López-Píriz Roberto, Sevillano David, Fernández Domínguez Manuel, Alou Luis, González Natalia, Goyos-Ball Lidia, Cabal Belén, Moya José Serafín, Gómez-Lus María Luisa, Torrecillas Ramón
Advanced Oral Surgery Institute (ICOA), 28012 Madrid, Spain.
Nanomaterials and Nanotechnology Research Center (CINN-CSIC), Universidad de Oviedo (UO), Principado de Asturias, 33940 El Entrego, Spain.
Antibiotics (Basel). 2024 Jul 24;13(8):690. doi: 10.3390/antibiotics13080690.
This study evaluates the dynamic shift in the microbiota at the peri-implant site of titanium (Ti) and zirconia (Zr) implants subjected to experimental peri-implantitis (PI) and, for the first time, of implants made of ceria-stabilized alumina-reinforced zirconia (Ce-TZP/Al), a revolutionary zirconia that is set to play a key role in modern implant dentistry. One- and two-piece (TP) implants, including Ce-TZP/AL TP/G3 glass, were placed bilaterally (six implants/side) in five beagle dogs to mimic a natural vs. ligature-induced PI following a split-mouth design. The experiment spanned 30 weeks from tooth extraction. Both PI models promoted plaque deposition at peri-implant sites. Comparatively, the PI induced by ligatures favored the deposition of anaerobes ( = 0.047 vs. natural). Regardless of the model, the plaque deposition pattern was entirely dependent on the implanted material. Ligated Ti and Zr implant sites accumulated up to 2.14 log CFU/mL unit anaerobic load ( ≤ 0.033 vs. non-ligated implant sites), predominantly comprising obligate anaerobes. Naturally occurring PI induced the deposition of co-occurring networks of obligate anaerobes and less oxygen-dependent bacteria. PI induction favored the enrichment of Ti and Zr sites with bacterial taxa belonging to the orange and red complexes (up to 28% increase naturally and up to 71% in the ligated hemiarch). Anaerobic deposition was significantly lower in ligated Ce-TZP/Al implant sites ( ≤ 0.014 vs. TI and Zr) and independent of the induction model (0.63-1 log units of increase). Facultative bacteria prevailed at Ce-TZP/AL sites. The abundance was lower in the Ce-TZP/AL TP implant. Unlike Ti and Zr sites, taxa from the orange and red complexes were negligible. Biofilms configured at the Ti and Zr sites after ligation-induced PI resemble those found in severe IP. We hypothesize that, although surface properties (surface energy and surface roughness) and physicochemical properties of the substrate play an important role in bacterial adhesion and subsequent plaque formation, Ce-TZP/Al modulates several biological activities that preserve the integrity of the gingival seal by limiting PI progression. In conclusion, biofilm progression differs in peri-implant sites according to the specific properties of the material. Ce-TZP/A, unlike titanium or zirconia, prevents dysbiosis in sites subjected to experimental PI and preserves the microbial signature of emergent obligate anaerobes related to PI development.
本研究评估了钛(Ti)和氧化锆(Zr)种植体在实验性种植体周围炎(PI)情况下种植体周围部位微生物群的动态变化,并且首次评估了二氧化铈稳定的氧化铝增强氧化锆(Ce-TZP/Al)制成的种植体,这种具有革命性的氧化锆将在现代种植牙科中发挥关键作用。采用分口设计,在五只比格犬双侧植入单件式和两件式(TP)种植体,包括Ce-TZP/AL TP/G3玻璃,每侧植入六个种植体,以模拟自然状态与结扎诱导的种植体周围炎。从拔牙开始,实验为期30周。两种种植体周围炎模型均促进了种植体周围部位菌斑的沉积。相比之下,结扎诱导的种植体周围炎更有利于厌氧菌的沉积(与自然状态相比,P = 0.047)。无论哪种模型,菌斑沉积模式完全取决于植入材料。结扎的Ti和Zr种植体部位厌氧负荷累积高达2.14 log CFU/mL单位(与未结扎的种植体部位相比,P≤0.033),主要由专性厌氧菌组成。自然发生的种植体周围炎诱导了专性厌氧菌和对氧依赖性较小的细菌共生网络的沉积。种植体周围炎的诱导有利于Ti和Zr部位富集属于橙色和红色复合体的细菌分类群(自然状态下增加高达28%,结扎半牙弓中增加高达71%)。结扎的Ce-TZP/Al种植体部位厌氧沉积物显著较低(与Ti和Zr相比,P≤0.014),且与诱导模型无关(增加0.63 - 1 log单位)。兼性细菌在Ce-TZP/AL部位占优势。Ce-TZP/AL TP种植体中其丰度较低。与Ti和Zr部位不同,橙色和红色复合体中的分类群可忽略不计。结扎诱导种植体周围炎后在Ti和Zr部位形成的生物膜类似于在严重种植体周围炎中发现的生物膜。我们假设,尽管表面特性(表面能和表面粗糙度)以及基底的物理化学性质在细菌黏附及随后的菌斑形成中起重要作用,但Ce-TZP/Al通过限制种植体周围炎的进展来调节多种生物学活性,从而保持牙龈封闭的完整性。总之,根据材料的特定性质,种植体周围部位生物膜的进展有所不同。与钛或氧化锆不同,Ce-TZP/A可防止实验性种植体周围炎部位的生态失调,并保留与种植体周围炎发展相关的新兴专性厌氧菌的微生物特征。
