Chia Nan University of Pharmacy & Science Institutional Repository:Item 310902800/24951
English  |  正體中文  |  简体中文  |  Items with full text/Total items : 18034/20233 (89%)
Visitors : 23683735      Online Users : 465
RC Version 7.0 © Powered By DSPACE, MIT. Enhanced by NTU Library IR team.
Scope Tips:
  • please add "double quotation mark" for query phrases to get precise results
  • please goto advance search for comprehansive author search
    •  Adv. Search
    HomeLoginUploadHelpAboutAdminister Goto mobile version


    Please use this identifier to cite or link to this item: https://ir.cnu.edu.tw/handle/310902800/24951


    Title: 新型 Fe3O4/living block copolymer 之合成及其自組裝微胞型態與藥物釋放之研究(II)
    The Study of the Synthesis and Self-Assembly of Novel Fe3o4/Living Block Copolymer and Its Application on Drug Release
    Authors: 李佳芬
    Contributors: 化妝品應用與管理系
    Keywords: living radical polymerization
    self-assembly
    organic/inorganic composite micelle
    pH sensitive
    thermo-sensitive
    drug control release
    Date: 2011
    Issue Date: 2012-01-03 13:57:30 (UTC+8)
    Abstract: 本 計 畫 預 計 以 三 年 時 間 完 成 (99年度~101年度),於99年度通過第一年計畫,目前預計申請第二年以及第三年計畫(100年度~101年度)。計 畫 內 容 是 以 controlled/living radical polymerization (C/LRP)方式合成出具有溫度感應性以及具有pH感應性的living block copolymer ,此living block copolymer會受到溫度以及pH值的影響而改變其親水性與疏水性, 藉由此特性living block copolymer即可在水中進行self-assembly形成微胞, 在本計劃中預計在living block copolymer存在之下合成 Fe3O4 , 以製備出表面接有Fe3O4 而且具有溫度感應性及pH 感應特性的有機/ 無機 Fe3O4/block copolymer磁性複合微胞。並以此Fe3O4/block copolymer磁性複合微胞作為載體,將藥物包覆於其內部,由於此微胞接有Fe3O4而Fe3O4是一種磁性材料,因此在磁場的作用引導下, Fe3O4/block copolymer磁性複合微胞載體會隨著磁場的引導而到達病變組織,此外根據研究顯示Fe3O4磁性奈米粒子於交流磁場下具有良好的發熱特性, 因此我們可以利用此發熱特性使得block copolymer中具溫度感應性的polymer chains產生收縮,而將內部所包覆的藥物擠出來,針對病變組織做直接的治療,如此達到標的治療的功效。另外由於Fe3O4的磁性奈米粒子於交流磁場下具有良好的發熱特性, 因而也具有臨床的腫瘤熱炙治療效果, 直接藉由Fe3O4所發出的熱源來破壞腫瘤組織細胞, 而達到治療腫瘤組織的目的。目 前 (99年度計畫)正在進行本三年期計畫的第一年計劃,在第一年計劃中,進行bulk polymerization 或solution polymerization 的C/LRP, 來合成出living block copolymer,此living block copolymer中包含具溫度感應性的N-isopropylacrylamide (NIPAAm)以及具酸鹼感應性的methyl acrylic acid (MAA)單體,如此所合成的 poly(NIPAAm)-poly(MAA) block copolymer不僅具有溫度感應性而且還具有酸鹼感應性等雙重特性,此living block copolymer會受到溫度及pH值的影響而呈現出不同的親水性與疏水性, 利用此特性可使得living block copolymer一端呈現親水的特性而令一端呈現疏水的特性, 如此living block copolymer即可進行self-assembly(自組裝)而形成高分子微胞(polymer micelle), 在此研究中將詳加探討各種實驗變因對於高分子微胞型態結構的影響。計 畫 第 二 年 (100年度計畫)接續第一年的研究成果, 在living block copolymer存在之下合成磁性Fe3O4奈米顆粒,使Fe3O4奈米顆粒接在living block copolymer上,再經由block copolymer的self-assembly製備出Fe3O4/block copolymer有機/無機磁性複合微胞,在此研究中將詳加探討各種實驗變因對於Fe3O4/block copolymer磁性複合微胞型態結構及安定性的影響。計 畫 第 三 年 (101 年度計畫) 接續第二年的研究成果將第二年研究所合成的 Fe3O4/block copolymer磁性複合微胞作為載體來包覆藥物, 為了使微胞的結構能夠穩固, 以穩定的載負藥物, 因此我們將利用交聯劑2,2'-(ethylenedioxy)bis(ethylamine) 與 P(MAA)進行縮合反應, 使微胞形成穩定的交聯結構。在此研究中將探討各種實驗變因對於微胞顆粒穩定性、型態結構、載藥效率, 以及藥物釋放速率的影響。
    This project is scheduled to be finished in three years. The method of control/living radical polymerization (C/L RP) is used to synthesize the living block copolymer with the properties of thermo-sensitive and pH sensitive. The factors of temperature and pH value may influence the hydrophilic property of living block copolymer, and therefore the block copolymer will self-assembly to form the polymer micelles. This project is planned to synthesize the Fe3O4 nanoparticles in the presence of block copolymer to form the organic/inorganic Fe3O4/block copolymer magnetic composite micelles. The magnetic composite micelles are used as drug carriers to load with the oil soluble drug and water soluble drug. Because the polymer micelles combine with Fe3O4 so that the magnetic composite polymer micelles may target drug to specific sits through the selective application of a magnetic filed, that is magnetic targeted carriers. Besides, the magnetic targeted carriers can be applied on the magnetothermal therapy. The first year of this project is planned to synthesize the thermo-sensitive and pH sensitive block copolymer. Temperature and pH value can influence the hydrophilic property of block copolymer; base on this way the block copolymer may self-assembly and form the polymer micelles. The second year of this project is to synthesize the Fe3O4 magnetic nanoparticles in the presence of block copolymer to form the organic/inorganic Fe3O4/block copolymer magnetic composite micelles. Various variances influence the morphology and properties of the magnetic polymer micelles are studied. In the third year of this project, the magnetic polymer micelles are used as drug carriers to load with either water soluble drug or oil soluble drug. The ability of the magnetic polymer micelles to control release the drug will be study.
    Relation: 計畫編號:100-2221-E-041-009
    計畫年度:100;起迄日期:2011-08-01~2012-07-31
    核定金額:872,000元
    Appears in Collections:[Dept. of Cosmetic Science and institute of cosmetic science] MOST Project

    Files in This Item:

    File Description SizeFormat
    index.html0KbHTML1814View/Open
    index.html0KbHTML464View/Open


    All items in CNU IR are protected by copyright, with all rights reserved.

    DSpace Software Copyright © 2002-2004  MIT &  Hewlett-Packard  /   Enhanced by   NTU Library IR team Copyright ©   - Feedback