School of Biomedical Sciences, Faculty of Medicine, The Chinese University of Hong Kong, Hong Kong (SAR), China.
Department of Microbiology, Faculty of Medicine, The Chinese University of Hong Kong, Hong Kong (SAR), China.
Eur J Med Chem. 2020 Aug 15;200:112341. doi: 10.1016/j.ejmech.2020.112341. Epub 2020 May 13.
The high prevalence of methicillin-resistant Staphylococcus aureus (MRSA) causing skin and soft tissue infections in both the community and healthcare settings challenges the limited options of effective antibiotics and motivates the search for alternative therapeutic solutions, such as antibacterial photodynamic therapy (aPDT). While many publications have described the promising anti-bacterial activities of PDT in vitro, its applications in vivo and in the clinic have been very limited. This limited availability may in part be due to variabilities in the selected photosensitizing agents (PS), the variable testing conditions used to examine anti-bacterial activities and their effectiveness in treating MRSA infections. We thus sought to systematically review and examine the evidence from existing studies on aPDT associated with MRSA and to critically appraise its current state of development and areas to be addressed in future studies. In 2018, we developed and registered a review protocol in the International Prospective Register of Systematic Reviews (PROSPERO) with registration No: CRD42018086736. Three bibliographical databases were consulted (PUBMED, MEDLINE, and EMBASE), and a total of 113 studies were included in this systematic review based on our eligibility criteria. Many variables, such as the use of a wide range of solvents, pre-irradiation times, irradiation times, light sources and light doses, have been used in the methods reported by researchers, which significantly affect the inter-study comparability and results. On another note, new approaches of linking immunoglobulin G (IgG), antibodies, efflux pump inhibitors, and bacteriophages with photosensitizers (PSs) and the incorporation of PSs into nano-scale delivery systems exert a direct effect on improving aPDT. Enhanced activities have also been achieved by optimizing the physicochemical properties of the PSs, such as the introduction of highly lipophilic, poly-cationic and site-specific modifications of the compounds. However, few in vivo studies (n = 17) have been conducted to translate aPDT into preclinical studies. We anticipate that further standardization of the experimental conditions and assessing the efficacy in vivo would allow this technology to be further applied in preclinical trials, so that aPDT would develop to become a sustainable, alternative therapeutic option against MRSA infection in the future.
耐甲氧西林金黄色葡萄球菌(MRSA)引起的皮肤和软组织感染在社区和医疗机构中普遍存在,这对有限的有效抗生素选择提出了挑战,并促使人们寻找替代治疗方法,如抗菌光动力疗法(aPDT)。虽然许多出版物都描述了 PDT 在体外具有有前途的抗菌活性,但它在体内和临床中的应用非常有限。这种可用性有限可能部分归因于所选光敏剂(PS)的可变性、用于检查抗菌活性及其治疗 MRSA 感染效果的可变测试条件以及它们的可变性。因此,我们试图系统地审查和检查现有关于与 MRSA 相关的 aPDT 的研究证据,并批判性地评估其当前的发展状况和未来研究中需要解决的领域。2018 年,我们在国际前瞻性系统评价注册库(PROSPERO)中制定并注册了一份审查方案,注册号为 CRD42018086736。我们查阅了三个文献数据库(PUBMED、MEDLINE 和 EMBASE),根据我们的纳入标准,共有 113 项研究纳入了本系统评价。研究人员报告的方法中使用了许多变量,例如使用广泛的溶剂、预辐照时间、辐照时间、光源和光剂量,这极大地影响了研究之间的可比性和结果。另一方面,将免疫球蛋白 G(IgG)、抗体、外排泵抑制剂和噬菌体与光敏剂(PS)结合以及将 PS 纳入纳米级递药系统的新方法直接影响改善 aPDT。通过优化 PS 的物理化学性质,如引入高亲脂性、多阳离子和化合物的位点特异性修饰,也实现了增强的活性。然而,仅有少数(n=17)体内研究已转化为临床前研究。我们预计,进一步标准化实验条件并评估体内疗效将使这项技术能够进一步应用于临床前试验,从而使 aPDT 发展成为未来治疗耐甲氧西林金黄色葡萄球菌感染的可持续替代治疗选择。
