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通过含β-环糊精的嵌段共聚物与聚(N-异丙基丙烯酰胺)的分子识别自发形成温度响应性组装体。

Spontaneous formation of temperature-responsive assemblies by molecular recognition of a β-cyclodextrin containing block copolymer and poly(N-isopropylacrylamide).

作者信息

Zhang Jianxiang, Feng Kai, Cuddihy Meghan, Kotov Nicholas A, Ma Peter X

机构信息

Department of Biologic and Materials Sciences, University of Michigan, Ann Arbor, MI 48109, USA.

出版信息

Soft Matter. 2010 Aug 7;6(15):3669-3679. doi: 10.1039/c000898b.

DOI:10.1039/c000898b
PMID:20657806
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2907537/
Abstract

We report the construction of novel temperature-responsive assemblies based on a double hydrophilic block copolymer (consisting of a PEG block and a β-cyclodextrin-containing block, PEG-b-PCD) and poly(N-isopropylacrylamide) (PNIPAm). Thus formed nano-assemblies exhibit a spherical morphology and have a temperature-responsive loose core. The driving force for the formation of these assemblies was found to be the inclusion complexation interaction between the hydrophobic cavity of β-cyclodextrin and the isopropyl group of PNIPAm. The particle size of these assemblies changed reversibly in response to the external temperature change. The particle size also changed with the PNIPAm/PEG-b-PCD weight ratio. A model hydrophobic drug (indomethacin) was loaded into these assemblies with a high efficiency. An in vitro release study showed that the payload could be released in a sustained manner after an initial burst release. The release rate could be switched between high and low in an ON/OFF fashion by temperature. These results demonstrate that the nano-assemblies have high potential for applications in controlled drug delivery and biomedicine when temperature responsiveness is desired.

摘要

我们报道了基于双亲水嵌段共聚物(由聚乙二醇(PEG)嵌段和含β-环糊精的嵌段组成,即PEG-b-PCD)和聚(N-异丙基丙烯酰胺)(PNIPAm)构建新型温度响应性组装体。如此形成的纳米组装体呈现球形形态,并具有温度响应性的松散核。发现这些组装体形成的驱动力是β-环糊精的疏水腔与PNIPAm的异丙基之间的包合络合相互作用。这些组装体的粒径随外部温度变化而可逆地改变。粒径也随PNIPAm/PEG-b-PCD重量比而变化。一种模型疏水药物(吲哚美辛)被高效地载入这些组装体中。体外释放研究表明,在初始突释后,载药量可以持续释放。通过温度可以以开/关方式在高释放率和低释放率之间切换释放速率。这些结果表明,当需要温度响应性时,纳米组装体在药物控释和生物医学应用中具有很高的潜力。

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