Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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UNKNOWN
NA
45 participants
INTERVENTIONAL
2018-07-02
2021-12-31
Brief Summary
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Based on the available data in literature, the surgical therapy for peri-implantitis is effective in disease resolution. Surgical access to peri-implant lesions facilitates the removal of all granulation tissue from the defect area as well as debridement and decontamination of the exposed implant surface defect area.
Different techniques have been used for implant surface decontamination during peri-implant surgery, including mechanical, chemical and laser treatments.
Detailed Description
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Numerous approaches have been used for implant surface decontamination during peri-implant surgery, including mechanical, chemical and laser treatments.
Conventional mechanical means don't seem to be effective on peri-implant diseases. In addition, the rough implant surface is a retentive factor for bacterial colonization and therefore makes implant surface difficult to debride.
A treatment protocol that may offer an advantage over traditional mechanical treatment includes the use of laser therapy and air-powder devices. Data have shown that treatments with Er.Yag laser have a bactericidal effect and are safe and effective on implant surfaces. Slightly better clinical results in terms of debridement, probing depth, bleeding on probing and clinical attachment level have been reported by Er:Yag laser treatment compared with traditional non surgical mechanical debridement with titanium curettes and pellet with saline in the surgical treatment of peri-implantitis.
The air abrasive method for debridement has also been used on implant surfaces demonstrating no relevant adverse effect. Until now, powders based on sodium bicarbonate and glycine have been used with pressured air/water. Nowadays a less abrasive method involves the use of erythritol powder.
The aim of the present randomized controlled clinical trial is to assess the efficacy in improving clinical parameters of two further methods of implant decontamination (er:Yag laser or air-abrasive device) after chemical treatment and chemical cleaning during surgical treatment of peri-implantitis in addition to chlorhexidine in horizontal defects with keratinised tissue around implant surfaces.
Conditions
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Study Design
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RANDOMIZED
PARALLEL
TREATMENT
SINGLE
Study Groups
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Chlorhexidine
Access flap will be raised to gain access to the implant surface. Inflammatory tissue, excess cement or plaque deposits will be removed using titanium curettes and the implant surface will be cleaned by copious irrigation with sterile saline and surgical gauze soaked in Chlorhexidine.
chlorhexidine
Inflammatory tissue, excess cement or plaque deposits will be removed using titanium curettes and the implant surface will be cleaned by copious irrigation with sterile saline and surgical gauze soaked in chlorhexidine.
Er:YAG laser
Er: Yag laser treatment will be provided on the implant surface.
chlorhexidine
Inflammatory tissue, excess cement or plaque deposits will be removed using titanium curettes and the implant surface will be cleaned by copious irrigation with sterile saline and surgical gauze soaked in chlorhexidine.
Er:YAG laser
Er.YAg laser treatment will be provided on the implant surface.
Air Powder
An Air-Powder treatment will be provided on the implant surface
chlorhexidine
Inflammatory tissue, excess cement or plaque deposits will be removed using titanium curettes and the implant surface will be cleaned by copious irrigation with sterile saline and surgical gauze soaked in chlorhexidine.
Air-Powder
An air powder device will be treatment will be provided on the implant surface.
Interventions
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chlorhexidine
Inflammatory tissue, excess cement or plaque deposits will be removed using titanium curettes and the implant surface will be cleaned by copious irrigation with sterile saline and surgical gauze soaked in chlorhexidine.
Er:YAG laser
Er.YAg laser treatment will be provided on the implant surface.
Air-Powder
An air powder device will be treatment will be provided on the implant surface.
Eligibility Criteria
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Inclusion Criteria
1. PPD ≥ 5 mm and bone loss ≥ 2 mm (compared to crestal bone levels at the time of placement of the reconstruction)
2. PPD ≥6 and bone loss ≥3 (not compared to crestal bone levels at the time of placement of the reconstruction)
* single tooth and bridgework restorations without overhangs
* no evidence of occlusal overload (i.e. occlusal contacts revealed appropriate adjustment),
* treated chronic periodontitis and proper periodontal maintenance care
* FMPS \< 20%
* non-smoker or light smoking status in smokers (\<10 cigarettes per day)
* implant function time ≥ 1 year.
Exclusion Criteria
* patients with osteoporosis or under bisphosphonate medication,
* pregnant or lactating women
* patients with a history of radiotherapy to the head and neck region
* hollow implants
* implant mobility
* implants at which no position could be identified where proper probing measurements could be performed;
* previous surgical treatment of the peri-implantitis lesions
18 Years
ALL
Yes
Sponsors
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Università Vita-Salute San Raffaele
OTHER
Responsible Party
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Marco Clementini
Principal Investigator
Principal Investigators
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Massimo De Sanctis, Prof.
Role: STUDY_CHAIR
Università Vita-Salute San Raffaele
Locations
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Università Vita-Salute San Raffaele
Milan, , Italy
Countries
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Central Contacts
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Facility Contacts
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Other Identifiers
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peri-implant surgical-1
Identifier Type: -
Identifier Source: org_study_id