Acceleration in healing of infected full-thickness wound with novel antibacterial γ-AlOOH-based nanocomposites.

IF 4.4 3区 医学 Q2 ENGINEERING, BIOMEDICAL Progress in Biomaterials Pub Date : 2023-06-01 Epub Date: 2023-01-04 DOI:10.1007/s40204-022-00216-4
Hilda Parastar, Mohammad Reza Farahpour, Rasoul Shokri, Saeed Jafarirad, Mohsen Kalantari
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引用次数: 0

Abstract

This study was conducted to synthesize γ-AlOOH (bohemite)-based nanocomposites (NCs) of Au/γ-AlOOH-NC and its functionalized derivative using chitosan (Au/γ-AlOOH/Ctn-NC) and with the help of one-step Mentha piperita. The physicochemical characteristics of the NCs were investigated. In addition, biomedical properties, such as antibacterial activity under in vitro and in vivo conditions, and cell viability were assessed. Wound healing activity on infected wounds and histological parameters were assessed. The gene expressions of TNF-α, Capase 3, Bcl-2, Cyclin-D1 and FGF-2 were investigated. The TEM and FESEM images showed the sheet-like structure for bohemite in Au/γ-AlOOH-NC with Au nanoparticles in a range of 14-15 nm. The elemental analysis revealed the presence of carbon, oxygen, aluminum, and Au elements in the as-synthesized Au/γ-AlOOH. The results for toxicity showed that the produced nanocomposites did not show any cytotoxicity. Biomedical studies confirmed that Au/γ-AlOOH-NC and Au/γ-AlOOH/Ctn-NC have anti-bacterial properties and could expedite the wound healing process in infected wounds by an increase in collagen biosynthesis. The administration of ointment containing Au/γ-AlOOH-NC and Au/γ-AlOOH/Ctn-NC decreased the expressions of TNF-α, and increased the expressions of Capase 3, Bcl-2, Cyclin-D1 and FGF-2. The novelty of this study was that bohemite and Au nanoparticles can be used as a dressing to accelerate the wound healing process. In green synthesis of Au/γ-AlOOH-NC, phytochemical compounds of the plant extract are appropriate reagents for stabilization and the production of Au/γ-AlOOH-NC. Therefore, the new bohemite-based NCs can be considered as candidate for treatment of infected wounds after future clinical studies.

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用新型抗菌γ-AlOOH基纳米复合材料加速感染性全厚伤口愈合
本研究利用壳聚糖(Au/γ-AlOOH/Ctn-NC)并在一步法薄荷的帮助下,合成了基于γ-AlOOH(波希米特)的金/γ-AlOOH-NC及其功能化衍生物纳米复合材料(NCs)。研究了 NC 的物理化学特性。此外,还评估了生物医学特性,如体外和体内条件下的抗菌活性以及细胞活力。还评估了感染伤口的愈合活性和组织学参数。研究了 TNF-α、Capase 3、Bcl-2、Cyclin-D1 和 FGF-2 的基因表达。TEM 和 FESEM 图像显示,Au/γ-AlOOH-NC 中的波美度石具有片状结构,金纳米颗粒的范围为 14-15 nm。元素分析表明,合成的 Au/γ-AlOOH 中含有碳、氧、铝和金元素。毒性研究结果表明,所制备的纳米复合材料没有任何细胞毒性。生物医学研究证实,Au/γ-AlOOH-NC 和 Au/γ-AlOOH/Ctn-NC 具有抗菌特性,并能通过增加胶原蛋白的生物合成加速感染伤口的愈合过程。使用含 Au/γ-AlOOH-NC 和 Au/γ-AlOOH/Ctn-NC 的软膏可降低 TNF-α 的表达,增加 Capase 3、Bcl-2、Cyclin-D1 和 FGF-2 的表达。这项研究的新颖之处在于,波希米和金纳米粒子可用作敷料,加速伤口愈合过程。在 Au/γ-AlOOH-NC 的绿色合成中,植物提取物中的植物化学物质是稳定和生产 Au/γ-AlOOH-NC 的合适试剂。因此,在未来的临床研究中,新的波美度石基 NC 可被视为治疗感染伤口的候选材料。
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来源期刊
Progress in Biomaterials
Progress in Biomaterials MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
9.60
自引率
4.10%
发文量
35
期刊介绍: Progress in Biomaterials is a multidisciplinary, English-language publication of original contributions and reviews concerning studies of the preparation, performance and evaluation of biomaterials; the chemical, physical, biological and mechanical behavior of materials both in vitro and in vivo in areas such as tissue engineering and regenerative medicine, drug delivery and implants where biomaterials play a significant role. Including all areas of: design; preparation; performance and evaluation of nano- and biomaterials in tissue engineering; drug delivery systems; regenerative medicine; implantable medical devices; interaction of cells/stem cells on biomaterials and related applications.
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Chitosan scaffolds with mesoporous hydroxyapatite and mesoporous bioactive glass. Correction to: Sustained release of valproic acid loaded on chitosan nanoparticles within hybrid of alginate/chitosan hydrogel with/without stem cells in regeneration of spinal cord injury. Anticancer potential of biologically synthesized silver nanoparticles using Lantana camara leaf extract. Sustained release of valproic acid loaded on chitosan nanoparticles within hybrid of alginate/chitosan hydrogel with/without stem cells in regeneration of spinal cord injury. Acceleration in healing of infected full-thickness wound with novel antibacterial γ-AlOOH-based nanocomposites.
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