博碩士論文 87321037 詳細資訊



以作者查詢圖書館館藏 以作者查詢臺灣博碩士 以作者查詢全國書目 勘誤回報 、線上人數:25 、訪客IP:3.19.29.89
姓名 梁晃千(Huan-Qian Lia)  查詢紙本館藏   畢業系所 化學工程與材料工程學系
論文名稱 以天然交聯劑genipin交聯明膠的藥物制放微粒載體:體外與體內性質評估
相關論文
★ 以天然交聯劑Genipin交聯幾丁聚醣材料的體外及體內性質評估★ 以Genipin或Carbodiimide交聯生物組織材料的交聯結構與交聯性質探討
★ 由中藥梔子果實裡萃取純化天然交聯劑 Genipin及其在生醫材料上的應用
檔案 [Endnote RIS 格式]    [Bibtex 格式]    [相關文章]   [文章引用]   [完整記錄]   [館藏目錄]   [檢視]  [下載]
  1. 本電子論文使用權限為同意立即開放。
  2. 已達開放權限電子全文僅授權使用者為學術研究之目的,進行個人非營利性質之檢索、閱讀、列印。
  3. 請遵守中華民國著作權法之相關規定,切勿任意重製、散佈、改作、轉貼、播送,以免觸法。

摘要(中) 文獻上記載明膠曾被用來當做製備藥物制放微粒載體的材料。但是過去的臨床經驗指出,明膠為一易溶於水且澎潤度相當高的水膠,因此以明膠包覆藥物的微粒載體,通常只能用於短效性的藥物制放。為了克服此一問題,臨床上常以formaldehyde或gluteraldehyde之類的化學交聯劑來交聯明膠微粒載體,藉以控制其澎潤度及水解速率,使得藥物能達到緩釋與長效的效果。但是formaldehyde及gluteraldehyde的細胞毒性太強,因此限制了明膠製成的微粒載體在臨床上的用途。為了解決這個問題,我們使用從中藥梔子果實裡萃取純化出來的一種天然交聯劑genipin,來交聯明膠製備藥物制放微粒載體。
本研究分別以體外實驗與體內實驗兩大部份,來評估以genipin交聯明膠製備藥物制放微粒載體(GP微粒載體),當做肌肉注射劑型藥物制放的可行性。實驗?,我們的實驗對照組是以glutaraldehyde交聯明膠製備的藥物制放微粒載體(GA微粒載體)。體外實驗主要是探討以不同製備程序製備出來的GP微粒載體的表面形態、交聯程度及其粒徑大小與分佈情形,以找出製備GP微粒載體的較佳製程條件。較佳製程的選擇則是以以下幾個條件來判斷:(1)微粒表面光滑且不產生糾結的現象;(2)由於本研究希望能延長明膠微粒載體的水解時間,所以微粒載體的交聯程度將愈高愈好;(3)由於文獻上曾提及,理想的肌肉注射劑型微粒載體的粒徑大小約為20-100
關鍵字(中) ★ 藥物制放
★ 明膠		 關鍵字(英) ★ Genipin
論文目次 目錄
頁數
摘要 I
目錄III
圖索引VI
表索引 IX
第一章 緒論1
1.1藥物在生物體內的傳輸路徑1
1.2藥物制放技術2
1.3藥物輸送劑型與材料之簡介及文獻回顧2
1.4免疫反應及發炎修復4
1.5 研究動機與目的5
第二章 GP微粒載體的製備7
2.1研究目的7
2.2實驗材料7
2.2.1微粒載體的組成成份7
2.2.2 微粒載體的製備7
2.3 實驗方法9
2.3.1 粒徑大小與分佈情形9
2.3.2 交聯指數13
2.3.2.1 方法一的交聯指數14
2.3.2.2 方法二的交聯指數14
2.3.2.3 方法三的交聯指數14
2.3.3 SEM微粒載體表面形態觀察15
2.4 實驗結果與討論15
2.4.1 粒徑大小與分佈情形15
2.4.2 交聯指數17
2.4.2.1 方法一的交聯指數17
2.4.2.2 方法二的交聯指數17
2.4.2.3 方法三的交聯指數18
2-5結論25
第三章GP微粒載體在動物體內的生物相容性評估27
3.1研就目的27
3.2材料與方法27
3.2.1微粒載體製備27
3.2.2 實驗方法28
3.2.2.1 微粒載體被分解情形觀察29
3.2.2.2 SEM表面形態觀察31
3.2.2.3 病理顯微觀察31
3.3實驗結果與討論34
3.3.1微粒載體被分解情形34
3.3.2 SEM表面形態觀察34
3.3.3 病理切片觀察40
3.4交聯反應機制47
3.5結論48
第四章GP微粒載體體外性質探討50
4.1研究目的50
4.2材料與方法
4.2.1微粒載體製備50
4.2.2實驗方法
4.2.2.1微粒載體膨潤速率觀察與膨潤動力學
分析51
4.2.2.2微粒載體體外抗酵素分解實驗56
4.2.2.3 被酵素分解後的微粒載體表面形態觀察56
4.2.2.4不同製備條件對藥物包覆率的影響56
4.3實驗結果與討論57
4.3.1微粒載體膨潤速率觀察與膨潤動力學分析57
4.3.2微粒載體體外抗酵素分解實驗59
4.3.3被酵素分解後的微粒載體表面形態觀察59
4.3.4不同製備條件對藥物包覆率的影響61
4.4、結論63
參考文獻65
參考文獻 1. Deasy, P.B., “Microencapsulation and related drug processes”, Marcel Dekker Inc., New York, 8-13, 1984.
2. Simpson, H., Mckinlay, I., “Poisoning with slow-release fenfluramine,” British Medical Journal, 4, 462-463, 1975.
3. 糜福龍,博士論文,中央大學化工所,1997.
4. Milovanoric, D., Norin, J.G., “Microencapsulation of sulfa draztine with cellulose acetate phthalate,” Drug Development Industry Pharmaceutics, 12, 1249-1258, 1986.
5. Hideo, T., Takashi, O., Masao, K., “Effect of polymer species on microencapsulation by a surface neutralization method,” Chemical and Pharmaceutical Bulletin, 40, 729-733, 1992.
6. Bechgaard, H., Cadefoged, K., “Gastrointestinal transit time of single-unit tablets,” Journal of Pharmacy and Pharmacology, 33, 791-792, 1981.
7. Sun, Y.M., Chang, C.C., Huang, W.F., Liang, H.C., “Fluidized-bed spray coated porous hydrogel beads for sustained release of diclofenac sodium,” Journal of Controlled Release, 47, 247-260, 1997.
8. Rao, K.P., “Recent developments of collagen-bases materials for medical applications and drug delivery system,” Journal of Biomaterials Science-Polymer Edition, 7, 623-645, 1995.
9. Leo, E., Vandelli, M.A., Cameroni, R., Forni, F., “Doxorubicin-loaded gelatin nanoparticles stabilized by glutaraldehyde: Involvement of the drug in the cross-linking process,” International Journal of Pharmaceutics, 155, 75-82, 1997.
10. Yan, C., Li, X., Chen, X., Wang, D., Zhong, D., Tan, T., Kitano, H., “Anticancer gelatin microspheres with multiple function,” Biomaterials, 12, 640-644, 1991.
11. Silvio, L.D., Gurav, N., Kayser, M.V., Braden, M., Downes, S., “Biodegradable microspheres: a new delivery system for growth hormone,” Biomaterials, 15, 931-936, 1994.
12. Rowe, J.S., Carless, J.E., “Comparison of the in vitro dissolution behaviour of various indomethacin formulations with their in vivo bioavailability,” Journal of Pharmacy and Pharmacology, 33, 561-564, 1981.
13. Chiao, C.S.L., Price, J.C., “Modification of gelatin beadlets for zero sustained release,” Pharmaceutical Research, 6, 517-520,1989.
14. Tabata, Y., Hijikata, S., Muniruzzaman, M., Ikada, Y., “Neovascularization effect of biodegradable gelation microspheres incorporating basic fibroblast growth factor,” Journal of Biomaterials Science-Polymer Edition, 10, 79-94, 1999.
15. Ratcliffe, J.H., Hunneyball, I.M., Smith, A., Wilson, C.G., Pavis, S.S., “Preparation and evaluation of biodegradable polymeric system for the intra-artitular delivery of drug,” Journal of Pharmacy and Pharmacology, 36, 431-436, 1984.
16. Nam, Y.S., Park, T.G., “Protein loaded Biodegradable microspheres bases on PLGA-protein bioconjugates,” Journal of Microencapsulation, 16, 625-637, 1999.
17. Sato, T., Kanke, M., Schroeder, H.G., Deluca, P.P., “Porous biodegradable microspheres for controlled drig delivery. I. Assessment of processing conditions and solvent removal techniques,” Pharmaceutical Research, 5, 21-30, 1988.
18. Jameela, S.R., Misra, A., Jayakrishnan, A., “Cross-linked chitosan microspheres as carriers for prolonged delivery of macromolecular drugs,” Journal of Biomaterials Science-Polymer Edition, 6, 621-632, 1994.
19. Jameela, S.R., Kumary, T.V., Lal, A.V., Jayakrishnan, A., “Progesterone-loaded chitosan microspheres: a long acting biodegradable controlled delivery system,” Journal of Controlled Release, 52, 17-24, 1998.
20. Jayakrishnan, A., Jameela, S.R., “Glutaraldehyde as a fixative in bioprostheses and drug delivery matrices,” Biomaterials, 17, 471-484, 1996.
21. Pavanetto, F., Genta, I., Giunchedi, P., Conti, B., Conte, U., “spray-dried albumin microspheres for the intra-articular delivery of dexamethasone,” Journal of Microencapsulation, 11, 445-454, 1994.
22. Esposito, E., Cortesi, R., Nastruzzi, C., “Gelatin microspheres: Influence of preparation parameters and thermal treatment on chemico-physical and biopharmaceutical properties,” Biomaterials, 17, 2009-2020, 1996.
23. Illum, L., Davis, S.S., Polymers in controlled drug delivery, Wright, Bristol, 73-86, 1987.
24. Nishi, C., Nakajima, N., Ikada, Y., “In vitro evaluation of cytotoxicity of diepoxy compounds used for biomaterial modification,” Journal of Biomedical Materials Research, 29, 829-834, 1995.
25. Hazel, B., Roy, O., Roy, G., “Formaldehyde as a pre-treatment for dermal collagen heterografts,” Biochimica et Biophysica Acta, 632, 589-597, 1980.
26. Gendler, E., Gendler, S., Nimni, M.E., “Toxic reactions evoked by glutaraldehyde-fixed pericardium and cardiac valve tissue bioprosthesis,” Journal of Biomedical Materials Research, 18, 727-736, 1984.
27. Speer, D.P., Chvapil, M., Eskelson, C.D., Ulreich, J., “Biological effects of residual glutaraldehyde in glutaraldehyde-tanned collagen biomaterials,” Journal of Biomedical Materials Research, 14, 753-764, 1980.
28. Huang-Lee, L.L.H., Cheung, D.T., Nimni, M.E., “Biochemical changes and cytotoxicity associated with the degradation of polymeric glutaraldehyde derived crosslinks,” Journal of Biomedical Materials Research, 24, 1185-1201, 1990.
29. 陳永泰、陳建中及林昇鋒等人編譯,組織學,台北市,藝軒圖書出版社,1994,第十九章:348-349.
30. Fujikawa, S., Yokota, T., Koga, K., Kumada, S.I., “The continuous hydrolysis of geniposide to genpin using immobilized β-glucosidase on calcium alginate gel,” Biotechnology Letter, 9, 697-702, 1987.
31. Kimura, Y., Okuda, H., Archi, S., “Effects of geniposide isolated from Gardenia jasminoides on metabolic alterations in high sugar diet-fed rats,” Chemical and Pharmaceutical Bulletin, 30, 4444-4447, 1982.
32. Wang, C.J., Wang, S.W., Lin, J.K., “Suppressive effect of geniposide on the hepatotoxicity and hepatic DNA binding of aflatoxin B1 in rats,” Caner Letters, 60, 95-102, 1991.
33. Tseng, T.H., Chu, C.Y., Wang, C.J., “Inhibition of penta-acetyl geniposide on AFB1-induced genotoxicity in C3H10T1/2 cells,” Cancer Letters, 62, 233-242, 1992.
34. Miwa, T., Jap J Pharmacol., 2, 102-108, 1953.
35. Miwa, T., Jap J Pharmacol., 2, 139-143, 1953.
36. Miwa, T., Jap J Pharmacol., 3, 1-5, 1953.
37. Sung, H.W., Huang, R.N., Huang, L.L.H., Tsai, C.C., “In vitro evalualtion of cytotoxicity of a naturally occurring crosslinking reagent for biological tissue fixation,” Journal of Biomaterials Science-Polymer Edition, 13, 63-78, 1999.
38. Sung, H.W., Huang, R.N., Huang, L.L.H., Tsai, C.C., Chiu, C.T., “Feasibility study of a natural crosslinking reagent for biological tissue fixation,” Journal of Biomedical Materials Research, 42, 560-567, 1998.
39. Huang, L.L.H, Sung, H.W., Tsai, C.C., Huang, D.M., “Biocompatibility study of a biological tissue fixed with a naturally occuring crosslinking reagent,” Journal of Biomedical Materials Research, 42, 568-576, 1998.
40. 張文祥,碩士論文,中央大學化工所,1999.
41. Ugwoke, M.I., Kinget, R., “Influence of processing variables on the properties of gelatin microspheres prepared by emulsification solvent extraction technique,” Journal of Miicroencapsulation, 15, 273-281, 1998.
42. 梁義林,碩士論文,中央大學化工所,1999.
43. Silvestro, L., Viano, I., Macario, M., Colangelo, D., Montrucchio, G., Panico, S., and Fantozzi, R., “Effects of heparin and its desulfated derivatives on leukocyte-endothelial adhesion,” Seminar in Thrombosis and Hemostasis, 20, 254-258, 1994.
44. Nimini, M.E., Cheung, D., Strate, B., Kodama, M., Sheikh, K., “Bioprosthesis derived from cross-linked and chemically modified collagenous tissues,” in collagen Vol.III, M.E., Nimini (ed.), CRC Press, Boca Raton, Florida; 1-38, 1988.
45. Sung, H.W., Huang, D.M., Chang, W.H., Huang, R.N., Hsu, J.C., “Evaluation of Gelatin Hydrogel Crosslinked with Various Crosslinking Agents as Bioadhesives: An In Vitro Study,” Journal of Biomedical Materials Research . 46, 520-530, 1999.
46. Robert, C.C.R., Buri, P.A., Peppas, N.A., “Influence of the drug solubility and dissolution medium on the release from poly(2-hydroxyethyl methacrylate) microspheres,” Journal of Controlled Release, 5, 151-157, 1987.
47. Vandelli, M.A., Forni, F., Coppi, G., Cameroni, R., “The effect of the cross-linking time period upon the drug release and the dynamic swelling of gelatin mictospheres,” Pharmazie, 46, 866-869, 1991.
48. Ritger, P.L., Peppas, N.A., “A simple equation for description of solute release Ⅱ fickian and anomalous release from swellable devices,” Journal of Controlled Release, 5, 37-42, 1987.
49. Gander, B., Gurny, R., Doelker, E., Peppas, N.A., “Crosslinked poly(alkylene oxides) for the preparation of controlled release micromatrices,” Journal of Controlled Release, 5, 271-283, 1988.
50. Leucuta, S.E., Ponchel, G., Duchene, D., “Dynamic swelling behaviour of gelatin / poly(acrylic acid) bioadhesive microspheres loaded with oxpreolol,” Journal of Microencapsulation, 14, 501-510, 1997.
指導教授 宋信文 審核日期 2000-6-28
推文 facebook   plurk   twitter   funp   google   live   udn   HD   myshare   reddit   netvibes   friend   youpush   delicious   baidu   
網路書籤 Google bookmarks   del.icio.us   hemidemi   myshare   

若有論文相關問題,請聯絡國立中央大學圖書館推廣服務組 TEL:(03)422-7151轉57407,或E-mail聯絡  - 隱私權政策聲明