Effects of various prophylactic procedures on titanium surfaces and biofilm formation (original) (raw)
Related papers
Archives of Oral Biology, 2016
The aim of this study was to examine in vivo the initial bacterial adhesion on titanium implants with different surface treatments. Design: Ten subjects wore oral splints containing machined pure titanium disks (Ti-M), acid-etched titanium (Ti-AE) and anodized and laser irradiated disks (Ti-AL) for 24 h. After this period, disks were removed from the splints and adherent bacteria were quantified by an enzymatic assay to assess total viable bacteria and by Real Time PCR to evaluate total bacteria and Streptococcus oralis levels. Additionally, the initial adherent microorganisms were visualized by scanning electron microscopy (SEM). Titanium surface morphology was verified using SEM, and roughness was evaluated by profilometer analysis. Results: Regarding titanium surface roughness, Ti-AL (1.423 AE 0.397) showed significantly higher Ra values than did Ti-M (0.771 AE 0.182) and Ti-AE (0.735 AE 0.196) (p < 0.05, ANOVA-Tahame). Ti-AE and Ti-AL presented roughened micro-structure surfaces characterized by open pores, whereas Ti-M showed long grooves alternating with planed areas. Comparing the Ti-M, Ti-AE and Ti-AL groups for viable bacteria (MTT assay), total bacteria and S. oralis quantification (qPCR), no significant differences were observed among these three groups (p > 0.05, ANOVA-Tahame). SEM images showed similar bacterial adhesion on the three titanium surfaces, predominantly characterized by cocci and several bacilli, indicating an initial colonization of the oral biofilm. Conclusion: In conclusion, roughness and microtopography did not stimulate initial biofilm formation on titanium surfaces with different surface treatments.
Purpose: The aim of the study was to investigate the dynamic process of biofilm adhesion on titanium implant with two surface treatments, either pickled (PT) or moderately roughened by sandblasting with large grits and acid-etched (SLA). Materials and methods: Two types of titanium disks with various surface treatments, i.e. PT and SLA with respective surface roughness (S a ) of 0.3 μm and 1.4 μm, were used as substrata. Three types of biofilms, Streptococcus mutans, Streptococcus sanguinis and polymicrobial biofilms (Microcosm), were grown on the two respective types of titanium disks for 2 h, 1 day, and 7 days. The formation of the biofilms was quantified by colony forming unit (CFU) count, and the structure of the biofilms on the titanium disks was observed by scanning electron microscope (SEM). Results: At 2 h, the number of bacterial cells adhered to SLA surfaces was significantly higher than those to PT surfaces for all tested microorganisms. On day 1 and 7, no differences in biofilm CFU counts were observed between SLA and PT surfaces for S. mutans and Microcosm biofilms, while the S. sanguinis biofilm formation on SLA surfaces was significantly higher than the biofilm on PT surfaces throughout the whole test period. SEM images showed the increasing biofilm formation in time for all types of biofilms. Microcosm biofilms displayed different morphology from the other two single-species biofilms. Conclusions: The higher roughness of a titanium surface would favor the early bacterial adhesion of S. mutans, S. sanguinis and Microcosm. However, as the biofilm became mature, the influence of surface roughness was diminished in a bacterial species dependent manner. Our results underline the importance of dynamic biofilm formation process in the implant study.
Materials
Objective: To compare the efficacy of four commonly used clinical procedures in removing Streptococcus gordonii biofilms from titanium disks, and the recolonization of the treated surfaces. Background: Successful peri-implantitis treatment depends on the removal of the dental biofilm. Biofilm that forms after implant debridement may threaten the success of the treatment and the long-term stability of the implants. Methods: S. gordonii biofilms were grown on titanium disks for 48 h and removed using a plastic curette, air-abrasive device (Perio-Flow®), titanium brush (TiBrush®), or implantoplasty. The remaining biofilm and the recolonization of the treated disks were observed using scanning electron microscopy and quantified after staining with crystal violet. Surface roughness (Ra and Rz) was measured using a profilometer. Results: S. gordonii biofilm biomass was reduced after treatment with Perio-Flow®, TiBrush®, and implantoplasty (all p < 0.05), but not plastic curette (p >...
Frontiers in Dental Medicine, 2021
Implant-related oral diseases such as peri-implantitis and peri-mucositis are largely initiated by bacterial colonization on artificial implant surfaces. Therefore, implant and abutment material characteristics that minimize bacterial attachment and subsequent biofilm formation are important factors in reducing the risk of infection-related implant failure. This study compares the properties of two different titanium-based implant coating materials, titanium nitride (TiN) and titanium carbon nitride (TiCN). Surface hydrophilicity/ hydrophobicity and roughness were evaluated via contact angle measurements and surface profiling with white light interferometry, respectively. TiN-coated surfaces were hydrophobic according to its contact angle higher than 72.7°, whereas TiCN-coated surfaces were hydrophilic with its contact angle of 53.6°. The average roughness (Ra) was greater for TiCN than TiN with the root mean square roughness (Rq) being significantly higher. These findings are in co...
Effects of oral implant surface roughness on bacterial biofilm formation and treatment efficacy
The International journal of oral & maxillofacial implants
The aim of this study was to investigate the influence of oral implant surface roughness on bacterial biofilm formation and antimicrobial treatment efficacy. Titanium disks with low-roughness pickled surfaces and with moderately rough sandblasted, acid-etched surfaces were used as substrata. Streptococcus mutans biofilms (1 and 3 days old) and Porphyromonas gingivalis biofilms (3 days old) were grown on the two types of substrata and then treated with 0.2% chlorhexidine. Biofilm viability was evaluated by a resazurin metabolism assay and by sonication-colony-forming unit counts. Surface roughness had no influence on the amount of biofilm formation by S mutans or P gingivalis in this in vitro biofilm model. However, it strongly affected the treatment efficacy of chlorhexidine on the biofilms formed by both species. Higher roughness resulted in lower efficacy. Furthermore, treatment efficacy was significantly reduced in older biofilms. A moderately roughened surface did not enhance bi...
Comparison of In Vitro Biofilm Formation on Titanium and Zirconia Implants
BioMed Research International
Background. Peri-implant diseases are emerging issues in contemporary implant dentistry. As biofilms play a critical role in peri-implant diseases, the characteristic of resisting bacterial adhesion would be ideal for dental implants. The aims of the study were to compare titanium (Ti) and zirconia (Zr) implants regarding the amount of biofilm formation at different time frames and assess the distribution of biofilm on different aspects of dental implants. Methods. Biofilm was developed on Ti and Zr dental implants with a peri-implant-related multispecies model with Streptococcus oralis, Actinomyces naeslundii, Veillonella dispar, and Porphyromonas gingivalis, for 3 and 14 days. Quantitative assessment was performed with the measurement of total bacterial viability (colony forming units, CFU/mg). Scanning electron microscopy (SEM) was used to evaluate biofilm formation on different aspects of the implants. Results. Three-day-old biofilm on Ti implants was significantly higher than t...
Applied Sciences
Dental implants are crucial therapeutic devices for successful substitution of missing teeth. Failure cases are mainly pathogen-associated events, allowing clinical progression toward peri-mucositis or peri-implantitis. The aim of this study was to compare the performance of two mechanical decontamination systems, Nickel-Titanium brush (Brush) and Air-Polishing system with 40 µm bicarbonate powder (BIC-40), by means of a novel bioluminescence-based model that measures microbial load in real time. Briefly, 30 disks were contaminated using the bioluminescent Pseudomonas aeruginosa strain (BLI-P. aeruginosa), treated with Brush (30 s rounds, for 90 s) or BIC-40 (30 s, at 5 mm distance) procedure, and then assessed for microbial load, particularly, biofilm removal and re-growth. Our results showed that Brush and BIC-40 treatment reduced microbial load of about 1 and more than 3 logs, respectively. Furthermore, microbial re-growth onto Brush-treated disks rapidly occurred, while BIC-40-t...
Frontiers of Oral and Maxillofacial Medicine
Background and Objective: Development of methods to decrease bacterial contamination on oral penetrating devices has been increasing but has not born predictable results. The need for antimicrobial coatings for devices placed inside of the body, particularly penetrating devices that emerge inside the oral cavity is of profound interests to dentistry. Titanium dental implant surfaces, including the abutment-implant junction are associated with a relatively high incidence of chronic infection termed peri-implant disease. In fact, peri-implant disease is the most frequent complication of dental implant treatment. Therefore, a narrative review of the need for technological development to prevent or curtail peri-implant disease is presented. Methods: A review of current English language literature published between 2011 and December 1 st , 2021 was done in PubMed using the MeSH subject of anti-bacterial treatment of titanium dental implants. The Search librarian conducted the search at the American Dental Association Library in Chicago, Illinois. A further criterion was searched for sustained in vivo anti-microbial activity. There were no stringent selection criteria, such as removing fluoride treatment from the search, due to the limitation of articles in this nascent field.
Formation of biofilm on various implant abutment materials
2018
The characteristics of prosthetic implant components, such as the type, material, and surface roughness of abutments, can affect biofilm formation. Since an ideal abutment surface for the reduction of bacterial adhesion has yet to be found, this in vitro study aimed to quantify biofilm formation on laser-treated titanium, zirconia, and titanium surfaces. Sterile titanium, zirconia, and laser-treated titanium discs were placed in sterile 48-well plates. Biofilm formation was induced by adding sterilized, unstimulated human saliva and suspensions of Porphyromonas gingivalis (Pg), Aggregatibacter actinomycetemcomitans (Aa), and Prevotella intermedia (Pi) to the wells. Viable bacteria in the biofilm were quantified with real-time polymerase chain reaction in conjunction with propidium monoazide. The disc material, the type of bacteria, and their interactions had significant effects on the bacterial counts. On all surfaces, the Pg count was significantly higher than both the Pi and Aa co...