Development of Halloysite Nanohybrids-Based Films: Enhancing Mechanical and Hydrophilic Properties for Wound Healing.

IF 4.9 3区 医学 Q1 PHARMACOLOGY & PHARMACY Pharmaceutics Pub Date : 2024-09-27 DOI:10.3390/pharmaceutics16101258
Francisco Ramón Rodríguez Pozo, Daiana Ianev, Tomás Martínez Rodríguez, José L Arias, Fátima Linares, Carlos Miguel Gutiérrez Ariza, Caterina Valentino, Francisco Arrebola Vargas, Pablo Hernández Benavides, José Manuel Paredes, María Del Mar Medina Pérez, Silvia Rossi, Giuseppina Sandri, Carola Aguzzi
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Abstract

Most of the therapeutic systems developed for managing chronic skin wounds lack adequate mechanical and hydration properties, primarily because they rely on a single component. This study addresses this issue by combining organic and inorganic materials to obtain hybrid films with enhanced mechanical behavior, adhesion, and fluid absorption properties. To that aim, chitosan/hydrolyzed collagen blends were mixed with halloysite/antimicrobial nanohybrids at 10% and 20% (w/w) using glycerin or glycerin/polyethylene glycol-1500 as plasticizers. The films were characterized through the use of Fourier-transform infrared (FTIR) spectroscopy, thermogravimetric analysis (TGA), and electron microscopy. The mechanical properties were evaluated macroscopically using tensile tests, and at a nanoscale through atomic force microscopy (AFM) and nanoindentation. Thermodynamic studies were conducted to assess their hydrophilic or hydrophobic character. Additionally, in vitro cytocompatibility tests were performed on human keratinocytes. Results from FTIR, TGA, AFM and electron microscopy confirmed the hybrid nature of the films. Both tensile tests and nanomechanical measurements postulated that the nanohybrids improved the films' toughness and adhesion and optimized the nanoindentation properties. All nanohybrid-loaded films were hydrophilic and non-cytotoxic, showcasing their potential for skin wound applications given their enhanced performance at the macro- and nanoscale.

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开发霍洛石纳米杂化薄膜:提高伤口愈合的机械和亲水性能
大多数为治疗慢性皮肤伤口而开发的治疗系统都缺乏足够的机械和水合特性,这主要是因为它们依赖于单一成分。为了解决这一问题,本研究将有机和无机材料结合起来,以获得具有更强机械性能、粘附性和液体吸收性的混合薄膜。为此,使用甘油或甘油/聚乙二醇-1500 作为增塑剂,将壳聚糖/水解胶原混合物与含 10%和 20%(重量比)的哈洛亚酸盐/抗菌纳米杂化物混合。利用傅立叶变换红外光谱(FTIR)、热重分析(TGA)和电子显微镜对薄膜进行了表征。通过拉伸试验对机械性能进行了宏观评估,并通过原子力显微镜(AFM)和纳米压痕对机械性能进行了纳米级评估。还进行了热力学研究,以评估其亲水性或疏水性。此外,还对人类角质细胞进行了体外细胞相容性测试。傅立叶变换红外光谱、热重分析、原子力显微镜和电子显微镜的结果证实了薄膜的混合性质。拉伸试验和纳米力学测量都推测纳米杂化物提高了薄膜的韧性和粘附性,并优化了纳米压痕特性。所有纳米杂化薄膜都具有亲水性和无细胞毒性,由于它们在宏观和纳米尺度上的性能都得到了增强,因此在皮肤伤口应用方面展现出了潜力。
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来源期刊
Pharmaceutics
Pharmaceutics Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
7.90
自引率
11.10%
发文量
2379
审稿时长
16.41 days
期刊介绍: Pharmaceutics (ISSN 1999-4923) is an open access journal which provides an advanced forum for the science and technology of pharmaceutics and biopharmaceutics. It publishes reviews, regular research papers, communications,  and short notes. Covered topics include pharmacokinetics, toxicokinetics, pharmacodynamics, pharmacogenetics and pharmacogenomics, and pharmaceutical formulation. Our aim is to encourage scientists to publish their experimental and theoretical details in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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