<i>In vitro</i> evaluation of the biocompatibility of contaminated implant surfaces treated with an Er : YAG laser and an air powder system

Kreisler, Matthias; Kohnen, Wolfgang; Christoffers, A.B.; Götz, Hermann; Jansen, B.; Duschner, H.; dʼHoedt, B

doi:10.1111/j.1600-0501.2004.01056.x

Cited by 98 publications

(124 citation statements)

References 48 publications

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“…15 Moreover, some of these treatment modalities led to undesirable outcomes such as implant surface alteration, bacterial resistance. 16,17 So, novel approaches are still necessary to solve this problem. Photodynamic therapy (PDT) is a simple, non-invasive technique that proved to have anti-bacterial effects according to the findings of previous authors.…”

Section: Introductionmentioning

confidence: 99%

Efficacy of Antimicrobial Photodynamic Therapy as an Adjunctive to Mechanical Debridement in the Treatment of Peri-implant Diseases: A Randomized Controlled Clinical Trial

Karimi¹,

Hasani²,

Khosroshahian

2016

J Lasers Med Sci

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Introduction:The purpose of the present study was to assess the clinical effects of antimicrobial photodynamic therapy (PDT) after closed surface scaling in the treatment of peri-implant diseases. Methods: Ten patients with a total of 15 pairs of dental implants, showing clinical and radiographic signs of peri-implant diseases, were included in this study. In each patient, one implant randomly served as control implant and the other served as test implant. The control implants were treated with closed surface scaling only and the test implants received additionally PDT, using light with a wavelength of 630 nm and intensity of 2000 mw/cm 2 for 120 seconds after application of photosensitizer in peri-implant sulcus. Clinical parameters were evaluated before and 1.5 and 3 months after treatment. Results: Statistical analysis showed significant differences in probing pocket depth (PPD), clinical attachment loss (CAL), bleeding on probing (BOP), and gingival index (GI) at each time point between the two groups. There were no statistically significant changes with respect to any of the parameters in the control group. Complete resolution of BOP at 3 months was achieved in 100% of test implants. At 1.5 and 3 months, there were significant differences in the mean probing depth and CAL gain measurements at implants in the test group. Conclusion: The present study revealed that adjunctive use of PDT following closed surface scaling could lead to clinical improvement of peri-implant diseases. Further studies are necessary to confirm our results. Keywords: clinical trial; dental implant; mechanical debridement; peri-implantitis; photodynamic therapy Please cite this article as follows: Karimi MR, Hasani A, Khosroshahian S. Efficacy of antimicrobial photodynamic therapy as an adjunctive to mechanical debridement in the treatment of peri-implant diseases: a randomized controlled clinical trial.

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Section: Introductionmentioning

confidence: 99%

Efficacy of Antimicrobial Photodynamic Therapy as an Adjunctive to Mechanical Debridement in the Treatment of Peri-implant Diseases: A Randomized Controlled Clinical Trial

Karimi¹,

Hasani²,

Khosroshahian

2016

J Lasers Med Sci

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“…A recent study demonstrated that treatment of P.gingivalis-contaminated sand-blasted and acid-etched titanium implant surfaces using Er:YAG laser irradiation is capable of allowing attachment of osteoblast cells (8). In another study, it was reported that Er:YAG laser irradiation treatment of P.gingivalis-contaminated rough titanium surfaces resulted in greater fibroblast proliferation on the implant surfaces when compared with sterile specimens (63). In addition, no temperature elevations at the implant-bone interface during implant surface decontamination with the use of the Er:YAG laser in vivo were reported (64).…”

Section: Implant Therapymentioning

confidence: 95%

Lasers in Periodontics: Review of Literature

Smith¹

2015

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“…Romanos et al [75] established that cell attachment and morphology after laser irradiation is equal to that of sterile implant surfaces. Kreisler et al [47] examined the biocompatibility of contaminated implant surfaces after treatment with either a particle beam device or the Er:YAG laser. The lowest cell growth and proliferation was seen for contaminated Ti surfaces, while cell growth was significantly greater on sterile (new), air powdertreated, and Er:YAG laser-cleaned surfaces.…”

Section: Laser-based Methodsmentioning

confidence: 99%

“…Several manufacturers have fabricated tip designed to apply the particle beam into subgingival implant surfaces; however, the pattern of the threads causes many regions on the surface to be protected. It must be recognized that air-powder abrasion causes undesirable microscopic alterations of titanium implant surfaces, and so are not ideal [47].…”

Section: Methods Which Have Attempted To Clean Implant Surfacesmentioning

confidence: 99%

Novel Models to Manage Biofilms on Microtextured Dental Implant Surfaces

Tran¹,

Walsh²

2016

Microbial Biofilms - Importance and Applications

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Dental implants are used extensively to replace missing teeth. To enhance their integration with the bones of the jaws, the surfaces of titanium dental implants are modified to make them hydrophilic, high energy, and microtextured. These same features make biofilm development occur readily upon exposure to the saliva. The presence of mature biofilms on dental implant surfaces drives local inflammatory responses in the adjacent soft and hard tissues (peri-implantitis), which leads to pathological loss of bone and the formation of a saucer shaped bone defects. This chapter examines the unique challenges posed by biofilms formed on highly complex dental implant surfaces, which are difficult to access for cleaning, and easily damaged by conventional cleaning approaches. We explore how biofilms can be removed from implant surfaces using a variety of novel methods, without causing surface damage or other undesirable modifications, and show how different laboratory and clinical models can be used to assess the performance of both conventional and novel methods of biofilm removal.

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In vitro evaluation of the biocompatibility of contaminated implant surfaces treated with an Er : YAG laser and an air powder system

Cited by 98 publications

References 48 publications

Efficacy of Antimicrobial Photodynamic Therapy as an Adjunctive to Mechanical Debridement in the Treatment of Peri-implant Diseases: A Randomized Controlled Clinical Trial

Efficacy of Antimicrobial Photodynamic Therapy as an Adjunctive to Mechanical Debridement in the Treatment of Peri-implant Diseases: A Randomized Controlled Clinical Trial

Lasers in Periodontics: Review of Literature

Novel Models to Manage Biofilms on Microtextured Dental Implant Surfaces

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