低强度激光光生物调节加速正畸牙齿移动的有效性：综述。

Q3 Dentistry

Evidence-based dentistry Pub Date : 2024-11-30 DOI:10.1038/s41432-024-01090-8

Oscar Mauricio Jiménez-Peña, Nestor Ríos-Osorio, Luz Andrea Velandia-Palacio, Gerardo Gómez-Moreno, Marggie Grajales

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引用次数: 0

摘要

光生物调节（PBM）结合低水平激光治疗（LLLT）是一种加速正畸牙齿移动（OTM）的非侵入性方法。一些系统综述（SRs）已经评估了LLLT对OTM加速的有效性。然而，对这些SRs结果的解释和分析是不确定的和不一致的，因为它们的结果存在很大的异质性，主要是由于在初步研究中使用了各种各样的参数。本综述（UR）旨在(i)评估和总结评估LLLT对OTM加速影响的SRs的发现。（ii）建议一个基于证据的协议，其中包含最可预测的OTM加速应用程序LLLT参数。方法：检索自成立至2023年12月的Medline （PubMed）、Web of Science和Scopus。采用AMSTAR-2和ROBIS分别评价方法学质量和偏倚风险。结果：6例SRs符合纳入标准。所有的SRs都表明，带有LLLT的PBM倾向于有效地加速OTM。然而，SRs的高度异质性阻碍了对LLLT对OTM加速影响的精确评估。与OTM加速最相关的参数是LLLT频率：每月至少两次，照射点：4-10点，每点照射时间：3-50秒，输出功率：20-150 mW，能量密度：5.3 J/cm2，波长范围：780-810 nm。偏倚风险评估发现，纳入的SR中有50%具有从不确定到高偏倚风险。类似地，三个特别报告员获得了“极低质量”的评估。结论：尽管本研究中包含的所有SRs表明，与对照组相比，LLLT可能加速OTM。未来研究LLLT对加速OTM的影响的主要目标应该是为LLLT的使用制定标准化的协议，从而开发更可预测的治疗方法。研究方案已在Prospero CRD42024497420上注册。

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Effectiveness of photobiomodulation with low-level lasers on the acceleration of orthodontic tooth movement: an umbrella review.

Introduction: Photobiomodulation (PBM) with low-level laser therapy (LLLT) is a non-invasive method for accelerating orthodontic tooth movement (OTM). Several systematic reviews (SRs) have assessed the effectiveness of LLLT on OTM acceleration. However, the interpretations and analysis of the findings of these SRs are inconclusive and inconsistent due to the substantial heterogeneity of their results, mainly due to the wide variety of parameters employed in the primary studies. This umbrella review (UR) aims to (i) Evaluate and summarize the findings of SRs evaluating the effect of LLLT on OTM acceleration. (ii) Suggest an evidence-based protocol with the most predictable application LLLT parameters for OTM acceleration.

Methods: Medline (PubMed), Web of Science, and Scopus were searched from inception to December 2023. AMSTAR-2 and ROBIS were used to evaluate methodological quality and risk of bias respectively.

Results: Six SRs met the inclusion criteria. All the SRs suggest that PBM with LLLT tends to be effective in accelerating OTM. However, the high heterogeneity of SRs hinders a precise evaluation of the LLLT's effect on OTM acceleration. The parameters most associated with OTM acceleration are LLLT frequency: At least twice a month, irradiation points: 4-10 points, irradiation time per point: 3-50 s, output power: 20-150 mW, energy density: 5.3 J/cm2 and wavelength range:780-810 nm. The risk of bias assessment identified that 50% of the included SR had a risk of bias ranging from uncertain to high. Similarly, three SRs obtained a "Critically low-quality" assessment.

Conclusions: Although, all the SRs included in this UR suggest that LLLT may accelerate OTM in comparison to control groups. The primary goal of future studies examining the influence of LLLT on the acceleration of OTM should be to create standardised protocols for the use of LLLT, allowing the development of more predictable therapies. The research protocol was registered on the Prospero CRD42024497420.

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来源期刊

Evidence-based dentistry Dentistry-Dentistry (all)

CiteScore

2.50

自引率

0.00%

发文量

期刊介绍： Evidence-Based Dentistry delivers the best available evidence on the latest developments in oral health. We evaluate the evidence and provide guidance concerning the value of the author''s conclusions. We keep dentistry up to date with new approaches, exploring a wide range of the latest developments through an accessible expert commentary. Original papers and relevant publications are condensed into digestible summaries, drawing attention to the current methods and findings. We are a central resource for the most cutting edge and relevant issues concerning the evidence-based approach in dentistry today. Evidence-Based Dentistry is published by Springer Nature on behalf of the British Dental Association.