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Periodontal disease is a chronic multifactorial inflammatory disease that affects the soft and hard supporting tissues of the teeth. It is one of the most common oral health problems which 90% of the global adult population has been reported to have some form of the disease. Microorganisms in dental biofilm play a critical etiological factor in the development of this progressive destruction disease, and if left untreated, will eventually lead to tooth loss. Recurrent periodontal disease did occur in treated and well-maintained patients at different time intervals and is a site-specific disorder. Therefore, subgingival biofilm removal during supportive periodontal therapy has become a fundamental part in achieving a stable oral health after completion of active treatment. Subgingival debridement involves various techniques. In recent years, many studies have reported on the effectiveness of air polishing device using different powders versus conventional hand instruments and/or oscillating scalers. However, there is no study evaluating the health economic aspect of these treatment modalities. As development leads to advancement of treatment options, they often involve higher cost than the existing measures. Therefore, besides clinical efficacy, economic evaluation enables health decision makers to allocate limited health resources in a more efficient manner, to ensure best possible outcomes, without neglecting any segment of care.
As a result of ongoing microbiological challenge from accumulated dental plaque, it is paramount to ensure thorough removal of such deposits from the root surface to maintain periodontal health. Mechanical instrumentation using conventional hand instrument and/or oscillating scalers is the gold standard of periodontal therapy. Patient is commonly recalled every 3-4 months interval for supportive periodontal therapy (SPT) to decrease disease recurrence and prevent further tooth loss. This repeated mechanical instrumentation, however, may cause irreversible damage to dental hard tissue. As such, the use of treatment modalities effective in removing biofilm, being time efficient, causing minimal discomfort, tissue damage, and less abrasion of root surface would be preferable during SPT.
With the advancement of technology in dentistry, air polishing (AP) was introduced to dentistry for cavity reparation in 1945. The usage then extended into periodontal debridement in SPT, by means of slurry pressurized air with a novel low abrasive powder and water. A study done by Petersilka et al. 2003 in 27 SPT patients of pockets 3-5mm depth revealed an approximately 90% reduction in all viable bacterial counts and offered greater patient comfort when compared to conventional hand instrument. It was also time saving as only 5 seconds is needed per tooth surface. Since 1980s, sodium bicarbonate has been used in AP devices and was the only powder available until 2004. It is non-toxic, water-soluble, safe for intra-oral use and is efficient in removing biofilm and staining on intact enamel surfaces. However, this conventional powder can cause substantial damage to the root cementum and dentine at area of receded gingiva, severe epithelial erosion and unpleasant perception by patients.
In order to deal with this issue, several types of AP abrasive powders with improved clinical performance and patient comfort have been produced. As early as in 2003, glycine based (amino acid) powders were produced with smaller mean particle size 45-60 µm and less chiseled shape, compared to sharp edged and up to 250 µm mean particle size of sodium bicarbonate. Due to its ≈80% less abrasiveness, studies had shown that glycine powder air-polishing (GPAP) was more efficient in plaque removal in root debridement, caused non-critical substance loss and lower the rate of increase in root surface roughness when compared to sodium bicarbonate. On the other hand, in a publication by Flemmig et al. in 2007, efficacy of GPAP was assessed in periodontal pockets of various depths. The results revealed the average debridement depth of 2mm was obtained at pockets depth of 4mm, and 60% of subgingival root surface was cleaned. In deeper pockets, the efficacy reduced to about 40% and the use of hand instruments or ultrasonic scalers may be superior.
Thus, Moёne et al. had described a newly designed nozzle in 2010 in order to extend the use of air polishing in deeper pockets. This nozzle allowed access to subgingival root surfaces and the jet spray has a lower flow and pressure compared to supragingivally applied air polishing. This new device appeared to be safe, perceived to be more acceptable by patients and was more time efficient than scaling and root planing. However, Petersilka (2010) pointed out two cases of air emphysema developed after using this jet system but fortunately the cases resolved within 4 days without additional intervention. Therefore, he remarked that emphysema cannot be completely ruled out in all other types of air-polishing systems. Since then, more studies have been carried out using this newly designed nozzle with GPAP. A 2-months trial by Wennstrӧm et al. in 20 recall patients showed no significant differences in clinical or microbiological outcomes between subgingivally applied GPAP (SubGPAP) and ultrasonic debridement of moderate deep pockets (5-8mm). They also noted there was only a short-term reduction of subgingival microflora in both modalities.
Recently, a natural sugar erythritol powder has gained its popularity as it has slightly lower abrasiveness and smaller particle size 14-31 µm compared to glycine. In 2013, Hashino et al. found that erythritol has inhibitory effect on the biofilm produced by Streptococcus gordonii and Porphyromonas gingivalis. A year after, Drago and team tested on a new formulation consisting of erythritol and chlorhexidine with the standard glycine powder. This in vitro study demonstrated that the combination of erythritol/chlorhexidine displayed a stronger antimicrobial and antibiofilm activity on titanium discs. While in a 12 months clinical trial by Müller and co-workers, repeated subgingival air polishing with erythritol containing 0.3% chlorhexidine appeared to be safe, reduced the number of pockets >4mm and induced less pain than ultrasonic instrumentation. As subgingival biofilm may not mineralise between two SPT visits, less aggressive approach with better microbiological outcome may be appropriate for residual pockets.
Based on the available literature, requirements like time efficiency, minimal hard and soft tissue damage, along with high patient acceptance and safety, are important for repeated treatments especially in SPT. Whether a new air-polishing powder, used with a specially designed nozzle may be a valid alternative to conventional debridement, cost efficiency is another essential aspect to be defined. As periodontitis patients need long-term professional care and in the light of rising healthcare costs, a cost- and clinically effective treatment modality is required.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Ultrasonic instrumentation and Air Polishing | Experimental | All participants will receive full mouth conventional ultrasonic subgingival debridement, followed by air-polishing with erythritol powder which include activating device for 5 seconds of each surface (Petersilka 2003). Subsequently, Perio-Flow handpiece with a special disposable nozzle will be used for pocket depth >4mm. Perio-Flow handpiece with a special disposable nozzle will be used for pocket depth >4mm |
|
| Ultrasonic instrumentation | Active Comparator | All participants will receive full mouth conventional ultrasonic subgingival debridement only. No time limit (Flemmig 2012), until dental surfaces feel smooth. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Ultrasonic instrumentation | Other | Full mouth root surface debridement |
|
| Measure | Description | Time Frame |
|---|---|---|
| Presence of pocket depth >4mm | To determine presence of pocket depth > 4 mm after 6 months | 6 months |
| Measure | Description | Time Frame |
|---|---|---|
| Clinical attachment level gain (CAL) | To determine presence of CAL after 6 months | 6 months |
| Patient reported outcome measures (PROM) | Patient reported outcome measures using visual analogue scales score where 0 is no pain and 10 is the worst pain |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Nor Adinar Baharuddin, DClinDent | Contact | 0196935088 | noradinar@um.edu.my | |
| Shafina Mohamed Nazari, MScClinDent | Contact | +60379674806 | shafina.mnazari@um.edu.my |
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Faculty of Dentistry | Recruiting | Kuala Lumpur | 50603 | Malaysia |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 25060742 | Background | Drago L, Del Fabbro M, Bortolin M, Vassena C, De Vecchi E, Taschieri S. Biofilm removal and antimicrobial activity of two different air-polishing powders: an in vitro study. J Periodontol. 2014 Nov;85(11):e363-9. doi: 10.1902/jop.2014.140134. Epub 2014 Jul 25. | |
| 9495615 | Background | Flemmig TF, Petersilka GJ, Mehl A, Hickel R, Klaiber B. The effect of working parameters on root substance removal using a piezoelectric ultrasonic scaler in vitro. J Clin Periodontol. 1998 Feb;25(2):158-63. doi: 10.1111/j.1600-051x.1998.tb02422.x. |
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| ID | Term |
|---|---|
| D010518 | Periodontitis |
| ID | Term |
|---|---|
| D010510 | Periodontal Diseases |
| D009059 | Mouth Diseases |
| D009057 | Stomatognathic Diseases |
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| Air polishing with erythritol powder | Other | Air flow PLUS |
|
| 6 months |
| Incremental Cost Effectiveness Ratio (ICER) | Incremental Cost Effectiveness Ratio | 6 months |
| Patient reported outcome measures (PROM) | Patient reported outcome measures using oral health impact profile (OHIP-14) score, based on the likert scale responses; which were coded as (1) very often, (2) quite often, (3) sometimes, (4) seldom, (5) never and (6) don't know. | 6 months |
| 23890177 | Background | Hashino E, Kuboniwa M, Alghamdi SA, Yamaguchi M, Yamamoto R, Cho H, Amano A. Erythritol alters microstructure and metabolomic profiles of biofilm composed of Streptococcus gordonii and Porphyromonas gingivalis. Mol Oral Microbiol. 2013 Dec;28(6):435-51. doi: 10.1111/omi.12037. Epub 2013 Jul 29. |
| 29702916 | Background | Mohd-Dom TN, Wan-Puteh SE, Muhd-Nur A, Ayob R, Abdul-Manaf MR, Abdul-Muttalib K, Aljunid SM. Cost-Effectiveness of Periodontitis Management in Public Sector Specialist Periodontal Clinics: A Societal Perspective Research in Malaysia. Value Health Reg Issues. 2014 May;3:117-123. doi: 10.1016/j.vhri.2014.04.012. Epub 2014 May 20. |
| 12622860 | Background | Petersilka GJ, Bell M, Mehl A, Hickel R, Flemmig TF. Root defects following air polishing. J Clin Periodontol. 2003 Feb;30(2):165-70. doi: 10.1034/j.1600-051x.2003.300204.x. |
| 24476548 | Background | Sahrmann P, Ronay V, Schmidlin PR, Attin T, Paque F. Three-dimensional defect evaluation of air polishing on extracted human roots. J Periodontol. 2014 Aug;85(8):1107-14. doi: 10.1902/jop.2014.130629. Epub 2014 Jan 30. |
| 21736599 | Background | Wennstrom JL, Dahlen G, Ramberg P. Subgingival debridement of periodontal pockets by air polishing in comparison with ultrasonic instrumentation during maintenance therapy. J Clin Periodontol. 2011 Sep;38(9):820-7. doi: 10.1111/j.1600-051X.2011.01751.x. Epub 2011 Jul 7. |
| 1765938 | Background | Zappa U, Smith B, Simona C, Graf H, Case D, Kim W. Root substance removal by scaling and root planing. J Periodontol. 1991 Dec;62(12):750-4. doi: 10.1902/jop.1991.62.12.750. |
| 25240922 | Result | Buhler J, Schmidli F, Weiger R, Walter C. Analysis of the effects of air polishing powders containing sodium bicarbonate and glycine on human teeth. Clin Oral Investig. 2015 May;19(4):877-85. doi: 10.1007/s00784-014-1317-z. Epub 2014 Sep 21. |
| 26698003 | Result | Farooqi OA, Wehler CJ, Gibson G, Jurasic MM, Jones JA. Appropriate Recall Interval for Periodontal Maintenance: A Systematic Review. J Evid Based Dent Pract. 2015 Dec;15(4):171-81. doi: 10.1016/j.jebdp.2015.10.001. Epub 2015 Nov 19. |
| 17539712 | Result | Flemmig TF, Hetzel M, Topoll H, Gerss J, Haeberlein I, Petersilka G. Subgingival debridement efficacy of glycine powder air polishing. J Periodontol. 2007 Jun;78(6):1002-10. doi: 10.1902/jop.2007.060420. |
| 6384275 | Result | Lindhe J, Nyman S. Long-term maintenance of patients treated for advanced periodontal disease. J Clin Periodontol. 1984 Sep;11(8):504-14. doi: 10.1111/j.1600-051x.1984.tb00902.x. |
| 6378986 | Result | Lindhe J, Westfelt E, Nyman S, Socransky SS, Haffajee AD. Long-term effect of surgical/non-surgical treatment of periodontal disease. J Clin Periodontol. 1984 Aug;11(7):448-58. doi: 10.1111/j.1600-051x.1984.tb01344.x. |
| 20059420 | Result | Moene R, Decaillet F, Andersen E, Mombelli A. Subgingival plaque removal using a new air-polishing device. J Periodontol. 2010 Jan;81(1):79-88. doi: 10.1902/jop.2009.090394. |
| 25041441 | Result | Muller N, Moene R, Cancela JA, Mombelli A. Subgingival air-polishing with erythritol during periodontal maintenance: randomized clinical trial of twelve months. J Clin Periodontol. 2014 Sep;41(9):883-9. doi: 10.1111/jcpe.12289. Epub 2014 Aug 7. |
| 12694431 | Result | Petersilka GJ, Steinmann D, Haberlein I, Heinecke A, Flemmig TF. Subgingival plaque removal in buccal and lingual sites using a novel low abrasive air-polishing powder. J Clin Periodontol. 2003 Apr;30(4):328-33. doi: 10.1034/j.1600-051x.2003.00290.x. |
| 21134232 | Result | Petersilka GJ. Subgingival air-polishing in the treatment of periodontal biofilm infections. Periodontol 2000. 2011 Feb;55(1):124-42. doi: 10.1111/j.1600-0757.2010.00342.x. No abstract available. |