Nanotheranostics to target antibiotic-resistant bacteria: Strategies and applications

Q2 Pharmacology, Toxicology and Pharmaceutics OpenNano Pub Date : 2023-05-01 DOI:10.1016/j.onano.2023.100138
Rahul Bhattacharjee , Arvind Negi , Basudha Bhattacharya , Tanima Dey , Priya Mitra , Subham Preetam , Lamha Kumar , Sulagna Kar , Sabya Sachi Das , Danish Iqbal , Mehnaz Kamal , Fayez Alghofaili , Sumira Malik , Abhijit Dey , Saurabh Kumar Jha , Shreesh Ojha , Ana Cláudia Paiva-Santos , Kavindra Kumar Kesari , Niraj Kumar Jha
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引用次数: 7

Abstract

Various health agencies, such as the European Medical Agency (EMA), Centers for Disease Control and Prevention (CDC), and World Health Organization (WHO), timely cited the upsurge of antibiotic resistance as a severe threat to the public health and global economy. Importantly, there is a rise in nosocomial infections among covid-19 patients and in-hospitalized patients with the delineating disorder. Most of nosocomial infections are related to the bacteria residing in biofilm, which are commonly formed on material surfaces. In biofilms, microcolonies of various bacteria live in syntropy; therefore, their infections require a higher antibiotic dosage or cocktail of broad-spectrum antibiotics, aggravating the severity of antibiotic resistance. Notably, the lack of intrinsic antibacterial properties in commercial-grade materials desires to develop newer functionalized materials to prevent biofilm formation on their surfaces. To devise newer strategies, materials prepared at the nanoscale demonstrated reasonable antibacterial properties or enhanced the activity of antimicrobial agents (that are encapsulated/chemically functionalized onto the material surface). In this manuscript, we compiled such nanosized materials, specifying their role in targeting specific strains of bacteria. We also enlisted the examples of nanomaterials, nanodevice, nanomachines, nano-camouflaging, and nano-antibiotics for bactericidal activity and their possible clinical implications.

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靶向耐药细菌的纳米治疗:策略和应用
各种卫生机构,如欧洲医疗机构(EMA)、疾病控制和预防中心(CDC)和世界卫生组织(WHO)及时指出,抗生素耐药性的上升是对公共卫生和全球经济的严重威胁。重要的是,covid-19患者和住院患者的医院感染有所上升。大多数医院感染与居住在生物膜中的细菌有关,生物膜通常形成于材料表面。在生物膜中,各种细菌的微菌落以共生性生活;因此,他们的感染需要更高的抗生素剂量或混合使用广谱抗生素,这加剧了抗生素耐药性的严重程度。值得注意的是,商业级材料缺乏固有的抗菌性能,因此需要开发更新的功能化材料来防止其表面形成生物膜。为了设计更新的策略,在纳米尺度上制备的材料显示出合理的抗菌性能或增强抗菌剂的活性(被封装/化学功能化到材料表面)。在这篇论文中,我们编译了这些纳米材料,并详细说明了它们在针对特定菌株的细菌中的作用。我们还列举了纳米材料、纳米器件、纳米机器、纳米伪装和纳米抗生素的杀菌活性及其可能的临床意义。
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来源期刊
OpenNano
OpenNano Medicine-Pharmacology (medical)
CiteScore
4.10
自引率
0.00%
发文量
63
审稿时长
50 days
期刊介绍: OpenNano is an internationally peer-reviewed and open access journal publishing high-quality review articles and original research papers on the burgeoning area of nanopharmaceutics and nanosized delivery systems for drugs, genes, and imaging agents. The Journal publishes basic, translational and clinical research as well as methodological papers and aims to bring together chemists, biochemists, cell biologists, material scientists, pharmaceutical scientists, pharmacologists, clinicians and all others working in this exciting and challenging area.
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