正畸微型种植体中糖菌、硝酸盐还原菌和牙周病原相互作用模式的四周评价。

IF 3.1 Q2 DENTISTRY, ORAL SURGERY & MEDICINE

Dentistry Journal Pub Date : 2025-09-04 DOI:10.3390/dj13090405

Boy M Bachtiar, Endang W Bachtiar, Nicholas S Jakubovics, Turmidzi Fath, Sariesendy Sumardi, Nada Ismah, Natalina Haerani, Fatimah Maria Tadjoedin, Zamri Radzi

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引用次数: 0

摘要

背景/目的：正畸微型种植体（MI）创造了新的生态位，可能改变口腔微生物群并调节宿主免疫反应。虽然临床炎症并不总是明显的，但微生物和分子的变化可能先于可见的种植体周围感染迹象。本研究调查了放置心肌梗死后的微生物变化和炎症反应，重点研究了糖菌、硝酸盐还原菌（NRB）和牙周病原。方法：收集8例正畸患者的唾液和微型种植体周围沟液（PMICF），分别在植入微型种植体后基线（T0）、1周（T1）和1个月（T2）采集。从每个唾液和PMICF样本中提取DNA，并在每个时间点汇总8名患者的DNA。然后使用Oxford Nanopore MinION平台对合并的DNA进行16S rRNA基因测序。进行统计分析以确定细菌丰度、多样性和共存模式在不同样本类型（唾液与PMICF）和时间点上的变化。结果：T2时PMICF α多样性下降，而唾液样品α多样性保持稳定。牙周病原（牙龈卟啉单胞菌、牙齿密螺旋体、核梭杆菌）在T2时PMICF中增加，而NRB和糖菌以及代表性宿主细菌（溶牙沙利亚菌）保持相对稳定。共现分析显示sacahribacteria /NRB与牙周病致病菌具有拮抗关系。IL-6从T1到T2明显下降，而CRP呈不显著下降趋势。硝酸还原酶基因narG和napA的表达在不同时间间隔内保持稳定。结论：尽管没有临床炎症，心肌梗死放置导致局部微生物转移和轻度炎症反应。NRB和糖菌的稳定性和对牙周病病原体的拮抗关系可能表明它们可能参与维持微生物稳态。这些发现强调了支持心肌梗死患者口腔健康的可能的早期生物标志物和生态策略。

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Four-Week Evaluation of the Interaction Pattern Among Saccharibacteria, Nitrate-Reducing Bacteria, and Periodontopathogens in Orthodontic Miniscrew Implants.

Background/Objective: Orthodontic mini-implants (MI) create new niches that may alter the oral microbiota and modulate host immune responses. While clinical inflammation is not always evident, microbial and molecular changes may precede visible signs of peri-implant infection. This study investigated microbial shifts and inflammatory responses following MI placement, with a focus on Saccharibacteria, nitrate-reducing bacteria (NRB), and periodontopathogens. Methods: Saliva and peri mini-implant crevicular fluid (PMICF) samples were collected from eight orthodontic patients at baseline (T0), one week (T1), and one month (T2) after mini-implant placement. DNA was extracted from each saliva and PMICF sample and pooled across the eight patients for each time point. The pooled DNA were then subjected to 16S rRNA gene sequencing using the Oxford Nanopore MinION platform. Statistical analysis was performed to determine shifts in bacterial abundance, diversity, and co-occurrence patterns across the different sample types (saliva vs. PMICF) and time points. Results: Alpha diversity decreased in PMICF at T2, while it remained stable in saliva samples. Periodontopathogens (Porphyromonas gingivalis, Treponema denticola, Fusobacterium nucleatum) increased in PMICF at T2, while NRB and Saccharibacteria, along with a representative host bacterium (Schaalia odontolytica), remained relatively stable. Co-occurrence analysis showed antagonistic relationships between Saccahribacteria/NRB and periodontopathogens. IL-6 significantly decreased from T1 to T2, while CRP showed a non-significant downward trend. The expression of nitrate reductase genes narG and napA remained stable across time intervals. Conclusions: Despite no clinical inflammation, MI placement led to localized microbial shift and mild inflammatory responses. NRB and Saccharibacteria's stability and antagonistic relationship to periodontopathogens may indicate that they could be involved in maintaining microbial homeostasis. These findings highlight possible early biomarkers and ecological strategies to support oral health in MI patients.