Liinoja Enni, Areid Nagat, Närvä Elisa, Bikker Floris J, Loimaranta Vuokko, Närhi Timo O
Department of Prosthetic Dentistry and Stomatognathic Physiology, University of Turku, Turku, Finland.
Institute of Biomedicine and FICAN West Cancer Centre Laboratory, University of Turku and Turku University Hospital, Turku, Finland.
J Biomater Appl. 2025 Sep;40(3):419-427. doi: 10.1177/08853282251334902. Epub 2025 Apr 20.
Firm soft tissue attachment on oral implant components together with good bacterial control are important prerequisites for uneventful implant healing. TiO coatings have been shown to enhance human gingival fibroblast attachment, but the coating does not have antimicrobial properties. Phytosphingosine (PHS) is known to have antifouling properties against the cariogenic bacterium which is also among the first colonizers on implant surfaces. This makes PHS an interesting agent to prevent microbial adhesion on dental implant surfaces. The aim of this study was to examine the impact of PHS on and human gingival fibroblast adhesion on titanium surfaces with or without TiO -coating. Titanium discs ( = 99, diameter 14 mm, thickness 1 mm) were fabricated for the study. The discs were divided into four groups: (1) non-coated discs (NC), (2) titanium discs with hydrothermally induced TiO coatings (HT), (3) NC discs treated with PHS solution and (4) HT discs treated with PHS solution. Hydrophilicity of the discs was evaluated by water contact angle measurement. was added on HT and NC discs with or without PHS treatment for 30 minutes and the number of attached bacteria was estimated by plate counting method. For fibroblast experiment, the cells were plated on the discs and the number of adhered fibroblasts was determined at three time points (1, 3, 6 h). Additionally, confocal microscope images were obtained to examine fibroblast and adhesion and to evaluate cell spreading. PHS treatment significantly decreased the hydrophilicity of HT and NC titanium surfaces ( < .001). adhesion was significantly reduced after PHS treatment on both NC ( < .001) and HT surfaces ( < .001). Fibroblast adhesion was significantly reduced in HT group at 1 and 3h time points ( < .001), situation leveling out by the 6th hour. PHS reduced the number of adhered fibroblasts to the surface at incubation times of 1 hours ( = .0011) and 3 hours ( = .0194). At the 6 hour time point the number of adhered cells was no longer reduced, but still a reduction in cell spreading on the surface was observed ( < .05). The adhesion differences were present only in HT group. The PHS treatment reduced adherence and fibroblasts on TiO coated titanium, which may result from reduced hydrophilicity of the surfaces. The dual approach of PHS treatment and TiO coating could provide microbial antifouling properties of dental implants but may also affect fibroblast adhesion.
口腔种植体部件上牢固的软组织附着以及良好的细菌控制是种植体顺利愈合的重要前提条件。已证明TiO涂层可增强人牙龈成纤维细胞的附着,但该涂层不具有抗菌性能。植物鞘氨醇(PHS)已知对致龋细菌具有防污性能,而致龋细菌也是种植体表面最早的定植菌之一。这使得PHS成为一种有趣的预防微生物在牙种植体表面黏附的试剂。本研究的目的是研究PHS对有无TiO涂层的钛表面上细菌和人牙龈成纤维细胞黏附的影响。为该研究制作了钛盘(纯度=99%,直径14毫米,厚度1毫米)。将这些盘分为四组:(1)未涂层盘(NC),(2)水热诱导TiO涂层的钛盘(HT),(3)用PHS溶液处理的NC盘,以及(4)用PHS溶液处理的HT盘。通过测量水接触角来评估盘的亲水性。在有或无PHS处理的情况下,将细菌添加到HT和NC盘上30分钟,并用平板计数法估计附着细菌数。对于成纤维细胞实验,将细胞接种在盘上,并在三个时间点(1、3、6小时)测定黏附的成纤维细胞数。此外,获得共聚焦显微镜图像以检查成纤维细胞和细菌的黏附情况并评估细胞铺展。PHS处理显著降低了HT和NC钛表面的亲水性(P<0.001)。在NC(P<0.001)和HT表面(P<0.001)上,PHS处理后细菌黏附均显著减少。在HT组中,1小时和3小时时间点成纤维细胞黏附显著减少(P<0.001),到第6小时情况趋于平稳。在1小时(P=0.0011)和3小时(P=0.0194)的孵育时间,PHS减少了黏附到表面的成纤维细胞数量。在6小时时间点,黏附细胞数量不再减少,但仍观察到表面细胞铺展减少(P<0.05)。黏附差异仅存在于HT组中。PHS处理减少了TiO涂层钛表面上细菌和成纤维细胞的黏附,这可能是由于表面亲水性降低所致。PHS处理和TiO涂层的双重方法可为牙种植体提供微生物防污性能,但也可能影响成纤维细胞黏附。
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