博碩士論文 105324005 完整後設資料紀錄

DC 欄位 語言
DC.contributor化學工程與材料工程學系zh_TW
DC.creator楊士永zh_TW
DC.creatorShih-Yung Yangen_US
dc.date.accessioned2018-8-24T07:39:07Z
dc.date.available2018-8-24T07:39:07Z
dc.date.issued2018
dc.identifier.urihttp://ir.lib.ncu.edu.tw:444/thesis/view_etd.asp?URN=105324005
dc.contributor.department化學工程與材料工程學系zh_TW
DC.description國立中央大學zh_TW
DC.descriptionNational Central Universityen_US
dc.description.abstract電刺激與機械刺激在組織工程中扮演著極為重要的角色,為了研究他們對於細胞及組織的影響,開發一能夠同時進行電刺激及機械刺激的生物反應器是必要的。在這項研究中,我們透過將聚?咯(PPy)聚合於二甲基矽氧烷(PDMS)薄膜上,製作了一可拉伸的導電薄膜。為了促進PPy的聚合,我們用氫氧化鈉(NaOH)水溶液對PDMS薄膜進行預處理,修飾其表面以增加粗糙度。NaOH的預處理時間直接影響了PPy/PDMS薄膜的電性質以及生物適合性。在對其電性質可靠度進行測試後,確定其在拉伸30~40%應變量之間仍可保有低且穩定的電阻值(20kΩ)。接著透過MTT測試證實導電薄膜有助於表面細胞之活性。綜合電性質與MTT之結果,我們發現經過NaOH預處理6小時之PPy/PDMS薄膜具有最穩定之電性質與生物相容性。該薄膜雖然外觀呈現黑色,但其具有透光性質,因此可以透過顯微鏡直接觀察培養於上方的細胞。將PPy/PDMS薄膜結合流道層、培養層,製造出能夠對細胞進行電刺激以及機械刺激之生物反應器並且將其投入實測中,首先對C2C12進行頻率為0.5 Hz且應變量為10%之循環拉伸刺激,由結果可以看到循環拉伸可以有效的改變細胞的排列方向,在肌管分化實驗結果顯示循環拉伸可以有效控制肌管的排列同時也有效提升肌管的分化能力,並且對肌管分化的指標基因如肌細胞生成素(Myogenin)和肌球蛋白重鍊(myosin heavy chain,MHC)有上調控的效果。另外在電刺激的部份,則是以0.1、0.33及1V/cm的直流電進行刺激,結果顯示雖然電刺激對於細胞的排列並無顯著的影響,但可以有效提升肌管的分化效率。最後由qPCR的結果顯示,直流電刺激雖然造成MyoD的基因表現被抑制,但對於肌管分化的指標基因Myogenin和MHC都有顯著上升的調控。以上實驗結果,證實所開發的生物反應器可以對C2C12細胞進行循環拉伸及電刺激,藉以促進其分化能力。未來該裝置除了能進行肌肉細胞體外刺激培養,也可以用於研究肌肉相關疾病對物理刺激的反應機轉。zh_TW
dc.description.abstractElectrical and mechanical stimulations both play important roles in the tissue engineering. In order to simultaneously explore their effects on tissue regeneration, it is essential to develop a bioreactor to electrically and mechanically stimulate cells at the same time. In this study, we fabricated a stretchable conductive film by polymerizing pyrrole on PDMS surface. To promote the deposition of polypyrrole (PPy), PDMS substrates were pretreated NaOH solution to increase surface roughness, and this pretreatment was critical to the electrical property and biocompatibility of PPy/PDMS films. The prepared PPy/PDMS films demonstrate excellent electrical properties that they maintained low electic resistance (20kΩ) under 30~40% tensile strain and were reliable during 200 cycles of 10% strain. The results MTT assay revealed that these conductive PPy/PDMS films highly promoted viability of C2C12 cells. We pretreated PDMS NaOH solution for 6 hours in the following experiment because this group demonstrated best electrical properties and biocompatibility. These PPy/PDMS films were dark but transparent and thus can be easily applied for monitoring surface via the microscope. Therefore, these PPy/PDMS films were applied to build a bioreactor for the application of electrical and mechanical stimulations. Firstly, this device was applied for mechanical stimulation that cells were cyclically stretched for 6 hours of 10 % tensile strain at 0.5Hz for 4 days. The results showed that the treated cells were aligned perpendicular to the stretching direction. The result myotube differentiation suggested that cyclic stretching effectively not only aligned myotubes perpendicular to the stretching direction but also improved the index of differentiation. Moreover, genes correlative to myotube differentiation including myogenin and myosin heavy chain (MHC), were also promoted. Regarding to electrical stimulation, 0.1, 0.33, and 1V/cm were applied to treat surface cells for 4 hour each day for 4 days. Although there was no significant effect on the cell alignment, the MHC expression and differentiation index were highly improved. The results of qPCR showed that both myogenin and MHC genes were upregulated, but the MyoD has been inhibited. These results suggested that our developed bioreactor is feasible to mechanically and electrically stimulate C2C12 cells to promote myogenic differentiation. This device can be applied not only promote muscle tissue regeneration in vitro but also as a model to investigate the pathology muscle disease.en_US
DC.subject電刺激zh_TW
DC.subject機械刺激zh_TW
DC.subject生物反應器zh_TW
DC.subject小鼠肌肉纖維母細胞zh_TW
DC.subjectelectrical stimulationen_US
DC.subjectmechanical stimulationen_US
DC.subjectbioreactoren_US
DC.subjectC2C12en_US
DC.title搭建可提供電刺激與機械刺激之生物反應器zh_TW
dc.language.isozh-TWzh-TW
DC.titleFabrication of a bioreactor for applying mechanical and electrical stimulationsen_US
DC.type博碩士論文zh_TW
DC.typethesisen_US
DC.publisherNational Central Universityen_US

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