A Robust Strategy Against Multi-Resistant Pathogens in Oral Health: Harnessing the Potency of Antimicrobial Peptides in Nanofiber-Mediated Therapies

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Karthikeyan Kandaswamy, Raghunandhakumar Subramanian, Jayant Giri, Ajay Guru, Jesu Arockiaraj
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Abstract

A robust strategy is imperative to counteract multi-resistant pathogens within the oral cavity and mitigate the occurrence of dental-related diseases. According to the recent Global Oral Health Status Report (2022), over 3.5 billion individuals worldwide have been affected, with more than 2 billion experiencing permanent tooth caries. Despite employing various techniques to combat oral pathogens, these microbes persistently proliferate, culminating in biofilm formation that exhibits resistance to conventional antibiotics. Moreover, there is a notable surge in the rate of implant failure attributable to peri-implantitis. Peptide therapy emerges as a promising and enduring solution, demonstrating adaptability to diverse techniques. The pivotal technique involving Antimicrobial peptides (AMPs) orchestrates damage to the extracellular matrix, encompassing the glucan matrix, disrupting microbial content, and inducing pathogen demise. Notably, AMPs actively participate in the intricate process of oral tissue healing. Nanofibers, characterized by their multifaceted properties and robust mechanical capacity, facilitate protracted drug delivery and manifest optimal biocompatibility. This inherent attribute stimulates the application of AMPs, thereby augmenting healing durations and ensuring sustained therapeutic efficacy against oral diseases. The primary focus of this review centers on Antimicrobial peptides (AMPs) integrated into Nanofibers, offering a comprehensive clinical solution to diverse dental-mediated diseases. The exploration of various AMPs and their modes of action, coupled with the efficacy of peptide durability, sets the stage for futuristic enhancements in oral health therapeutics.

Abstract Image

应对口腔疾病中多重耐药病原体的有力策略:利用纳米纤维疗法中抗菌肽的功效
要抵御口腔中的多重耐药病原体,减少牙科相关疾病的发生,必须采取强有力的战略。根据最近发布的《全球口腔健康状况报告(2022 年)》,全球有超过 35 亿人受到影响,其中超过 20 亿人患有永久性龋齿。尽管采用了各种技术来对付口腔病原体,但这些微生物仍在持续增殖,最终形成生物膜,对传统抗生素产生抗药性。此外,种植体周围炎导致的种植失败率也在显著上升。肽疗法是一种前景广阔的持久性解决方案,可适应各种不同的技术。抗菌肽(AMPs)是一种关键技术,它能破坏细胞外基质,包括葡聚糖基质,破坏微生物成分,诱导病原体死亡。值得注意的是,AMPs 积极参与口腔组织愈合的复杂过程。纳米纤维具有多方面的特性和强大的机械能力,可促进药物的持久输送,并表现出最佳的生物相容性。这一固有特性可促进 AMPs 的应用,从而延长愈合时间,确保对口腔疾病的持续疗效。本综述的主要重点是将抗菌肽 (AMP) 集成到纳米纤维中,为各种牙科疾病提供全面的临床解决方案。对各种 AMP 及其作用模式的探索,再加上肽耐久性的功效,为口腔健康疗法的未来发展奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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