牙周炎氧化应激影响的研究进展：生物标志物和有效靶向治疗选择。

Advances of Oxidative Stress Impact in Periodontitis: Biomarkers and Effective Targeting Options.

机构信息

Dental School, National and Kapodistrian University of Athens, 2 Thivon Str, Goudi, Athens, 11527, Greece.

Department of Biological Chemistry, Medical School, National and Kapodistrian University of Athens, 75 M. Asias Street, Athens, 11527, Greece.

出版信息

Curr Med Chem. 2024;31(38):6187-6203. doi: 10.2174/0109298673297545240507091410.

DOI:10.2174/0109298673297545240507091410

PMID:38726786

Abstract

Periodontitis is the most common inflammatory oral disease that affects around 15% of adults and contributes to severe periodontal tissue destruction with subsequent tooth loosening and loss. Among the main pathogenic mechanisms underlying periodontitis, excessive reactive oxygen species production and oxidative stress play a predominant role in inducing both local and systemic damage. Current therapeutic approaches have expanded the conventional methods combined with herbal antioxidant compounds to free radical-scavenging nanomaterials and infrared laser therapy, offering promising pre-clinical evidence in periodontitis management. Herein, we review the pathogenic mechanisms of reactive oxygen species tissue damage, along with recent advances in oxidative stress biomarkers and novel targeting options.

摘要

牙周炎是最常见的炎症性口腔疾病，影响约 15%的成年人，导致严重的牙周组织破坏，随后牙齿松动和脱落。在牙周炎的主要发病机制中，过量的活性氧产生和氧化应激在诱导局部和全身损伤方面起着主要作用。目前的治疗方法已经扩展了传统方法，结合了草药抗氧化化合物、自由基清除纳米材料和红外激光治疗，为牙周炎管理提供了有希望的临床前证据。本文综述了活性氧组织损伤的发病机制，以及氧化应激生物标志物和新的靶向治疗选择的最新进展。

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Advances of Oxidative Stress Impact in Periodontitis: Biomarkers and Effective Targeting Options.牙周炎氧化应激影响的研究进展：生物标志物和有效靶向治疗选择。

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牙周炎氧化应激影响的研究进展：生物标志物和有效靶向治疗选择。

Advances of Oxidative Stress Impact in Periodontitis: Biomarkers and Effective Targeting Options.

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