4.0 Article

The efficacy of different implant surface decontamination methods using spectrophotometric analysis: an in vitro study

期刊

JOURNAL OF PERIODONTAL AND IMPLANT SCIENCE
卷 53, 期 4, 页码 295-305

出版社

KOREAN ACAD PERIODONTOLOGY
DOI: 10.5051/jpis.2203500175

关键词

Air flow; Decontamination; Gracey curette; Implant; Peri-implantitis; Surgical; Brush; Ultrasonic scaler

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This study investigated the efficiency of various decontamination methods (GC, G-Air, E-Air, and TiB) in vitro using a novel spectrophotometric ink-model. The results showed that TiB was the most effective method for debridement, while G-Air appeared to be the least efficient.
Purpose: Various methods have been proposed to achieve the nearly complete decontamination of the surface of implants affected by peri-implantitis. We investigated the in vitro debridement efficiency of multiple decontamination methods (Gracey curettes [GC], glycine air-polishing [G-Air], erythritol air-polishing [E-Air] and titanium brushes [TiB]) using a novel spectrophotometric ink-model in 3 different bone defect settings (30 degrees , 60 degrees and 90 degrees).Methods: Forty-five dental implants were stained with indelible ink and mounted in resin models, which simulated standardised peri-implantitis defects with different bone defect angulations (30 degrees, 60 degrees, and 90 degrees). After each run of instrumentation, the implants were removed from the resin model, and the ink was dissolved in ethanol (97%). A spectrophotometric analysis was performed to detect colour remnants in order to measure the cumulative uncleaned surface area of the implants. Scanning electron microscopy images were taken to assess micromorphological surface changes. Results: Generally, the 60 degrees bone defects were the easiest to debride, and the 30 degrees defects were the most difficult (ink absorption peak: 0.26 +/- 0.04 for 60 degrees defects; 0.32 +/- 0.06 for 30 degrees defects; 0.27 +/- 0.04 for 90 degrees defects). The most effective debridement method was TiB, independently of the bone defect type (TiB vs. GC: P<0.0001; TiB vs. G-Air: P=0.0017; TiB vs. GE-Air: P=0.0007). GE-Air appeared to be the least efficient method for biofilm debridement. Conclusions: T-brushes seem to be a promising decontamination method compared to the other techniques, whereas G-Air was less aggressive on the implant surface. The use of a spectrophotometric model was shown to be a novel but promising assessment method for in vitro ink studies.

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