评估选定纳米复合物在牛乳房炎症病原体控制中的抗菌性、细胞毒性和物理特性。

IF 4.9 Q2 NANOSCIENCE & NANOTECHNOLOGY
Nanotechnology, Science and Applications Pub Date : 2024-03-20 eCollection Date: 2024-01-01 DOI:10.2147/NSA.S447810
Mateusz Wierzbicki, Magdalena Kot, Agata Lange, Aleksandra Kalińska, Marcin Gołębiewski, Sławomir Jaworski
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引用次数: 0

摘要

目的:奶牛乳腺炎是奶制品生产商面临的一个世界性问题。治疗方法主要包括抗生素疗法,然而,由于细菌普遍对抗生素产生抗药性,这种疗法已不再有效。因此,科学家们正在寻找新的解决方案来防治由细菌、真菌和藻类引起的乳腺炎。最有前途的解决方案之一--纳米技术因其杀菌特性而备受研究关注。本研究的目的是确定纳米复合材料的杀菌特性,以此作为抗生素在控制乳腺炎方面的潜在替代品,同时确定纳米颗粒的使用和浓度对饲养者和动物是否安全:本研究评估了Ag、Au、Cu、Fe和Pt纳米颗粒及其复合物对从诊断为乳腺炎的牛身上分离出的细菌和真菌的存活率、理化性质以及对牛和人乳腺上皮细胞BME-UV1和HMEC(人微血管内皮细胞)的毒性的影响。此外,还使用藻酸盐珠(生物打印)模型评估了大肠杆菌、金黄色葡萄球菌、白僵菌和原生动物的侵袭情况。金、银、铜和铁 NPs 的测试浓度分别为 25、12.5、6.25、3.125 和 1.56 毫克/升,铂的测试浓度分别为 10、5、2.5、1.25 和 0.625 毫克/升:结果:除铁和铂外,其他纳米粒子都具有杀灭分离菌的特性,而银铜复合物的效果最好。此外,纳米粒子还显示出协同效应,而低浓度纳米粒子对 BME-UV1 和 HMEC 细胞没有毒性作用:纳米粒子具有协同效应,对牛和人体细胞无毒性,未来可能成为对抗乳腺炎微生物的有效替代品,将研究成果应用于实践将降低奶牛患乳腺炎的比例。抗生素耐药性不断增加的问题正在对人类和动物的健康构成全球性威胁,因此需要进行全面研究,以评估纳米颗粒(尤其是其复合物)的潜在用途,并确定纳米颗粒对饲养者和动物是否安全。通过开展一系列研究,可以进一步考虑在实践中使用所取得的成果,从而在治疗和预防奶牛乳腺炎方面创造出一种可能替代抗生素的新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of the Antimicrobial, Cytotoxic, and Physical Properties of Selected Nano-Complexes in Bovine Udder Inflammatory Pathogen Control.

Purpose: Mastitis in dairy cows is a worldwide problem faced by dairy producers. Treatment mainly involves antibiotic therapy, however, due to widespread antibiotic resistance among bacteria, such treatments are no longer effective. For this reason, scientists are searching for new solutions to combat mastitis, which is caused by bacteria, fungi, and algae. One of the most promising solutions, nanotechnology, is attracting research due to its biocidal properties. The purpose of this research was to determine the biocidal properties of nanocomposites as a potential alternative to antibiotics in the control of mastitis, as well as to determine whether the use of nanoparticles and what concentration is safe for the breeder and the animal.

Patients and methods: In this study, the effects of Ag, Au, Cu, Fe, and Pt nanoparticles and their complexes were evaluated in relation to the survival of bacteria and fungi isolated from cattle diagnosed with mastitis, their physicochemical properties, and their toxicity to bovine and human mammary epithelial cells BME-UV1 and HMEC (human microvascular endothelial cells). Moreover, E. coli, S. aureus, C. albicans, and Prototheca sp. invasion was assessed using the alginate bead (bioprinted) model. The NPs were tested at concentrations of 25, 12.5, 6.25, 3.125, 1.56 mg/l for Au, Ag, Cu and Fe NPs, and 10, 5, 2.5, 1.25, 0.625 mg/l for Pt.

Results: With the exception of Fe and Pt, all exhibited biocidal properties against isolates, while the AgCu complex had the best effect. In addition, nanoparticles showed synergistic effects, while the low concentrations had no toxic effect on BME-UV1 and HMEC cells.

Conclusion: Synergistic effects of nanoparticles and no toxicity to bovine and human cells might, in the future, be an effective alternative in the fight against microorganisms responsible for mastitis, and the implementation of research results in practice would reduce the percentage of dairy cows suffering from mastitis. The problem of increasing antibiotic resistance is posing a global threat to human's and animal's health, and requires comprehensive research to evaluate the potential use of nanoparticles - especially their complexes - as well as to determine whether nanoparticles are safe for the breeders and the animals. The conducted series of studies allows further consideration of the use of the obtained results in practice, creating a potentially new alternative to antibiotics in the treatment and prevention of mastitis in dairy cattle.

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来源期刊
Nanotechnology, Science and Applications
Nanotechnology, Science and Applications NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
11.70
自引率
0.00%
发文量
3
审稿时长
16 weeks
期刊介绍: Nanotechnology, Science and Applications is an international, peer-reviewed, Open Access journal that focuses on the science of nanotechnology in a wide range of industrial and academic applications. The journal is characterized by the rapid reporting of reviews, original research, and application studies across all sectors, including engineering, optics, bio-medicine, cosmetics, textiles, resource sustainability and science. Applied research into nano-materials, particles, nano-structures and fabrication, diagnostics and analytics, drug delivery and toxicology constitute the primary direction of the journal.
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