Abstract
IntroductionAfter insertion into the bone, implants osseointegrate, which is required for their long-term success. However, inflammation and infection around the implants may lead to implant failure leading to peri-implantitis and loss of supporting bone, which may eventually lead to failure of implant. Surface chemistry of the implant and lack of cleanliness on the part of the patient are related to peri-implantitis. The only way to get rid of this infection is decontamination of dental implants.ObjectiveThis systematic review intended to study decontamination of microbial biofilm methods on titanium implant surfaces used in dentistry.MethodsThe electronic databases Springer Link, Science Direct, and PubMed were explored from their inception until December 2020 to identify relevant studies. Studies included had to evaluate the efficiency of new strategies either to prevent formation of biofilm or to treat matured biofilm on dental implant surfaces.Results and DiscussionIn this systematic review, 17 different groups of decontamination methods were summarized from 116 studies. The decontamination methods included coating materials, mechanical cleaning, laser treatment, photodynamic therapy, air polishing, anodizing treatment, radiation, sonication, thermal treatment, ultrasound treatment, chemical treatment, electrochemical treatment, antimicrobial drugs, argon treatment, and probiotics.ConclusionThe findings suggest that most of the decontamination methods were effective in preventing the formation of biofilm and in decontaminating established biofilm on dental implants. This narrative review provides a summary of methods for future research in the development of new dental implants and decontamination techniques.
Highlights
After insertion into the bone, implants osseointegrate, which is required for their long-term success
Dental implants are number one choice for replacement of teeth. It is a valuable option in several treatment scenarios, e.g., (i) when teeth are lost to non-periodontal diseases, infection due to caries, traumatic injuries; (ii) loss of teeth due to periodontal diseases but the remaining teeth can be maintained; and (iii) combined scenarios requiring replacement of missing teeth (Greenwell et al, 2019)
Peri-implantitis is caused by plaque bacteria, leading to inflammation of mucosa and subsequent bone loss surrounding the implant, which may result in total implant failure (Berglundh et al, 2019)
Summary
After insertion into the bone, implants osseointegrate, which is required for their long-term success. Dental implants are number one choice for replacement of teeth It is a valuable option in several treatment scenarios, e.g., (i) when teeth are lost to non-periodontal diseases, infection due to caries, traumatic injuries; (ii) loss of teeth due to periodontal diseases but the remaining teeth can be maintained; and (iii) combined scenarios requiring replacement of missing teeth (Greenwell et al, 2019). After insertion into the bone, implant osseointegration is expected to occur and is fundamental for its long-term success (Alghamdi, 2018). Surface chemistry and lack of cleanliness are intimately associated with peri-implantitis (Rupp et al, 2018)
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