Dental Research Institute, School of Dentistry, Seoul National University, Korea.
Acta Odontol Scand. 2012 Dec;70(6):504-10. doi: 10.3109/00016357.2011.640277. Epub 2011 Dec 19.
To investigate the effects of various orthodontic bonding steps on biofilm formation of Streptococcus mutans in the presence of saliva.
Hydroxyapatite (HA) and orthodontic adhesive (AD) disks were prepared to a uniform size. HA disks were etched with 37% phosphoric acid gel in the etched group (HE). In the primed group (HP), Transbond XT primer was applied to the etched HA surface and light-cured. For biofilm formation, Streptococcus mutans was grown on each specimen in a biofilm medium with either glucose or sucrose in the presence of fluid-phase UWS (F-UWS) or surface adsorbed saliva (S-UWS). The adherent bacteria were quantified by enumeration of the total viable counts of bacteria. Biofilms formed on each surface were examined by scanning electron microscopy.
When glucose was used, both F-UWS and S-UWS suppressed biofilm formation of S. mutans. Compared to HA and HE, biofilm formation was significantly inhibited on HP and AD in the presence of glucose. Biofilm-forming patterns that were inhibited by saliva were restored in a sucrose-containing medium. F-UWS promoted biofilm formation on HA and HE, while S-UWS significantly promoted biofilm formation on HP. S. mutans developed biofilm better on HA and HE than on AD when sucrose was used as the sole carbohydrate source.
This study suggests that the biofilm development by S. mutans is significantly influenced by the orthodontic bonding procedure. Biofilm formation of S. mutans was inhibited on AD more than other surfaces, irrespective of the presence of saliva or a carbohydrate source.
研究在唾液存在的情况下,不同正畸粘接步骤对变形链球菌生物膜形成的影响。
制备了尺寸均匀的羟基磷灰石(HA)和正畸粘接剂(AD)圆盘。在蚀刻组(HE)中,用 37%磷酸凝胶蚀刻 HA 圆盘。在预涂组(HP)中,将 Transbond XT 底漆涂覆在蚀刻的 HA 表面并进行光固化。为了形成生物膜,将变形链球菌在含有葡萄糖或蔗糖的生物膜培养基中生长,培养基中存在流体相 UWS(F-UWS)或表面吸附的唾液(S-UWS)。通过计数总活菌数来定量附着的细菌。通过扫描电子显微镜检查每个表面形成的生物膜。
当使用葡萄糖时,F-UWS 和 S-UWS 均抑制了 S. mutans 的生物膜形成。与 HA 和 HE 相比,在存在葡萄糖的情况下,HP 和 AD 上的生物膜形成明显受到抑制。在含有蔗糖的培养基中,受唾液抑制的生物膜形成模式得以恢复。F-UWS 促进了 HA 和 HE 上的生物膜形成,而 S-UWS 则显著促进了 HP 上的生物膜形成。当蔗糖作为唯一碳水化合物源时,S. mutans 在 HA 和 HE 上形成的生物膜比在 AD 上更好。
本研究表明,正畸粘接过程对 S. mutans 的生物膜发展有显著影响。在唾液存在或不存在的情况下,S. mutans 的生物膜形成在 AD 上的抑制作用比其他表面更为明显。
