Preparation and characterization of 3s-PLA/CS/nHA drug-loaded composites by supercritical carbon dioxide technology

IF 2.4 3区 化学 Q3 POLYMER SCIENCE
Guoqian Yang, Mengmeng Liu, Yingfeng Su, Chi Yu
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Abstract

Amidst the relentless innovation in materials science and bone tissue engineering, the quest for next-generation bone graft materials with bespoke functionalities has emerged as a pivotal research domain. This study produced and characterized a novel bone healing material. First, we explained how three-armed polylactic acid (3s-PLA) was created in supercritical carbon dioxide (ScCO2) and utilized as a matrix material. Following that, we described how the solution blending approach was employed to create three-armed polylactic acid/chitosan/nanohydroxyapatite (3s-PLA/CS/nHA) composites. The composites were then drug-loaded with prednisone acetate as a model drug utilizing the supercritical impregnation technique. Ultimately, the Ritger-Peppas model was substantially followed by the drug release of the drug-loaded composites when the in vitro drug-release kinetics of the drug-loaded materials were investigated. The porous structure of 3s-PLA was demonstrated by differential scanning calorimetry (DSC), Fourier transform infrared spectroscopy (FTIR), and nuclear magnetic resonance (NMR) hydrogen spectroscopy. Morphologic studies using scanning electron microscopy (SEM) revealed the homogeneous distribution of drug in the matrix of the mixtures as well as the porous structure of 3s-PLA and 3s-PLA/CS/nHA. The hydrophilicity of 3s-PLA/CS/nHA was examined by the use of water contact angle (WCA), revealing that the material in question has a hydrophilic water contact angle of 45.69°. Furthermore, research was conducted using one-way tests and investigations to characterize in vitro drug-release carrier materials under various drug conditions and temperatures. The carrier material consistently released up to 84.8% of prednisone acetate over the course of 72 h, demonstrating good control over prolonged release, according to the results.

Graphical abstract

Abstract Image

利用超临界二氧化碳技术制备 3s-PLA/CS/nHA 药物负载复合材料并确定其特性
随着材料科学和骨组织工程领域的不断创新,寻求具有定制功能的下一代骨移植材料已成为一个关键的研究领域。本研究制作了一种新型骨愈合材料,并对其进行了表征。首先,我们解释了如何在超临界二氧化碳(ScCO2)中生成三臂聚乳酸(3s-PLA)并将其用作基质材料。随后,我们介绍了如何采用溶液混合法制造三臂聚乳酸/壳聚糖/纳米羟基磷灰石(3s-PLA/CS/nHA)复合材料。然后利用超临界浸渍技术将醋酸泼尼松作为模型药物载入复合材料。最终,在对药物负载复合材料的体外药物释放动力学进行研究时,药物负载复合材料的药物释放在很大程度上遵循了 Ritger-Peppas 模型。差示扫描量热法(DSC)、傅立叶变换红外光谱法(FTIR)和核磁共振氢谱法证明了 3s-PLA 的多孔结构。利用扫描电子显微镜(SEM)进行的形态学研究显示,药物在混合物基质中分布均匀,3s-PLA 和 3s-PLA/CS/nHA 具有多孔结构。利用水接触角(WCA)检测了 3s-PLA/CS/nHA 的亲水性,结果显示该材料的亲水接触角为 45.69°。此外,研究人员还利用单向测试和调查,在各种药物条件和温度下对体外药物释放载体材料进行了表征。结果表明,该载体材料在 72 小时内持续释放了高达 84.8% 的醋酸泼尼松,显示出对延长释放时间的良好控制。
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来源期刊
Iranian Polymer Journal
Iranian Polymer Journal 化学-高分子科学
CiteScore
4.90
自引率
9.70%
发文量
107
审稿时长
2.8 months
期刊介绍: Iranian Polymer Journal, a monthly peer-reviewed international journal, provides a continuous forum for the dissemination of the original research and latest advances made in science and technology of polymers, covering diverse areas of polymer synthesis, characterization, polymer physics, rubber, plastics and composites, processing and engineering, biopolymers, drug delivery systems and natural polymers to meet specific applications. Also contributions from nano-related fields are regarded especially important for its versatility in modern scientific development.
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