Laboratory synthesis and preparation of thermo-responsive polymeric micelle and hydrogel for resveratrol delivery and release.

IF 2.1 4区 医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL Advances in Clinical and Experimental Medicine Pub Date : 2024-11-18 DOI:10.17219/acem/190546
Zhuojie Zhao, Liang Xi, Wei Liang
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Abstract

Background: Resveratrol (RSV) exhibits anti-inflammatory, antioxidative, antiaging, and cardioprotective properties. However, due to its hydrophobic nature, it is prone to instability and oxidation, which significantly limit its biomedical applications.

Objectives: The aims of this study were: 1) To prepare and characterize hydrogels and micelles by mixing the synthesized PNIPAM-b-PEO-b-PNIPAM copolymer and RSV in an aqueous environment; 2) To investigate the molecular interactions between the polymer and RSV; 3) To evaluate various properties of the polymeric micelles and hydrogels; 4) To determine the efficiency of RSV release from the polymeric micelles.

Material and methods: A well-defined PNIPAM-b-PEO-b-PNIPAM block copolymer was synthesized and purified. Gel permeation chromatography and 1H NMR were used to characterize the chemical composition and molecular weight of each copolymer. The encapsulation of RSV and its interaction with PNIPAM-b-PEO-b-PNIPAM were confirmed using 2D nuclear Overhauser effect spectroscopy (NOESY). The lower critical solution temperature (LCST), critical micelle concentration (CMC) and structure of the polymeric micelle were characterized using surface tension measurements, a viscometer, scanning electron microscopy (SEM), and transmission electron microscopy (TEM). The rheological behavior of the RSV-loaded hydrogels was also investigated.

Results: The results showed that the RSV-loaded micelles were successfully prepared. The LCST and CMC of PNIPAM-b-PEO-b-PNIPAM polymeric micelles were determined to be 35°C and 0.005 g/L, respectively. The micelles have a spherical profile with a particle size of 100 nm and a narrow size distribution.

Conclusions: Resveratrol can be encapsulated within polymeric micelles formed by PNIPAM-b-PEO-b-PNIPAM block copolymer below the LCST. Its molecules are incorporated into the hydrophobic domains of poly(N-isopropyl acrylamide) (PNIPAM), forming a molecular complex. The point of molecular interaction is primarily at the phenolic region of RSV. Below LCST, PNIPAM-b-PEO-b-PNIPAM behaves as a polymeric surfactant at low concentrations and as an associating polymer at high concentrations. At high polymer concentrations, PNIPAM-b-PEO-b-PNIPAM formed a hydrogel. Above LCST, it was released from the polymeric micelles.

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用于白藜芦醇输送和释放的热响应聚合物胶束和水凝胶的实验室合成与制备。
背景:白藜芦醇(RSV)具有抗炎、抗氧化、抗衰老和保护心脏的特性。然而,由于白藜芦醇的疏水性,它容易不稳定和氧化,这大大限制了它在生物医学方面的应用:本研究的目的是1)将合成的 PNIPAM-b-PEO-b-PNIPAM 共聚物和 RSV 在水环境中混合,制备水凝胶和胶束并确定其特性;2)研究聚合物和 RSV 之间的分子相互作用;3)评估聚合物胶束和水凝胶的各种特性;4)确定 RSV 从聚合物胶束中释放的效率:合成并纯化了定义明确的 PNIPAM-b-PEO-b-PNIPAM 嵌段共聚物。使用凝胶渗透色谱法和 1H NMR 表征了每种共聚物的化学成分和分子量。二维核欧豪瑟效应光谱(NOESY)证实了 RSV 的包封及其与 PNIPAM-b-PEO-b-PNIPAM 的相互作用。利用表面张力测量、粘度计、扫描电子显微镜(SEM)和透射电子显微镜(TEM)对聚合物胶束的低临界溶液温度(LCST)、临界胶束浓度(CMC)和结构进行了表征。此外,还研究了负载 RSV 的水凝胶的流变行为:结果表明,成功制备了负载 RSV 的胶束。经测定,PNIPAM-b-PEO-b-PNIPAM 聚合物胶束的 LCST 和 CMC 分别为 35°C 和 0.005 g/L。胶束呈球形,粒径为 100 nm,粒度分布较窄:结论:白藜芦醇可在低于 LCST 的温度下被包裹在由 PNIPAM-b-PEO-b-PNIPAM 嵌段共聚物形成的聚合物胶束中。其分子与聚(N-异丙基丙烯酰胺)(PNIPAM)的疏水结构域结合,形成分子复合物。分子相互作用点主要位于 RSV 的酚类区域。在 LCST 以下,PNIPAM-b-PEO-b-PNIPAM 在低浓度时表现为聚合物表面活性剂,在高浓度时则表现为缔合聚合物。在聚合物浓度较高时,PNIPAM-b-PEO-b-PNIPAM 会形成水凝胶。在 LCST 以上,它从聚合物胶束中释放出来。
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来源期刊
Advances in Clinical and Experimental Medicine
Advances in Clinical and Experimental Medicine MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
3.70
自引率
4.80%
发文量
153
审稿时长
6-12 weeks
期刊介绍: Advances in Clinical and Experimental Medicine has been published by the Wroclaw Medical University since 1992. Establishing the medical journal was the idea of Prof. Bogumił Halawa, Chair of the Department of Cardiology, and was fully supported by the Rector of Wroclaw Medical University, Prof. Zbigniew Knapik. Prof. Halawa was also the first editor-in-chief, between 1992-1997. The journal, then entitled "Postępy Medycyny Klinicznej i Doświadczalnej", appeared quarterly. Prof. Leszek Paradowski was editor-in-chief from 1997-1999. In 1998 he initiated alterations in the profile and cover design of the journal which were accepted by the Editorial Board. The title was changed to Advances in Clinical and Experimental Medicine. Articles in English were welcomed. A number of outstanding representatives of medical science from Poland and abroad were invited to participate in the newly established International Editorial Staff. Prof. Antonina Harłozińska-Szmyrka was editor-in-chief in years 2000-2005, in years 2006-2007 once again prof. Leszek Paradowski and prof. Maria Podolak-Dawidziak was editor-in-chief in years 2008-2016. Since 2017 the editor-in chief is prof. Maciej Bagłaj. Since July 2005, original papers have been published only in English. Case reports are no longer accepted. The manuscripts are reviewed by two independent reviewers and a statistical reviewer, and English texts are proofread by a native speaker. The journal has been indexed in several databases: Scopus, Ulrich’sTM International Periodicals Directory, Index Copernicus and since 2007 in Thomson Reuters databases: Science Citation Index Expanded i Journal Citation Reports/Science Edition. In 2010 the journal obtained Impact Factor which is now 1.179 pts. Articles published in the journal are worth 15 points among Polish journals according to the Polish Committee for Scientific Research and 169.43 points according to the Index Copernicus. Since November 7, 2012, Advances in Clinical and Experimental Medicine has been indexed and included in National Library of Medicine’s MEDLINE database. English abstracts printed in the journal are included and searchable using PubMed http://www.ncbi.nlm.nih.gov/pubmed.
期刊最新文献
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