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研究生:李芷嫻
研究生(外文):LEE, CHIH-HSIEN
論文名稱:電紡奈米纖維墊作為止血的傷口敷料
論文名稱(外文):Electrospun nanofiber mat for hemostatic wound dressing
指導教授:劉典謨劉典謨引用關係
指導教授(外文):LIU, DEAN-MO
口試委員:吳樸偉邱光裕
口試委員(外文):Wu, Pu-WeiCHIOU,GUANG-YU
口試日期:2024-07-10
學位類別:碩士
校院名稱:國立陽明交通大學
系所名稱:材料科學與工程學系
學門:工程學門
學類:材料工程學類
論文種類:學術論文
論文出版年:2024
畢業學年度:112
語文別:中文
論文頁數:46
中文關鍵詞:靜電紡絲止血傷口敷料氨甲環酸奈米纖維
外文關鍵詞:ElectrospinningHemostasisWound dressingTranexamic acidNanofiber
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  • 點閱點閱:16
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Contentiii
Figure captionsvi
Table captionsviii
Chapter 1. Literature review1
1.1 Electrospinning1
1.1.1 Introduction of electrospinning1
1.1.2 Factors affecting the electrospinning process3
1.1.3 Electrospinning in Wound Dressing and Hemostasis5
1.2 Electrospinning materials review7
1.2.1 Poly(vinyl alcohol) (PVA)7
1.2.2 Chitosan (CS)8
1.2.3 Gelatin (GEL)9
1.2.4 Glutaraldehyde (GA)10
1.2.5 Tranexamic acid (TXA)12
Chapter 2. Research motivation13
Chapter 3. Experimental section15
3.1 Materials and reagents15
3.2 Apparatus16
3.3 Preparation of nanofiber17
3.3.1 Preparation of PVA solution17
3.3.2 Preparation of CS/GEL solution17
3.3.3 Preparation of PVA-CS/GEL (PCG) solution17
3.3.4 Preparation of TXA-PVA-CS/GEL (T-PCG) solution17
3.3.5 Electrospinning18
3.4 Preparation of crosslinking nanofiber18
3.4.1 GA Vapor treatment18
3.4.2 GA Solution treatment18
3.5 Characterization of PVA/CS/Gel (PCG) nanofiber19
3.5.1 Nanofiber Morphology19
3.5.2 Fourier Transform Infrared Spectroscopy (FTIR)19
3.5.3 Microforce Testing System (MTS)19
3.5.4 Contact angle20
3.5.5 Swelling Ratio and Moisture Content20
3.6 Hemostasis of PCG-TXA nanofiber21
3.6.1 Whole Blood Clotting Coagulation21
3.6.2 Whole Blood Clotting Time21
3.6.3 Hemolysis assay in vitro22
3.6.4 Interfacial Interactions with Blood Cells22
3.7 Cytocompatibility of PCG Nanofiber23
Chapter 4. Result and discussions24
4.1 Morphology and fiber diameter24
4.1.1 PVA/CS/GEL (PCG) nanofiber24
4.1.2 TXA-PCG nanofiber27
4.1.3 Crosslinked PCG fiber28
4.2 Characterization of PVA/CS/Gel (PCG) nanofiber29
4.2.1 Fourier Transform Infrared Spectroscopy (FTIR)29
4.2.2 Microforce Testing System (MTS)31
4.2.3 Contact angle32
4.2.4 Swelling Ratio and Moisture Content34
4.3 Hemostasis of PCG-TXA nanofiber36
4.3.1 Whole Blood Clotting Coagulation36
4.3.2 Whole Blood Clotting Time37
4.3.3 Hemolysis assay in vitro38
4.3.4 Interfacial Interactions with Blood Cells39
4.4 Cytocompatibility of PCG Nanofiber41
Chapter 5. Conclusion42
References44
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12.Koski, A., K. Yim, and S. Shivkumar, Effect of molecular weight on fibrous PVA produced by electrospinning. Materials Letters, 2004. 58(3): p. 493-497.
13.Yang, D., Y. Li, and J. Nie, Preparation of gelatin/PVA nanofibers and their potential application in controlled release of drugs. Carbohydrate Polymers, 2007. 69(3): p. 538-543.
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18.Chien, Y.-H., et al. Fabrication of Glutaraldehyde Vapor Treated PVA/SA/GO/ZnO Electrospun Nanofibers with High Liquid Absorbability for Antimicrobial of Staphylococcus aureus. Nanomaterials, 2023. 13, DOI: 10.3390/nano13050932.
19.Ohkawa, K., et al., Electrospinning of Chitosan. Macromolecular Rapid Communications, 2004. 25(18): p. 1600-1605.
20.Li, L. and Y.-L. Hsieh, Chitosan bicomponent nanofibers and nanoporous fibers. Carbohydrate Research, 2006. 341(3): p. 374-381.
21.Fan, P., et al., Chitosan-Based Hemostatic Hydrogels: The Concept, Mechanism, Application, and Prospects. Molecules, 2023. 28(3).
22.Wang, Y.-W., et al. Biological Effects of Chitosan-Based Dressing on Hemostasis Mechanism. Polymers, 2019. 11, DOI: 10.3390/polym11111906.
23.Gautam, S., et al., Gelatin-polycaprolactone-nanohydroxyapatite electrospun nanocomposite scaffold for bone tissue engineering. Materials Science and Engineering: C, 2021. 119: p. 111588.
24.Aldana, A.A. and G.A. Abraham, Current advances in electrospun gelatin-based scaffolds for tissue engineering applications. Int J Pharm, 2017. 523(2): p. 441-453.
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26.Aoki, H., H. Miyoshi, and Y. Yamagata, Electrospinning of gelatin nanofiber scaffolds with mild neutral cosolvents for use in tissue engineering. Polymer Journal, 2015. 47(3): p. 267-277.
27.Wang, W., et al., Effect of vapor-phase glutaraldehyde crosslinking on electrospun starch fibers. Carbohydrate Polymers, 2016. 140: p. 356-361.
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29.Destaye, A.G., C.-K. Lin, and C.-K. Lee, Glutaraldehyde Vapor Cross-linked Nanofibrous PVA Mat with in Situ Formed Silver Nanoparticles. ACS Applied Materials & Interfaces, 2013. 5(11): p. 4745-4752.
30.Hulupi, M. and H. Haryadi, Synthesis and Characterization of Electrospinning PVA Nanofiber-Crosslinked by Glutaraldehyde. Materials Today: Proceedings, 2019. 13: p. 199-204.
31.Farzanegan, G., et al., The Effect of Topical Tranexamic Acid on Intraoperative Blood Loss in Patients Undergoing Posterior Lumbar Laminectomy and Discectomy: A Randomized, Double-Blind, Controlled Trial Study. Asian Spine J, 2022. 16(6): p. 857-864.
32.Picetti, R., et al., What concentration of tranexamic acid is needed to inhibit fibrinolysis? A systematic review of pharmacodynamics studies. Blood Coagul Fibrinolysis, 2019. 30(1): p. 1-10.
33.Sasmal, P. and P. Datta, Tranexamic acid-loaded chitosan electrospun nanofibers as drug delivery system for hemorrhage control applications. Journal of Drug Delivery Science and Technology, 2019. 52: p. 559-567.
34.Baker, M.S., Advanced trauma life support: is it adequate stand-alone training for military medicine? Mil Med, 1994. 159(9): p. 587-90.
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36.Sandri, G., et al., Electrospinning Technologies in Wound Dressing Applications, in Therapeutic Dressings and Wound Healing Applications. 2020. p. 315-336.
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