Vinall Craig V, Garcia-Silva Tales C, Lou Jennifer S B, Wells Martha H, Tantbirojn Daranee, Versluis Antheunis
Assistant professor, in the Department of Pediatric Dentistry and Community Oral Health, at the College of Dentistry, University of Tennessee Health Science Center, Memphis, Tenn., USA.
Post-doctoral fellow, School of Dentistry, Department of Operative Dentistry and Dental Materials, Federal University of Uberlândia, Minas Gerais, Brazil.
Pediatr Dent. 2017 May 15;39(3):125-130.
To investigate intrapulpal temperature rise in a primary molar during light activation of a composite restoration to determine if clinically significant pulpal temperatures (greater than 5.5 degrees Celsius) were reached.
Restorative composites (EsthetX HD, Filtek Supreme Ultra, Filtek Bulk Fill) were placed into a primary molar with occlusal preparation (1.5 mm depth; remaining pulpal floor thickness one mm). The pulp was extirpated through a root access to place a thermocouple against the pulpal roof. Temperature changes were recorded during composite restoration light polymerization with three curing lights (one quartz-tungsten-halogen, two LEDs). Sample size was 10. Samples received additional irradiation to assure complete polymerization, followed by a third irradiation for calculating the exothermic heat contribution (subtracting third irradiation temperatures from first irradiation temperatures). Cured restorations were removed after each test, and the tooth was reused. Results were analyzed with Kruskal-Wallis (α =0.05).
Type of curing light and composite material affected the intrapulpal temperature rise, which was up to five degrees Celsius for one combination of LED-composite.
Clinicians should be aware of the potential for clinically significant intrapulpal temperature rises when light-activating composite restorations in a primary molar with a moderately deep cavity.
