Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials

Kaptan, Arife; Çukurcu, Çiğdem

doi:10.26650/eor.20210024

Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials

Çiğdem ÇUKURCU, (Sivas Cumhuriyet Üniversitesi, Diş Hekimliği Fakültesi, Çocuk Diş Hekimliği Anabilim Dalı, Sivas, Türkiye)

Arife KAPTAN (Sivas Cumhuriyet Üniversitesi, Diş Hekimliği Fakültesi, Çocuk Diş Hekimliği Anabilim Dalı, Sivas, Türkiye)

European oral research (Online)

1 0

Yıl: 2021 Cilt: 55 Sayı: 1 Sayfa Aralığı: 28 - 33 Metin Dili: İngilizce DOI: 10.26650/eor.20210024 İndeks Tarihi: 23-06-2021

Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials

Öz:

PurposeTo evaluate the temperature changes in primary teeth pulp chambers of differentdentin thicknesses during polymerization of four glass ionomer-based restorativematerials.Materials and MethodsEighty extracted, caries‑free, primary molars were prepared as standardized ClassI occlusal cavities with dentin thicknesses of 1 mm and 2 mm. Four glass ionomerbasedrestorative materials, Dyract XP, Photac Fil Quick Aplicap, Fuji II LC, andGCP Glass Fill, were placed in the cavities and cured with two light-curing units.Temperature increases (initial temperature, 37°C) in the pulp chamber duringpolymerization were recorded by a J-type thermocouple in a pulpal microcirculationset-up. The data were analyzed with Variance analyses and Tukey tests.ResultsThe temperatures recorded in samples with dentin thicknesses of 1 mm and 2mm exhibited statistically significant differences (p<0.05). The GCP Glass Fill groupexhibited the highest temperature increases for both dentin thicknesses (p<0.05).The other groups were not statistically different but the Dyract XP group exhibitedthe least temperature change.ConclusionThe highest temperature changes were observed for 1 mm dentin thickness. Alltemperature increases during polymerizations and setting reactions were lowerthan the corresponding critical values 5.5°C.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

1. Öztürk B, Üşümez A, Öztürk AN, Ozer F. In vitro assessment of temperature change in the pulp chamber during cavity preparation. J Prosthet Dent 2004;91:436-40. [CrossRef ]
2. Schneider L, Consani S, Correr-Sobrinho L, Correr A, Sinhoreti M. Halogen and LED light curing of composite: Temperature increase and Knoop hardness. Clin Oral Investig 2006;10:66-71. [CrossRef ]
3. Al-Qudah A, Mitchell C, Biagioni P, Hussey D. Effect of composite shade, increment thickness and curing light on temperature rise during photocuring. J Dent 2007;35:238-45. [CrossRef ]
4. Zach L, Cohen G. Pulp response to externally applied heat. Oral Surg Oral Med Oral Pathol 1965;19:515-30. [CrossRef ]
5. Agematsu H, Abe S, Shiozaki K, Usami A, Ogata S, Suzuki K, Soejima M, Ohnishi M, Nonami K, Ide Y. Relationship between large tubules and dentin caries in human deciduous tooth. Bull Tokyo Dent Coll 2005;46:7-15. [CrossRef ]
6. Paghdiwala A, Vaidyanathan T, Paghdiwala M. Evaluation of erbium: YAG laser radiation of hard dental tissues: Analysis of temperature changes, depth of cuts and structural effects. Scanning microsc 1993;7:989-97.
7. Maruo IT, Godoy-Bezerra J, Saga AY, Tanaka OM, Maruo H, Camargo ES. Effect of etching and light-curing time on the shear bond strength of a resin-modified glass ionomer cement. Brazilian dental journal 2010;21:533-7. [CrossRef ]
8. Fajen VB, Duncanson MG, Jr., Nanda RS, Currier GF, Angolkar PV. An in vitro evaluation of bond strength of three glass ionomer cements. American journal of orthodontics and dentofacial orthopedics : official publication of the American Association of Orthodontists, its constituent societies, and the American Board of Orthodontics 1990;97:316-22. [CrossRef ]
9. Pereira LC, Nunes MC, Dibb RG, Powers JM, Roulet JF, Navarro MF. Mechanical properties and bond strength of glass-ionomer cements. The journal of adhesive dentistry 2002;4:73-80.
10. Horváth A, Papp Z, Dobó-Nagy C, Gera I. Clinical examination of the gingival effects of three glass ionomer restorative materials (GC fuji IX GP, GC fuji IX GP EXTRA és GC EQUIA). Fogorvosi szemle 2014;107:125-30.
11. Koenraads H, Van der Kroon G, Frencken J. Compressive strength of two newly developed glass-ionomer materials for use with the Atraumatic Restorative Treatment (ART) approach in class II cavities. Dent Mater 2009;25:551-6. [CrossRef ] 12. Menne-Happ U, Ilie N. Effect of gloss and heat on the mechanical behaviour of a glass carbomer cement. J Dent 2013;41:223-30. [CrossRef ] 13. Savas S, Botsali MS, Kucukyilmaz E, Sari T. Evaluation of temperature changes in the pulp chamber during polymerization of light-cured pulp-capping materials by using a VALO LED light curing unit at different curing distances. Dent Mater 2014;33:764-9. [CrossRef]
14. Gavic L, Gorseta K, Glavina D, Czarnecka B, Nicholson JW. Heat transfer properties and thermal cure of glass-ionomer dental cements. J Mater Sci Mater Med 2015;26:249. [CrossRef ]
15. Al-Qudah A, Mitchell C, Biagioni P, Hussey D. Thermographic investigation of contemporary resin-containing dental materials. J Dent 2005;33:593-602. [CrossRef ]
16. Ozturk B, Ozturk A, Usumez A, Usumez S, Ozer F. Temperature rise during adhesive and resin composite polymerization with various light curing sources. Oper Dent 2004;29:325-32.
17. Koutsi V, Noonan R, Horner J, Simpson M, Matthews W, Pashley DH. The effect of dentin depth on the permeability and ultrastructure of primary molars. Pediatr Dent 1994;16:29-35.
18. Mjör P. Dentin-predentin complex and its permeability: Pathology and treatment overview. J Dent Res 1985;64:621-7. [CrossRef ]
19. Guiraldo RD, Consani S, Lympius T, Schneider LF, Sinhoreti MA, Correr-Sobrinho L. Influence of the light curing unit and thickness of residual dentin on generation of heat during composite photoactivation. J Oral Sci 2008;50:137-42. [CrossRef ]
20. Ramoglu SI, Karamehmetoglu H, Sari T, Usumez S. Temperature rise caused in the pulp chamber under simulated intrapulpal microcirculation with different light-curing modes. Angle Orthod 2015;85:381-5. [CrossRef ]
21. Kodonas K, Gogos C, Tziafas D. Effect of simulated pulpal microcirculation on intrapulpal temperature changes following application of heat on tooth surfaces. Int Endod J 2009;42:247- 52. [CrossRef ]
22. Michalakis K, Pissiotis A, Hirayama H, Kang K, Kafantaris N. Comparison of temperature increase in the pulp chamber during the polymerization of materials used for the direct fabrication of provisional restorations. J Prosthet Dent 2006;96:418-23. [CrossRef ]
23. Kodonas K, Gogos C, Tziafa C. Effect of simulated pulpal microcirculation on intrachamber temperature changes following application of various curing units on tooth surface. J Dent 2009;37:485-90. [CrossRef ]
24. Carrasco TG, Carrasco-Guerisoli LD, Fröner IC. In vitro study of the pulp chamber temperature rise during light-activated bleaching. J Appl Oral Sci 2008;16:355-9. [CrossRef ]
25. Altan H, Göztas Z, Arslanoglu Z. Bulk-Fill restorative materials in primary tooth: An intrapulpal temperature changes study. Contemp Clin Dent 2018;9:52-7. [CrossRef ]
26. Botsali MS, Tokay U, Ozmen B, Cortcu M, Koyuturk AE, Kahvecioglu F. Effect of new innovative restorative carbomised glass cement on intrapulpal temperature rise: an ex-vivo study. Braz Oral Res 2016;30. [CrossRef ]
27. Loney R, Price R. Temperature transmission of high-output lightcuring units through dentin. Oper Dent 2001;26:516-20.
28. Takahashi N, Kitagami T, Komori T. Evaluation of thermal change in pulp chamber. J Dent Res 1977;56:1480. [CrossRef ]
29. Hubbezoglu I, Dogan A, Dogan O, Demir H. Kompozit rezin materyallerin farkli ışık kaynaklarıyla polimerizasyonu sırasında oluşan ısısal değişikliklerin incelenmesi. Cumhuriyet Dent J 2008;11:16-22.
30. Baroudi K, Silikas N, Watts DC. In vitro pulp chamber temperature rise from irradiation and exotherm of flowable composites. Int J Paediatr Dent 2009;19:48-54. [CrossRef ]
31. Müjdeci A, Yeşilyurt A, Gökay O. Kompozit rezinlerin polimerizasyonları esnasında pulpa odasındaki ısı değişimlerinin in vitro değerlendirilmesi. AÜ Diş Hek Fak Derg 2005;32:163-9. [CrossRef ]
32. Kahvecioglu F, Tosun G, Ülker HE. Intrapulpal thermal changes during setting reaction of glass Carbomer® using thermocure lamp. Biomed Res Int 2016:1-7. [CrossRef ]

APA	Çukurcu Ç, Kaptan A (2021). Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. , 28 - 33. 10.26650/eor.20210024
Chicago	Çukurcu Çiğdem,Kaptan Arife Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. (2021): 28 - 33. 10.26650/eor.20210024
MLA	Çukurcu Çiğdem,Kaptan Arife Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. , 2021, ss.28 - 33. 10.26650/eor.20210024
AMA	Çukurcu Ç,Kaptan A Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. . 2021; 28 - 33. 10.26650/eor.20210024
Vancouver	Çukurcu Ç,Kaptan A Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. . 2021; 28 - 33. 10.26650/eor.20210024
IEEE	Çukurcu Ç,Kaptan A "Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials." , ss.28 - 33, 2021. 10.26650/eor.20210024
ISNAD	Çukurcu, Çiğdem - Kaptan, Arife. "Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials". (2021), 28-33. https://doi.org/10.26650/eor.20210024

APA	Çukurcu Ç, Kaptan A (2021). Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. European oral research (Online), 55(1), 28 - 33. 10.26650/eor.20210024
Chicago	Çukurcu Çiğdem,Kaptan Arife Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. European oral research (Online) 55, no.1 (2021): 28 - 33. 10.26650/eor.20210024
MLA	Çukurcu Çiğdem,Kaptan Arife Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. European oral research (Online), vol.55, no.1, 2021, ss.28 - 33. 10.26650/eor.20210024
AMA	Çukurcu Ç,Kaptan A Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. European oral research (Online). 2021; 55(1): 28 - 33. 10.26650/eor.20210024
Vancouver	Çukurcu Ç,Kaptan A Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials. European oral research (Online). 2021; 55(1): 28 - 33. 10.26650/eor.20210024
IEEE	Çukurcu Ç,Kaptan A "Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials." European oral research (Online), 55, ss.28 - 33, 2021. 10.26650/eor.20210024
ISNAD	Çukurcu, Çiğdem - Kaptan, Arife. "Temperature increases in primary teeth pulp chamber during polymerization of glass ionomer-based restorative materials". European oral research (Online) 55/1 (2021), 28-33. https://doi.org/10.26650/eor.20210024