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不同激光系统对黏附于牙种植体表面细菌的杀菌效果:体外比较氧化锆和钛的研究

Bactericidal effects of different laser systems on bacteria adhered to dental implant surfaces: an in vitro study comparing zirconia with titanium.

机构信息

Institute of Preventive Dentistry and Oral Microbiology, School of Dental Medicine, University of Basel, Hebelstrasse, Basel, Switzerland. :

出版信息

Clin Oral Implants Res. 2010 Mar;21(3):277-83. doi: 10.1111/j.1600-0501.2009.01835.x. Epub 2010 Jan 13.

DOI:10.1111/j.1600-0501.2009.01835.x
PMID:20074248
Abstract

OBJECTIVES

The purpose of this study was to examine in vitro the anti-bacterial efficacy of two different laser systems (CO(2) and diode) applied to Streptococcus sanguinis or Porphyromonas gingivalis cells in suspensions or adhered to zirconia or titanium dental implant materials, with two different surfaces each.

MATERIALS AND METHODS

Bacteria were irradiated at two different power settings with either a CO(2) (lambda=10,600 nm) or a diode laser (lambda=810 nm). The lower mode is used clinically (for CO(2) 100 J/cm(2), diode 50 J/cm(2)) and the higher may alter the materials' surface (for CO(2) 1200 J/cm(2), diode 150 J/cm(2)). After irradiation, the number of viable bacteria was determined by culture.

RESULTS

Planktonic cells of both species were more resistant to the laser irradiations than bacteria that adhered to surfaces. Adhered P. gingivalis were effectively killed at both wavelengths lambda=10,600 and 810 nm even at the lower settings, independent of the material. S. sanguinis cells that adhered to either zirconia surface were effectively killed by the CO(2) laser at the lower setting of 100 J/cm(2). However, the higher settings of both lasers were needed to reduce S. sanguinis that adhered to titanium surfaces. The CO(2) laser at the lower setting and the diode laser at the higher setting effectively reduced the viability of S. sanguinis or P. gingivalis that adhered to zirconia surfaces.

CONCLUSIONS

Under irradiation conditions known not to alter zirconia implant surfaces in vitro, both CO(2) laser (100 J/cm(2)) and the diode laser (150 J/cm(2)) effectively reduced the viability of adhered S. sanguinis or P. gingivalis.

摘要

目的

本研究的目的是在体外检测两种不同的激光系统(二氧化碳和二极管)对悬浮或黏附于两种不同表面的氧化锆或钛牙科植入材料上的血链球菌或牙龈卟啉单胞菌细胞的抗菌效果。

材料与方法

用二氧化碳(lambda=10,600nm)或二极管激光(lambda=810nm)以两种不同功率照射细菌。较低的模式用于临床(二氧化碳为 100J/cm(2),二极管为 50J/cm(2)),较高的模式可能会改变材料表面(二氧化碳为 1200J/cm(2),二极管为 150J/cm(2))。照射后,通过培养确定活菌数。

结果

与黏附于表面的细菌相比,两种细菌的浮游细胞对激光照射更具抗性。黏附于两种波长 lambda=10,600nm 和 810nm 的牙龈卟啉单胞菌即使在较低的设置下也能被有效杀灭,而与材料无关。黏附于氧化锆表面的血链球菌细胞在二氧化碳激光的较低设置(100J/cm(2))下可被有效杀灭。然而,需要两种激光的较高设置才能减少黏附于钛表面的血链球菌。二氧化碳激光在较低设置和二极管激光在较高设置下可有效降低黏附于氧化锆表面的血链球菌或牙龈卟啉单胞菌的活力。

结论

在已知不会改变体外氧化锆植入物表面的照射条件下,二氧化碳激光(100J/cm(2))和二极管激光(150J/cm(2))均可有效降低黏附的血链球菌或牙龈卟啉单胞菌的活力。

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