Development of Scaffolds with Chitosan Magnetically Activated with Cobalt Nanoferrite: A Study on Physical-Chemical, Mechanical, Cytotoxic and Antimicrobial Behavior.

IF 4.3 3区 医学 Q2 CHEMISTRY, MEDICINAL
Pharmaceuticals Pub Date : 2024-10-05 DOI:10.3390/ph17101332
Danyelle Garcia Guedes, Gabryella Garcia Guedes, Jessé de Oliveira da Silva, Adriano Lima da Silva, Carlos Bruno Barreto Luna, Bolívar Ponciano Goulart de Lima Damasceno, Ana Cristina Figueiredo de Melo Costa
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Abstract

Background/Objectives: This study investigates the development of 3D chitosan-x-cobalt ferrite scaffolds (x = 5, 7.5, and 10 wt%) with interconnected porosity for potential biomedical applications. The objective was to evaluate the effects of magnetic particle incorporation on the scaffolds' structural, mechanical, magnetic, and biological properties, specifically focusing on their biocompatibility and antimicrobial performance. Methods: Scaffolds were synthesized using freeze-drying, while cobalt ferrite nanoparticles were produced via a pilot-scale combustion reaction. The scaffolds were characterized for their physical and chemical properties, including porosity, swelling, and mechanical strength. Hydrophilicity was assessed through contact angle measurements. Antimicrobial efficacy was evaluated using time kill kinetics and agar diffusion assays, and biocompatibility was confirmed through cytotoxicity tests. Results: The incorporation of cobalt ferrite increased magnetic responsiveness, altered porosity profiles, and influenced swelling, biodegradation, and compressive strength, with a maximum value of 87 kPa at 7.5 wt% ferrite content. The scaffolds maintained non-toxicity and demonstrated bactericidal activity. The optimal concentration for achieving a balance between structural integrity and biological performance was found at 7.5 wt% cobalt ferrite. Conclusions: These findings suggest that magnetic chitosan-cobalt ferrite scaffolds possess significant potential for use in biomedical applications, including tissue regeneration and advanced healing therapies. The incorporation of magnetic properties enhances both the structural and biological functionalities, presenting promising opportunities for innovative therapeutic approaches in reconstructive procedures.

用钴纳米铁氧体磁激活壳聚糖支架的开发:关于物理化学、机械、细胞毒性和抗菌行为的研究
背景/目的:本研究调查了三维壳聚糖-x-钴铁氧体支架(x = 5、7.5 和 10 wt%)的开发情况,该支架具有相互连接的孔隙率,可用于潜在的生物医学应用。目的是评估磁性颗粒的加入对支架的结构、机械、磁性和生物特性的影响,特别是其生物相容性和抗菌性能。研究方法支架采用冷冻干燥法合成,而钴铁氧体纳米粒子则通过中试规模的燃烧反应生产。对支架的物理和化学特性进行了表征,包括孔隙率、膨胀性和机械强度。亲水性通过接触角测量进行评估。抗菌效果通过时间杀灭动力学和琼脂扩散试验进行评估,生物相容性通过细胞毒性试验进行确认。结果钴铁氧体的加入提高了磁响应性,改变了孔隙率曲线,影响了膨胀、生物降解和抗压强度,铁氧体含量为 7.5 wt%时,最大值为 87 kPa。这些支架保持了无毒性并显示出杀菌活性。7.5 wt% 的铁氧体钴含量是实现结构完整性和生物性能平衡的最佳浓度。结论这些研究结果表明,磁性壳聚糖-钴铁氧体支架在生物医学应用方面具有巨大的潜力,包括组织再生和先进的愈合疗法。磁性的加入增强了结构和生物功能,为重建程序中的创新治疗方法提供了大好机会。
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来源期刊
Pharmaceuticals
Pharmaceuticals Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
6.10
自引率
4.30%
发文量
1332
审稿时长
6 weeks
期刊介绍: Pharmaceuticals (ISSN 1424-8247) is an international scientific journal of medicinal chemistry and related drug sciences.Our aim is to publish updated reviews as well as research articles with comprehensive theoretical and experimental details. Short communications are also accepted; therefore, there is no restriction on the maximum length of the papers.
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