LinChen
陳照臨
spellingShingle Chao-LinChen
陳照臨
Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels
author_sort Chao-LinChen
title Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels
title_short Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels
title_full Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels
title_fullStr Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels
title_full_unstemmed Effects of In Situ Mechanical Stimuli on the Maturation of Tubular tissue - Implications for Tissue-Engineered Blood Vessels
title_sort effects of in situ mechanical stimuli on the maturation of tubular tissue - implications for tissue-engineered blood vessels
publishDate 2012
url http://ndltd.ncl.edu.tw/handle/96808427316999200261
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AT chénzhàolín tǐnèiyuánwèilìxuécìjīduìyúguǎnzhuàngzǔzhīchéngshúdeyǐngxiǎngzǔzhīgōngchéngxuèguǎnshàngdeqǐshì
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