Łasica Anna, Golec Piotr, Laskus Agnieszka, Zalewska Magdalena, Gędaj Magdalena, Popowska Magdalena
Department of Bacterial Genetics, Institute of Microbiology, Faculty of Biology, University of Warsaw, Warsaw, Poland.
Department of Molecular Virology, Institute of Microbiology, Faculty of Biology, University of Warsaw, Warsaw, Poland.
Front Microbiol. 2024 Sep 26;15:1469414. doi: 10.3389/fmicb.2024.1469414. eCollection 2024.
Inflammatory periodontal diseases associated with the accumulation of dental biofilm, such as gingivitis and periodontitis, are very common and pose clinical problems for clinicians and patients. Gingivitis is a mild form of gum disease and when treated quickly and properly is completely reversible. Periodontitis is an advanced and irreversible disease of the periodontium with periods of exacerbations, progressions and remission. Periodontitis is a chronic inflammatory condition that damages the tissues supporting the tooth in its socket, i.e., the gums, periodontal ligaments, root cementum and bone. Periodontal inflammation is most commonly triggered by bacteria present in excessive accumulations of dental plaque (biofilm) on tooth surfaces. This disease is driven by disproportionate host inflammatory immune responses induced by imbalance in the composition of oral bacteria and changes in their metabolic activities. This microbial dysbiosis favors the establishment of inflammatory conditions and ultimately results in the destruction of tooth-supporting tissues. Apart microbial shift and host inflammatory response, environmental factors and genetics are also important in etiology In addition to oral tissues destruction, periodontal diseases can also result in significant systemic complications. Conventional methods of periodontal disease treatment (improving oral hygiene, dental biofilm control, mechanical plaque removal, using local or systemic antimicrobial agents) are not fully effective. All this prompts the search for new methods of therapy. Advanced periodontitis with multiple abscesses is often treated with antibiotics, such as amoxicillin, tetracycline, doxycycline, minocycline, clindamycin, or combined therapy of amoxicillin with metronidazole. However, due to the growing problem of antibiotic resistance, treatment does not always achieve the desired therapeutic effect. This review summarizes pathogenesis, current approaches in treatment, limitations of therapy and the current state of research on the possibility of application of bacteriophages and predatory bacteria to combat bacteria responsible for periodontitis. We present the current landscape of potential applications for alternative therapies for periodontitis based on phages and bacteria, and highlight the gaps in existing knowledge that need to be addressed before clinical trials utilizing these therapeutic strategies can be seriously considered.
与牙菌斑积聚相关的炎症性牙周疾病,如牙龈炎和牙周炎,非常常见,给临床医生和患者带来了临床问题。牙龈炎是牙龈疾病的一种轻度形式,若能迅速且正确地治疗,完全可以逆转。牙周炎是牙周组织的一种晚期且不可逆的疾病,有加重、进展和缓解期。牙周炎是一种慢性炎症性疾病,会损害牙齿在牙槽窝内的支持组织,即牙龈、牙周韧带、牙根骨质和牙槽骨。牙周炎症最常见的触发因素是牙齿表面过多牙菌斑(生物膜)中存在的细菌。这种疾病是由口腔细菌组成失衡及其代谢活动变化所诱导的不成比例的宿主炎症免疫反应驱动的。这种微生物群落失调有利于炎症状态的形成,并最终导致牙齿支持组织的破坏。除了微生物群落变化和宿主炎症反应外,环境因素和遗传因素在病因学中也很重要。除了口腔组织破坏外,牙周疾病还会导致严重的全身并发症。传统的牙周疾病治疗方法(改善口腔卫生、控制牙菌斑生物膜、机械清除牙菌斑、使用局部或全身抗菌剂)并不完全有效。所有这些都促使人们寻找新的治疗方法。伴有多处脓肿的晚期牙周炎通常用抗生素治疗,如阿莫西林、四环素、强力霉素、米诺环素、克林霉素,或阿莫西林与甲硝唑联合治疗。然而,由于抗生素耐药性问题日益严重,治疗并不总是能达到预期的治疗效果。本综述总结了牙周炎的发病机制、当前的治疗方法、治疗局限性以及关于应用噬菌体和捕食性细菌对抗引起牙周炎的细菌的研究现状。我们展示了基于噬菌体和细菌的牙周炎替代疗法的潜在应用现状,并强调了在认真考虑利用这些治疗策略进行临床试验之前,现有知识中需要填补的空白。
