Development and in vitro evaluation of a lignin-PLGA nanocarrier for florfenicol delivery.

IF 1.8 3区 农林科学 Q2 VETERINARY SCIENCES
Emilia Trif, Carlos E Astete, Sumit Libi, Emoke Pall, Septimiu Tripon, Cristina Coman, Diana Olah, Adrian Valentin Potârniche, Cristina M Sabliov, Constantin Cerbu
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Abstract

Florfenicol (FF) is a widely used antimicrobial in veterinary medicine because of its broad antimicrobial activity, although it has certain limitations and raises concerns about the development of antimicrobial resistance genes. These limitations highlight the need to explore novel drug with controlled release systems to enhance the therapeutic efficacy of FF, while minimizing the potential for resistance development. This study introduces an innovative approach for the design, synthesis, and evaluation of lignin-poly(lactic-co-glycolic) acid (PLGA)-FF nanoparticles. By leveraging the properties of PLGA and lignin, this study aimed to augment the solubility, stability, and bioavailability of FF, thereby enabling dosage reduction and consequently diminishing the likelihood of resistance emergence and other limitations. Lignin-PLGA nanoparticles encapsulating FF were synthesized and characterized to assess their physicochemical properties, such as particle size, zeta potential, and drug loading efficiency. The release profile, antimicrobial efficacy, and cytotoxicity were evaluated. Comparative analyses with standard FF formulations were performed to ascertain the superior performance and potential benefits of the nanoparticle-based antimicrobials. Our findings indicate that the synthesized lignin-PLGA nanoparticles exhibited favorable drug delivery attributes, including a controlled and sustained release mechanism, significantly enhanced antimicrobial activity at reduced concentrations relative to free FF, with minimal cytotoxic effects. Importantly, the nanoparticle system inhibited bacterial biofilm formation, which is a key factor in the onset and spread of antimicrobial resistance. These findings underscore the potential of integrating biodegradable polymers with natural compounds to forge innovative pathways in drug delivery, addressing critical challenges in veterinary medicine.

用于氟苯尼考递送的木质素-PLGA 纳米载体的开发和体外评估
氟苯尼考(Florfenicol,FF)具有广泛的抗菌活性,是兽医学中广泛使用的一种抗菌药,但它也有一定的局限性,并引发了对抗菌药耐药性基因发展的担忧。这些局限性凸显了探索新型药物控释系统的必要性,以提高 FF 的疗效,同时最大限度地降低耐药性产生的可能性。本研究介绍了一种设计、合成和评估木质素-聚乳酸-乙醇酸(PLGA)-FF 纳米颗粒的创新方法。本研究旨在利用 PLGA 和木质素的特性,提高 FF 的溶解度、稳定性和生物利用度,从而减少用量,进而降低出现耐药性和其他限制因素的可能性。研究人员合成了包裹 FF 的木质素-PLGA 纳米粒子,并对其理化性质(如粒度、ZETA 电位和药物负载效率)进行了表征。此外,还评估了释放曲线、抗菌功效和细胞毒性。我们还进行了与标准 FF 制剂的对比分析,以确定纳米颗粒抗菌剂的卓越性能和潜在优势。我们的研究结果表明,合成的木质素-PLGA 纳米粒子具有良好的给药特性,包括可控和持续的释放机制,在相对于游离 FF 浓度较低的情况下显著增强了抗菌活性,而且细胞毒性极低。重要的是,纳米粒子系统抑制了细菌生物膜的形成,而生物膜是抗菌药耐药性产生和传播的关键因素。这些发现凸显了将生物可降解聚合物与天然化合物相结合,开辟创新给药途径的潜力,从而应对兽医领域的严峻挑战。
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来源期刊
Veterinary Research Communications
Veterinary Research Communications 农林科学-兽医学
CiteScore
2.50
自引率
0.00%
发文量
173
审稿时长
3 months
期刊介绍: Veterinary Research Communications publishes fully refereed research articles and topical reviews on all aspects of the veterinary sciences. Interdisciplinary articles are particularly encouraged, as are well argued reviews, even if they are somewhat controversial. The journal is an appropriate medium in which to publish new methods, newly described diseases and new pathological findings, as these are applied to animals. The material should be of international rather than local interest. As it deliberately seeks a wide coverage, Veterinary Research Communications provides its readers with a means of keeping abreast of current developments in the entire field of veterinary science.
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