Evaluation of the Antibacterial Effects of the Various Nanoparticles Coated Orthodontic Brackets: A Systematic Review and Meta-analysis

Navid Kerayechian; Arkia Mardany; Faezeh Bahraini; Fatemeh Teimoori; Maryam Ahmadi; Ali Amiri

Evaluation of the Antibacterial Effects of the Various Nanoparticles Coated Orthodontic Brackets: A Systematic Review and Meta-analysis

Navid Kerayechian ^[1] ; Arkia Mardany ^[2] ; Faezeh Bahraini ^[3] ; Fatemeh Teimoori ^[4] ; Maryam Ahmadi ^[2] ; Ali Amiri ^[5]
1. [1] New York University
  
  New York University
  
  Estados Unidos
2. [2] Islamic Azad University
  
  Islamic Azad University
  
  Irán
3. [3] Shiraz University of Medical Sciences
  
  Shiraz University of Medical Sciences
  
  Irán
4. [4] Orthodontist, Private Clinic, Isfahan, Iran
5. [5] Department of Orthodontics, College of Stomatology, The First Affiliated Stomatological Hospital, Xi’an Jiaotong University, Xi’an, PR China
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Localización: Academic Journal of Health Sciences: Medicina Balear, ISSN-e 2255-0560, Vol. 38, Nº. 4, 2023, págs. 107-114
Idioma: inglés
DOI: 10.3306/AJHS.2023.38.04.107
Títulos paralelos:
- Evaluación de los efectos antibacterianos de los diversos brackets de ortodoncia recubiertos con nanopartículas: Una revisión sistemática y metanálisis
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- Texto completo (pdf)
Resumen
- español
  Objetivos: En este estudio se investigó la actividad antibacteriana de las nanopartículas (NP) de óxido de zinc (ZnO) y plata (Ag) para presentar los logros en este campo con el consenso de los resultados. Esta revisión sistemática y metanálisis aclararon el potencial antibacteriano de los brackets de ortodoncia recubiertos con NPs de óxido de zinc y plata.
  
  Métodos: La lista de verificación PRISMA 2020 fue la base para realizar la revisión sistemática y el metanálisis actuales. La estrategia de búsqueda fue examinar las bases de datos relevantes en PubMed, Embase, Web of Science, Scopus, ISI Web of Knowledge y EBSCO desde el inicio hasta el 1 de noviembre de 2022. Calculamos un intervalo de confianza del 95% (IC del 95%) para la diferencia de medias (MD) basado en el modelo de efectos fijos y el método de la varianza inversa. Se aplicó el software Stata/MP versión 17 para realizar el metanálisis.
  
  Resultados: en la búsqueda inicial, se eliminaron los estudios duplicados y se presentaron los resúmenes de 209 artículos relevantes separados. Dos autores individuales revisaron el texto completo de 32 artículos, lo que resultó en los ocho artículos finales. La diferencia media (DM) del efecto antibacteriano de los recubrimientos de brackets contra L. acidophilus entre el recubrimiento de AgNP y los controles se estimó en 2,71 (DM, 2,71; IC del 95%: 2,05-3,37; p=0,00). La diferencia media (DM) del potencial antibacteriano de los recubrimientos de brackets contra S. mutans entre el recubrimiento de ZnONP y los controles se estimó en -275,54 (DM, -275,54, IC del 95%: -281,23, -269,85; p = 0,00).
  
  Conclusiones: Los resultados de nuestro metanálisis revelaron que los brackets recubiertos con Ag, ZnO y Ag/ZnO NPs tenían actividad antibacteriana contra L. acidophilus y S. mutans en comparación con los brackets sin recubrimiento.
- English
  Objectives: The antibacterial activity of zinc oxide (ZnO) and silver (Ag) nanoparticles (NPs) has been investigated in this study to present achievements in this field with the consensus of outcomes. This systematic review and meta-analysis clarified the antibacterial potential of silver, zinc-oxide NPs-coated Orthodontic Brackets.
  
  Methods: PRISMA 2020 Checklist was the basis for performing the current systematic review and meta-analysis. The search strategy was to screen the relevant databases on PubMed, Embase, Web of Science, Scopus, ISI Web of knowledge, and EBSCO from inception until 1 November 2022. We calculated a 95% confidence interval (95%CI) for the mean difference (MD) based on the fixed effect model and Inverse-variance method. Stata/MP version 17 software was applied to conduct the meta-analysis.
  
  Results: In the initial search, duplicate studies were removed, and the abstracts of 209 separate relevant articles were presented.
  
  Two individual authors reviewed the full text of 32 articles, resulting in the final eight articles. The mean difference (MD) of the antibacterial effect of bracket coatings against L. acidophilus between AgNPs coating and the controls was estimated at 2.71 (MD, 2.71 95%CI 2.05-3.37; p=0.00). The mean difference (MD) of the antibacterial potential of bracket coatings against S. mutans between ZnONPs coating and the controls was estimated to be -275.54 (MD, -275.54 95%CI -281.23, -269.85; p=0.00).
  
  Conclusions: The results of our meta-analysis revealed that Ag, ZnO, and Ag/ZnO NPs-coated brackets had antibacterial activity against L. acidophilus and S. mutans compared to uncoated brackets.
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