Jotic Ana, Savic Vujovic Katarina, Cirkovic Andja, Božić Dragana D, Brkic Snezana, Subotic Nikola, Bukurov Bojana, Korugic Aleksa, Cirkovic Ivana
Clinic for Otorhinolaryngology and Maxillofacial Surgery, University Clinical Center Serbia, Pasterova 2, 11000 Belgrade, Serbia.
Faculty of Medicine, University of Belgrade, Dr Subotica 1, 11000 Belgrade, Serbia.
Int J Mol Sci. 2024 Nov 29;25(23):12841. doi: 10.3390/ijms252312841.
Otitis media (OM) is a frequent disease with incidence rate of 5300 cases per 100,000 people. Recent studies showed that polymicrobial biofilm formation represents a significant pathogenic mechanism in recurrent and chronic forms of OM. Biofilm enables bacteria to resist antibiotics that would typically be recommended in guidelines, contributing to the ineffectiveness of current antimicrobial strategies. Given the challenges of successfully treating bacterial biofilms, there is an growing interest in identifying novel and effective compounds to overcome antibacterial resistance. The objective of this review was to provide an overview of the novel compounds with antibiofilm effects on bacterial biofilm formed by clinical isolates of OM. The systematic review included studies that evaluated antibiofilm effect of novel natural or synthetic compounds on bacterial biofilm formed from clinical isolates obtained from patients with OM. The eligibility criteria were defined using the PICOS system: (P) Population: all human patients with bacterial OM; (I) Intervention: novel natural or synthetic compound with biofilm effect; (C) Control standard therapeutic antimicrobial agents or untreated biofilms, (O) Outcome: antibiofilm effect (biofilm inhibition, biofilm eradication), (S) Study design. The PRISMA protocol for systematic reviews and meta-analysis was followed. From 3564 potentially eligible studies, 1817 duplicates were removed, and 1705 were excluded according to defined exclusion criteria. A total of 41 studies with available full texts were retrieved by two independent authors. Fifteen articles were selected for inclusion in the systematic review which included 125 patients with OM. A total of 17 different novel compounds were examined, including N-acetyl-L-cysteine (NAC), tea tree oil, xylitol, eugenol, Aloe barbadensis, Zingiber officinale, Curcuma longa, Acacia arabica, antisense peptide nucleic acids, probiotics and , Sodium 2-mercaptoethanesulfonate (MESNA), bioactive glass, green synthesized copper oxide nanoparticles, radish, silver nanoparticles and acetic acid. was the most commonly studied pathogen, followed by and . Biofilm inhibition only by an examined compound was assessed in six studies; biofilm eradication in four studies, and both biofilm inhibition and biofilm eradication were examined in five studies. This systematic review indicates that some compounds like NAC, prebiotics, nanoparticles and MESNA that have significant effects on biofilm are safe and could be researched more extensively for further clinical use. However, a lack of data about reliable and efficient compounds used in therapy of different types of otitis media still remains in the literature.
中耳炎(OM)是一种常见疾病,发病率为每10万人中有5300例。最近的研究表明,多微生物生物膜的形成是复发性和慢性中耳炎的一个重要致病机制。生物膜使细菌能够抵抗指南中通常推荐使用的抗生素,导致当前抗菌策略失效。鉴于成功治疗细菌生物膜面临的挑战,人们越来越有兴趣寻找新的有效化合物来克服抗菌耐药性。这篇综述的目的是概述对由中耳炎临床分离株形成的细菌生物膜具有抗生物膜作用的新型化合物。该系统评价纳入了评估新型天然或合成化合物对从中耳炎患者获得的临床分离株形成的细菌生物膜的抗生物膜作用的研究。使用PICOS系统定义纳入标准:(P)人群:所有患有细菌性中耳炎的人类患者;(I)干预措施:具有生物膜作用的新型天然或合成化合物;(C)对照:标准治疗性抗菌药物或未处理的生物膜;(O)结局:抗生物膜作用(生物膜抑制、生物膜根除);(S)研究设计。遵循系统评价和荟萃分析的PRISMA方案。从3564项潜在符合条件的研究中,排除了1817项重复研究,并根据定义的排除标准排除了1705项研究。两位独立作者共检索到41篇有全文的研究。15篇文章被选入系统评价,其中包括125例中耳炎患者。共检测了17种不同的新型化合物,包括N-乙酰-L-半胱氨酸(NAC)、茶树油、木糖醇、丁香酚、库拉索芦荟、姜、姜黄、阿拉伯金合欢、反义肽核酸、益生菌以及2-巯基乙烷磺酸钠(MESNA)、生物活性玻璃、绿色合成氧化铜纳米颗粒、萝卜、银纳米颗粒和醋酸。肺炎链球菌是最常被研究的病原体,其次是金黄色葡萄球菌和铜绿假单胞菌。六项研究评估了仅由受试化合物引起的生物膜抑制;四项研究评估了生物膜根除;五项研究同时评估了生物膜抑制和生物膜根除。该系统评价表明,一些对生物膜有显著作用的化合物,如NAC、益生元、纳米颗粒和MESNA是安全的,可以进一步广泛研究以供临床应用。然而,文献中仍然缺乏关于用于治疗不同类型中耳炎的可靠有效化合物的数据。
