变形链球菌在含二水磷酸二钙纳米颗粒的实验性复合材料上的黏附及生物膜形成

Streptococcus mutans adherence and biofilm formation on experimental composites containing dicalcium phosphate dihydrate nanoparticles.

作者信息

Ionescu Andrei C, Hahnel Sebastian, Cazzaniga Gloria, Ottobelli Marco, Braga Roberto Ruggiero, Rodrigues Marcela Charantola, Brambilla Eugenio

机构信息

Department of Biomedical, Surgical and Dental Sciences, IRCCS Galeazzi Orthopedic Institute, University of Milan, Via R. Galeazzi, 4, Milan, 20133, Italy.

Department of Prosthetic Dentistry, Regensburg University Medical Center, Regensburg, 93042, Germany.

出版信息

J Mater Sci Mater Med. 2017 Jul;28(7):108. doi: 10.1007/s10856-017-5914-7. Epub 2017 May 24.

DOI:10.1007/s10856-017-5914-7

PMID:28540581

Abstract

UNLABELLED

This study aimed at evaluating bacterial adhesion and biofilm formation on resin-based composites (RBC) including dicalcium phosphate dihydrate nanoparticles (nDCPD).

METHODS

Specimens were prepared from experimental RBCs with BisGMA/TEGDMA resin matrix including 20 vol% of either nDCPD (nDCPD-RBC), TEGDMA-functionalized nDPCD (F-nDCPD-RBC) or silanized silica (SiO-RBC). Neat resin blend (control-Resin), conventional nanohybrid RBC (control-RBC) and human enamel were used for reference. Characterization of the specimens included surface roughness (SR), surface free energy (SFE), chemical surface composition (EDS, XPS), and buffering ability of a pH = 4.00 solution. Streptococcus mutans adherence was assessed after 2 h; biofilm formation was simulated for 48 h using a bioreactor. Adherent, viable biomass was determined using tetrazolium salt assay (MTT).

RESULTS

nDCPD-RBC yielded highest roughness and showed higher polar and lower disperse component to total SFE. EDS and XPS indicated higher amounts of calcium and phosphate on the surface of nDCPD-RBC than on F-nDCPD-RBC. nDCPD buffered the acidic solution to 5.74, while functionalization almost prevented buffering (pH = 4.26). F-nDCPD-RBC reduced adherence and biofilm formation in comparison to nDCPD-RBC. Regardless of functionalization, biofilm formation on nDCPD-containing RBCs was not significantly different from SiO-RBC. Control-Resin, control-RBC, and enamel surfaces showed similar adherence values as F-nDCPD-RBC, but lower biofilm formation compared to both nDCPD-containing RBCs. In conclusion, the incorporation of nDCPD did not minimize S. mutans adherence and biofilm formation as a function of the materials´ surface properties. However, results observed for the buffering capacity indicated that optimized formulations of biomimetic RBCs may be useful for modulating their interaction with microorganisms.

摘要

未标注

本研究旨在评估含二水磷酸二钙纳米颗粒（nDCPD）的树脂基复合材料（RBC）上的细菌黏附及生物膜形成情况。

方法

用含BisGMA/TEGDMA树脂基质的实验性RBC制备标本，该基质包含20体积%的nDCPD（nDCPD - RBC）、TEGDMA功能化的nDPCD（F - nDCPD - RBC）或硅烷化二氧化硅（SiO - RBC）。纯树脂共混物（对照树脂）、传统纳米混合RBC（对照 - RBC）和人牙釉质用作对照。标本的表征包括表面粗糙度（SR）、表面自由能（SFE）、化学表面组成（EDS、XPS）以及pH = 4.00溶液的缓冲能力。2小时后评估变形链球菌的黏附情况；使用生物反应器模拟生物膜形成48小时。使用四唑盐测定法（MTT）测定黏附的活生物质。

结果

nDCPD - RBC产生最高粗糙度，且相对于总SFE显示出更高的极性成分和更低的分散成分。EDS和XPS表明nDCPD - RBC表面的钙和磷含量高于F - nDCPD - RBC。nDCPD将酸性溶液缓冲至5.74，而功能化几乎阻止了缓冲作用（pH = 4.26）。与nDCPD - RBC相比，F - nDCPD - RBC减少了黏附及生物膜形成。无论是否功能化，含nDCPD的RBC上的生物膜形成与SiO - RBC无显著差异。对照树脂、对照 - RBC和牙釉质表面显示出与F - nDCPD - RBC相似的黏附值，但与两种含nDCPD的RBC相比生物膜形成较少。总之，作为材料表面性质的函数，nDCPD的加入并未使变形链球菌的黏附及生物膜形成最小化。然而，缓冲能力的观察结果表明，仿生RBC的优化配方可能有助于调节它们与微生物的相互作用。

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变形链球菌在含二水磷酸二钙纳米颗粒的实验性复合材料上的黏附及生物膜形成

Streptococcus mutans adherence and biofilm formation on experimental composites containing dicalcium phosphate dihydrate nanoparticles.

作者信息

机构信息

出版信息

UNLABELLED

METHODS

RESULTS

未标注

方法

结果

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