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Microleakage of composite restorations after application of different KTP laser energy densities

Yıl 2012, Cilt: 3 Sayı: 3, 119 - 125, 06.01.2013

Öz

Objectives: The purpose of the present study was to evaluate microleakage in Class V cavities pretreated with different KTP (potassium-titanyl-phosphate) laser energy densities before acid etching application. Methods: Thirty-two human premolars were selected for cavity pretreatment. After Class V cavity restorations in buccal and lingual surfaces, teeth were randomly divided into four groups: Group 1: 1 W, 7,1 J/cm2 KTP laser (SMARTLITE D, Deka, Calenzano Firenze, Italy), 37% phosphoric acid (3M ESPE Dental Products, St. Paul, MN, USA) and Single Bond (3M ESPE); Group 2: 1,5 W, 10,7 J/cm2 KTP laser, 37% phosphoric acid and Single Bond; Group 3: 2 W, 14.2 J/cm2 KTP laser, 37% phosphoric acid and Single Bond; Group 4: 37% phosphoric acid and Single Bond. The cavities were restored with composite resin (Filtek Z250, 3M ESPE). The teeth were then thermocycled to 500 cycles, isolated and immersed in 0.5% basic fuchsin for 24 h. After this period, the teeth were rinsed, dried, and sectioned, and microleakage was assessed by dye penetration at the occlusal and gingival surface of the teeth with stereomicroscope (X6). Data were analyzed with Kruskal-Wallis and Mann-Whitney U tests for independent samples, and Wilcoxon test for dependent samples. Results: When microleakage at the enamel margins of all groups were compared, no statistical differences were found (p>0.05). There was a statistically significant difference between Groups 3 and 4 (p<0.05) when the scores of microleakage at the cementum margins of the four groups were compared; however, no other groups had statistically significant differences between them (p>0.05). Conclusions: None of the procedures tested in this study completely eliminated microleakage. KTP laser irradiation prior to acid etching to dentin following cavity preparation reduced mean microleakage values compared with acid etching alone at the enamel and the cementum margins.

Kaynakça

  • Pashley DH. Interaction of dental materials with dentin. Trans Am Acad Dent Mater 1990; 3:55–73.
  • Retief DH, Mandras RS, Russel CM. Shear bond strength required to prevent microleakage at the dentin/restoration interface. Am J Dent 1994; 7:43–46.
  • Buonocore MG. A simple method of increasinf the adhesion of acrylic filling materials to enamel surfaces. J Dent Res 1955; 34:849–853.
  • Kytridou V, Gutmann JL, Nunn MH. Adaptation and sealability of two contemporary obturation techniques in the absence of the dentinal smear layer. Int Endod J 1999; 32:464–474.
  • Rinaudo PJ, Cochran MA, Moore BK. The effect of air abrasion on shear bond strength to dentin with dental adhesives. Oper Dent 1997; 22:254–259.
  • Salama FS. Effect of laser pretreated enamel and dentin of primary teeth on microleakage of different restorative materials. J Clin Pediatr Dent 1998; 22:285–291.
  • Mercer C. Lasers in dentistry: A review. Part 2: Diagnosis, treatment and research. Dent Update 1996; 23:120–125.
  • Roodenburg JL, Panders AK, Vermey A. Carbon dioxide laser surgery of oral leukoplakia. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1991; 71:670–674.
  • Eversole LR, Rizoiu IM. Preliminary investigations on the utility of an erbium, chromium YSGG laser. J Calif Dent Assoc 1995; 23:41–47.
  • Aoki A, Ishikawa I, Yamada T, Otsuki M, Watanabe H, Tagami J, Ando Y, Yamamoto H. Comparison between Er: YAG laser and conventional technique for root caries treatment in vitro. J Dent Res 1998; 77:1404–1414.
  • Visuri SR, Gilbert JL, Wright DD, Wigdor HA, Walsh JT Jr. Shear strength of composite bonded to Er: YAG laser–prepared dentin. J Dent Res 1996; 75:599–605.
  • Dederich DN. Lasers in dentistry. Alpha Omegan 1991; 84:33–36.
  • Schoop U, Kluger W, Dervisbegovic S, Goharkhay K, Wernisch J, Georgopoulos A, Sperr W, Moritz A. Innovative wavelengths in endodontic treatment. Lasers Surg Med 2006; 38:624–630.
  • Kuştarci A, Sümer Z, Altunbaş D, Koşum S. Bactericidal effect of KTP laser irradiation against Enterococcus faecalis compared with gaseous ozone: an ex vivo study. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2009; 107:73–79.
  • Tewfik HM, Pashley DH, Horner JA, Sharawy MM. Structural and functional changes in root dentin following exposure to KTP/532 laser. J Endod 1993; 19:492–497.
  • Momoi Y, McCabe JF. Fluoride release from light– activated glass ionomer restorative cements. Dent Mater 1993; 9:151–154.
  • Watts A. Bacterial contamination and the toxicity of silicate and zinc phosphate cements. Braz Dent J 1979; 146:7–13.
  • Brännström M. The cause of postrestorative sensitivity and its prevention. J Endod 1986; 12:475–481.
  • Palma Dibb RG, Corona SA, Borsatto MC, Ferreira KC, Pereira Ramos R, Djalma Pécora J. Assessing microleakage on class V composite resin restorations after Er: YAG laser preparation varying the adhesive systems. J Clin Laser Med Surg 2002; 20:129–133.
  • Corona SA, Borsatto MC, Palma Dibb RG, Ramos RP, Brugnera A, Pécora JD. Microleakage on class V resin composite restorations after bur, airabrasion or Er:YAG laser preparation. Oper Dent 2001; 26:491–497.
  • Siso HS, Kustarci A, Göktolga EG. Microleakage in resin composite restorations after antimicrobial pre–treatments: effect of KTP laser, chlorhexidine gluconate and Clearfil Protect Bond. Oper Dent 2009; 34:321–327.
  • González BJ, Ruiz PM, Rodríguez NJ, Martín BB, Varela PP, Magán MF, Bahillo VM, Barciela CN. A comparative study of microleakage through enamel and cementum after laser Er:YAG instrumentation in class V cavity obturations, using scanning electron microscopy. J Clin Laser Med Surg 2002; 20:197–201.
  • Cagidiaco MC, Ferrari M, Vichi A, Davidson CL. Mapping of tubule and intertubule surface areas available for bonding in Class V and in Class II preparations. J Dent 1997; 25:379–389.
  • Alani AH, Toh CG. Detection of microleakage around dental restorations: a review. Oper Dent 1997; 22:173–185.
  • Piva E, Martos J, Demarco FF. Microleakage in amalgam restorations: influence of cavity cleanser solutions and anticariogenic agents. Oper Dent 2001; 26:383–388.
  • Obeidi A, Ghasemi A. Azima A, Ansari G. Effects of pulsed Nd:YAG laser on microleakage of composite restorations in class V cavities. Photomed Laser Surg 2005; 23:56–59.
  • Miserendino LJ, Levy GC, Rizoiu LM. Effects of Nd: YAG laser on the permeability of root canal wall dentin. J Endod 1995; 21:83–87.
  • Gonçalves SE, Araşjo MA, Damião AJ. Dentin bond strength: Influence of laser irradiation, acid etching and hipermineralization. J Laser Med Surg 1999; 17:77–85.
  • Cooper LF, Myers ML, Nelson DGA, Mowery AS. Shear strength of composite bonded to laser– prepared dentin. J Prosthet Dent 1988; 60:45–49.
  • Ribeiro CF, Anido AA, Rauscher FC, Yui KC, Gonçalves SE. Marginal leakage in class V cavities pretreated with different laser energy densities. Photomed Laser Surg 2005; 23:313–316.
  • White JM, Goodis HE. Laser interactions with dental hard tissues–effects on the pulp/dentin complex. In: Proceedings of the International Conference on the Dentin Pulp Complex, Tokyo, Japan. 1996; 41–50.
  • Goodman BD, Gwinnett AJ. A comparison of laser and acid–etch human enamel. Archs Oral Biol 1977; 22:215–220.
  • Frentzen M, Winkelsträter C, van Benthem H, Koort HJ. The effects of pulsed ultraviolet and infra–red lasers on dental enamel. Eur J Prosthodent Rest Dent 1996; 4:99–104.
  • Yazici R, Frentzen M, Dayangac B. In vitro analysis of the effects of acid or laser etching on microleakage around composite resin restorations. J Dent 2001; 29:355–361.
  • Corpas–Paster L, Moreno V, Garrido JDLG, Pedraza Muriel V, Moore K, Elias A. Comparing the tensile strength of brackets adhered to laser– etched enamel vs. acid–etched enamel. JADA 1997; 128:732–737.
  • Martinez–Insua A, Daminguez L, Rivera FG, Santana–Penín UA. Differences in bonding to acid–etched or Er:YAG laser–treated enamel and dentin surfaces. J Prosthet Dent 2000; 84:280–288.
  • Ceballos L, Osorio R, Toledano M, Marshall GW. Microleakage of composite restorations after acid or Er:YAG laser cavity treatments. Dent Mater 2001; 17:340–346.
  • Armengol V, Jean A, Rohanizadeh R, Hamel H. Scanning electron microscopic analysis of diseased and healthy dental hard tissues after Er:YAG laser irradiation: In vitro study. J Endod 1999; 25:543– 546.

Farklı enerji yoğunluklarındaki KTP lazer uygulaması sonrası kompozit restorasyonlardaki mikrosızıntı

Yıl 2012, Cilt: 3 Sayı: 3, 119 - 125, 06.01.2013

Öz

Amaç: Bu çalışmanın amacı, Sınıf V kavitelerin asitle pürüzlendirilmesi öncesinde uygulanan farklı enerji yoğunluklarındaki KTP (potasyum–titanil–fosfat) lazer ile mikrosızıntıyı değerlendirmektir. Materyal–Metod: 32 tane premolar diş kavite preparasyonu için seçildi. Bukkal ve lingual yüzeylere Sınıf V kaviteler açıldıktan sonra, dişler rastgele 4 gruba ayrıldı. Grup 1: 1 W, 7,1 J/cm2 KTP lazer, %37 fosforik asit ve Single Bond; Grup 2: 1,5 W, 10,7J/cm2 KTP lazer, %37 fosforik asit ve Single Bond; Grup 3: 2 W, 14,2 J/cm2 KTP lazer, %37 fosforik asit ve Single Bond; Grup 4: %37 fosforik asit ve Single Bond. Bütün kaviteler kompozit rezin ile restore edildi. Dişlere daha sonra 500 kez termal siklus uygulandı ve 24 saat %0,5’lik bazik fuksinde bekletildi. Bu işlemden sonra, dişler yıkandı, kurulandı ve kesildi ve dişlerin oklüzal ve gingival yüzeylerinde boya penetrasyonu ile oluşan mikrosızıntı stereomikroskop altında değerlendirildi (X6). Elde edilen veriler bağımsız örnekler için Kruskal–Wallis ve Mann–Whitney U testi, bağımlı örnekler için ise Wilcoxon testi yapıldı. Bulgular: Bütün gruplarda mine marjininde oluşan mikrosızıntı değerleri karşılaştırıldığında istatistiksel olarak anlamlı fark bulunmadı (p>0,05). Bütün gruplarda sement marjinindeki mikrosızıntı değerleri karşılaştırıldığında ise, Grup 3 ve Grup 4 arasındaki fark istatistiksel olarak anlamlı bulunurken (p<0,05), diğer gruplar ile arasındaki fark anlamlı bulunmadı (p>0,05). Tartışma: Bu çalışmada kullanılan yöntemlerin hiçbirisi mikrosızıntıyı önleyemedi. Kavite preperasyonu sonrası asit etching uygulamasından önce KTP lazer uygulaması ile mine ve sement marjinlerinde elde edilen mikrosızıntı değerlerinin, sadece asitle pürüzlendirme sonrası elde edilen değerlere göre azaldığı görüldü.

Kaynakça

  • Pashley DH. Interaction of dental materials with dentin. Trans Am Acad Dent Mater 1990; 3:55–73.
  • Retief DH, Mandras RS, Russel CM. Shear bond strength required to prevent microleakage at the dentin/restoration interface. Am J Dent 1994; 7:43–46.
  • Buonocore MG. A simple method of increasinf the adhesion of acrylic filling materials to enamel surfaces. J Dent Res 1955; 34:849–853.
  • Kytridou V, Gutmann JL, Nunn MH. Adaptation and sealability of two contemporary obturation techniques in the absence of the dentinal smear layer. Int Endod J 1999; 32:464–474.
  • Rinaudo PJ, Cochran MA, Moore BK. The effect of air abrasion on shear bond strength to dentin with dental adhesives. Oper Dent 1997; 22:254–259.
  • Salama FS. Effect of laser pretreated enamel and dentin of primary teeth on microleakage of different restorative materials. J Clin Pediatr Dent 1998; 22:285–291.
  • Mercer C. Lasers in dentistry: A review. Part 2: Diagnosis, treatment and research. Dent Update 1996; 23:120–125.
  • Roodenburg JL, Panders AK, Vermey A. Carbon dioxide laser surgery of oral leukoplakia. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 1991; 71:670–674.
  • Eversole LR, Rizoiu IM. Preliminary investigations on the utility of an erbium, chromium YSGG laser. J Calif Dent Assoc 1995; 23:41–47.
  • Aoki A, Ishikawa I, Yamada T, Otsuki M, Watanabe H, Tagami J, Ando Y, Yamamoto H. Comparison between Er: YAG laser and conventional technique for root caries treatment in vitro. J Dent Res 1998; 77:1404–1414.
  • Visuri SR, Gilbert JL, Wright DD, Wigdor HA, Walsh JT Jr. Shear strength of composite bonded to Er: YAG laser–prepared dentin. J Dent Res 1996; 75:599–605.
  • Dederich DN. Lasers in dentistry. Alpha Omegan 1991; 84:33–36.
  • Schoop U, Kluger W, Dervisbegovic S, Goharkhay K, Wernisch J, Georgopoulos A, Sperr W, Moritz A. Innovative wavelengths in endodontic treatment. Lasers Surg Med 2006; 38:624–630.
  • Kuştarci A, Sümer Z, Altunbaş D, Koşum S. Bactericidal effect of KTP laser irradiation against Enterococcus faecalis compared with gaseous ozone: an ex vivo study. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2009; 107:73–79.
  • Tewfik HM, Pashley DH, Horner JA, Sharawy MM. Structural and functional changes in root dentin following exposure to KTP/532 laser. J Endod 1993; 19:492–497.
  • Momoi Y, McCabe JF. Fluoride release from light– activated glass ionomer restorative cements. Dent Mater 1993; 9:151–154.
  • Watts A. Bacterial contamination and the toxicity of silicate and zinc phosphate cements. Braz Dent J 1979; 146:7–13.
  • Brännström M. The cause of postrestorative sensitivity and its prevention. J Endod 1986; 12:475–481.
  • Palma Dibb RG, Corona SA, Borsatto MC, Ferreira KC, Pereira Ramos R, Djalma Pécora J. Assessing microleakage on class V composite resin restorations after Er: YAG laser preparation varying the adhesive systems. J Clin Laser Med Surg 2002; 20:129–133.
  • Corona SA, Borsatto MC, Palma Dibb RG, Ramos RP, Brugnera A, Pécora JD. Microleakage on class V resin composite restorations after bur, airabrasion or Er:YAG laser preparation. Oper Dent 2001; 26:491–497.
  • Siso HS, Kustarci A, Göktolga EG. Microleakage in resin composite restorations after antimicrobial pre–treatments: effect of KTP laser, chlorhexidine gluconate and Clearfil Protect Bond. Oper Dent 2009; 34:321–327.
  • González BJ, Ruiz PM, Rodríguez NJ, Martín BB, Varela PP, Magán MF, Bahillo VM, Barciela CN. A comparative study of microleakage through enamel and cementum after laser Er:YAG instrumentation in class V cavity obturations, using scanning electron microscopy. J Clin Laser Med Surg 2002; 20:197–201.
  • Cagidiaco MC, Ferrari M, Vichi A, Davidson CL. Mapping of tubule and intertubule surface areas available for bonding in Class V and in Class II preparations. J Dent 1997; 25:379–389.
  • Alani AH, Toh CG. Detection of microleakage around dental restorations: a review. Oper Dent 1997; 22:173–185.
  • Piva E, Martos J, Demarco FF. Microleakage in amalgam restorations: influence of cavity cleanser solutions and anticariogenic agents. Oper Dent 2001; 26:383–388.
  • Obeidi A, Ghasemi A. Azima A, Ansari G. Effects of pulsed Nd:YAG laser on microleakage of composite restorations in class V cavities. Photomed Laser Surg 2005; 23:56–59.
  • Miserendino LJ, Levy GC, Rizoiu LM. Effects of Nd: YAG laser on the permeability of root canal wall dentin. J Endod 1995; 21:83–87.
  • Gonçalves SE, Araşjo MA, Damião AJ. Dentin bond strength: Influence of laser irradiation, acid etching and hipermineralization. J Laser Med Surg 1999; 17:77–85.
  • Cooper LF, Myers ML, Nelson DGA, Mowery AS. Shear strength of composite bonded to laser– prepared dentin. J Prosthet Dent 1988; 60:45–49.
  • Ribeiro CF, Anido AA, Rauscher FC, Yui KC, Gonçalves SE. Marginal leakage in class V cavities pretreated with different laser energy densities. Photomed Laser Surg 2005; 23:313–316.
  • White JM, Goodis HE. Laser interactions with dental hard tissues–effects on the pulp/dentin complex. In: Proceedings of the International Conference on the Dentin Pulp Complex, Tokyo, Japan. 1996; 41–50.
  • Goodman BD, Gwinnett AJ. A comparison of laser and acid–etch human enamel. Archs Oral Biol 1977; 22:215–220.
  • Frentzen M, Winkelsträter C, van Benthem H, Koort HJ. The effects of pulsed ultraviolet and infra–red lasers on dental enamel. Eur J Prosthodent Rest Dent 1996; 4:99–104.
  • Yazici R, Frentzen M, Dayangac B. In vitro analysis of the effects of acid or laser etching on microleakage around composite resin restorations. J Dent 2001; 29:355–361.
  • Corpas–Paster L, Moreno V, Garrido JDLG, Pedraza Muriel V, Moore K, Elias A. Comparing the tensile strength of brackets adhered to laser– etched enamel vs. acid–etched enamel. JADA 1997; 128:732–737.
  • Martinez–Insua A, Daminguez L, Rivera FG, Santana–Penín UA. Differences in bonding to acid–etched or Er:YAG laser–treated enamel and dentin surfaces. J Prosthet Dent 2000; 84:280–288.
  • Ceballos L, Osorio R, Toledano M, Marshall GW. Microleakage of composite restorations after acid or Er:YAG laser cavity treatments. Dent Mater 2001; 17:340–346.
  • Armengol V, Jean A, Rohanizadeh R, Hamel H. Scanning electron microscopic analysis of diseased and healthy dental hard tissues after Er:YAG laser irradiation: In vitro study. J Endod 1999; 25:543– 546.
Toplam 38 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Sağlık Kurumları Yönetimi
Bölüm Araştırma Makaleleri
Yazarlar

Alper Kuştarcı

Şeyda Siso

Neslihan Akdemir Bu kişi benim

Ömer Kırmalı

Yayımlanma Tarihi 6 Ocak 2013
Gönderilme Tarihi 12 Eylül 2012
Yayımlandığı Sayı Yıl 2012 Cilt: 3 Sayı: 3

Kaynak Göster

Vancouver Kuştarcı A, Siso Ş, Akdemir N, Kırmalı Ö. Microleakage of composite restorations after application of different KTP laser energy densities. Süleyman Demirel Üniversitesi Sağlık Bilimleri Dergisi. 2013;3(3):119-25.

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