Effect of Fixed Orthodontic Treatment on Oral Microbiota and Salivary Proteins

Overview

Journal Exp Ther Med

Specialty Pathology

Date 2019 Apr 17

PMID 30988796

Citations 17

Authors

Dian Jing

Jin Hao

Yu Shen

Ge Tang

Lei Lei

Zhihe Zhao

Affiliations

Soon will be listed here.

Abstract

The aim of the present prospective comparative cohort study was to analyze changes in (.) and in the saliva of patients with fixed orthodontics. Salivary parameters, including secretory immunoglobulin A (sIgA), myeloperoxidase (MPO) and lactate dehydrogenase (LDH), were investigated during orthodontic treatment, as well as immune response and inflammatory processes. A total of 15 patients were included and treated with fixed appliances. Whole saliva was obtained at four time-points: Prior to bonding (T1), 3 months after bonding (T2), 6 months after bonding (T3) and 18 months after bonding (T4). Quantitative polymerase chain reaction was performed to evaluate changes in total bacteria, and DNA in saliva. ELISA was applied to measure sIgA, MPO and LDH levels. The level of total bacteria remained stable during the 18-month treatment period, and the quantity of exhibited a slight but non-significant increase. remained stable over the first 6 months and significantly increased at T4 (P<0.05), and there was a significant difference in levels between two types of braces. A higher level of was found in patients with conventional braces, as compared to those with self-ligating braces (P<0.05) who exhibited an unchanged level of during this period. The amount of sIgA, MPO and LDH remained constant during the orthodontic treatment period. No correlation was detected between sIgA and bacterial quantity. In conclusion, in patients with conventional braces increased significantly in the late period of treatment, which indicated that white spot lesions may occur after long-term orthodontic treatment. As the type of braces may be considered a latent influencing factor, self-ligating braces should be preferred. However, the effect of fixed orthodontic treatment on and sIgA, MPO and LDH in the oral microenvironment was insignificant (Chinese Clinical Trial Registry no. ChiCTR-RCH-13003295).

Citing Articles

Dynamics of the oral microbiome during orthodontic treatment and antimicrobial advances for orthodontic appliances.

Niu Q, Chen S, Bai R, Lu Y, Peng L, Han B iScience. 2024; 27(12):111458.

PMID: 39720528 PMC: 11667053. DOI: 10.1016/j.isci.2024.111458.

Dynamic effects of fixed orthodontic treatment on oral health and oral microbiota: a prospective study.

Zhao M, Yu C, Su C, Wang H, Wang X, Weir M BMC Oral Health. 2024; 24(1):1537.

PMID: 39709380 PMC: 11662850. DOI: 10.1186/s12903-024-05356-6.

Changes in the Oral Microbiota with the Use of Aligners vs. Braces: A Systematic Review.

Espana-Pamplona P, Bernes-Martinez L, Andres-Castello C, Bolas-Colvee B, Adobes-Martin M, Garcovich D J Clin Med. 2024; 13(23).

PMID: 39685893 PMC: 11642593. DOI: 10.3390/jcm13237435.

Effect of adding arginine at different concentrations to experimental orthodontic resins: an in vitro study.

Santos A, Correr-Sobrinho L, Tsuzuki F, Facury Ferraz A, Neves J, Sinhoreti M Braz Oral Res. 2024; 38:e078.

PMID: 39258631 PMC: 11376598. DOI: 10.1590/1807-3107bor-2024.vol38.0078.

White Spot Lesions in Fixed Orthodontics: A Literature Review on Etiology, Prevention, and Treatment.

Al-Blaihed D, El Meligy O, Baghlaf K, Aljawi R, Abudawood S Cureus. 2024; 16(7):e65679.

PMID: 39205762 PMC: 11356355. DOI: 10.7759/cureus.65679.

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