Influence of physical assessment of different light-curing units on irradiance and composite microhardness top/bottom ratio

The aim of this study was to evaluate the influence of the physical assessment of different light-curing units from 55 dental offices on the irradiance and composite microhardness top/bottom ratio, and the influence of the radiometers for LED or QTH light sources on irradiance measurement. The irradiance of each light-curing unit was evaluated with two radiometers, either for LED or QTH light. A questionnaire regarding the type of source (LED or QTH), time of use, date of last maintenance and light-curing performance assessment applied. The physical assessments were evaluated regarding damage or debris on the light tip. For each light-curing unit, three composite specimens were made (diameter = 7 mm; thickness = 2 mm) with polymerizing time of 20 s, in order to perform the microhardness (Knoop) test. Data were analyzed by Kruskal–Wallis and Dunn test (α = 0.01). There was wide variation in irradiance (0–1000 mW/cm²). Approximately 50 % of the light-curing units presented radiation lower than 300 mW/cm²; 10 % of light-curing units, especially those with LED source, presented values higher than 800 mW/cm², and 43 % of light-curing units worked with adequate irradiance between 301 and 800 mW/cm². In almost 60 % of cases, no maintenance of light-curing units was performed in a period of 3 to 10 years. The age of the light-curing units and the use of inadequate tips interfered negatively in irradiance. The data emphasize the importance of periodic maintenance of light-polymerizing, light-curing units.