Kássia Regina Simões Meira1, Camila Santos de Mattos Brito2, Frederico Barbosa de Sousa3. 1. Master Program in Dentistry, Health Sciences Center, Federal University of Paraiba, Cidade Universitária, 58051-900 João Pessoa, Paraiba, Brazil. Electronic address: kassiameira@hotmail.com. 2. Master Program in Dentistry, Health Sciences Center, Federal University of Paraiba, Cidade Universitária, 58051-900 João Pessoa, Paraiba, Brazil. Electronic address: mila.brito@gmail.com. 3. Master Program in Dentistry, Health Sciences Center, Federal University of Paraiba, Cidade Universitária, 58051-900 João Pessoa, Paraiba, Brazil; Laboratory of Microscopy and Biological Image, Health Sciences Center, Federal University of Paraiba, Cidade Universitária, 58051-900 João Pessoa, Paraiba, Brazil; Department of Morphology, Health Science Center, Federal University of Paraiba, Cidade Universitária, 58051-900 João Pessoa, Paraiba, Brazil. Electronic address: fredericosousa@hotmail.com.
Abstract
AIM: To test the hypothesis that the water volume more easily available for diffusion (αd) is the best predictor among all major components of the proportion of pore volume infiltrated by a liquid in the surface layer of dry natural enamel caries (NEC). MATERIALS AND METHOD: Two aqueous solutions of mercuric and potassium iodide (Thoulet's solutions) with different refractive indexes (1.4 and 1.47) and penetration coefficients (3212 cm/s and 2297 cm/s) were tested at histological points (n = 63) of ground sections of NEC lesions. Component volumes were measured with microradiography and interpretation of birefringence. Real-time 2D mapping of capillary flow was performed with orientation-independent polarizing microscopy. RESULTS: αd was a good predictor for both liquids (T1.40: R(2) = 0.413; T1.47: R(2) = 0.505), but was similar to the water and air volumes for Thoulet's 1.47, and to the mineral and organic volumes for Thoulet's 1.40. From real-time 2D mapping, infiltration in ground sections occurred in two propagation directions, perpendicularly to the prism paths (at the centre of the lesion bodies) and axially to the prism paths (at all parts of the lesions), with two penetration rates, the faster related to prisms sheaths and the slower related to intraprismatic pores, affecting penetration length and air displacement. CONCLUSIONS: αd was a good predictor for both liquids, but was similar to the water and air volumes for T1.47 and to the mineral and organic volumes for T1.40. Both flow mechanics and component volumes are required to interpret infiltration of liquids into NEC.
AIM: To test the hypothesis that the water volume more easily available for diffusion (αd) is the best predictor among all major components of the proportion of pore volume infiltrated by a liquid in the surface layer of dry natural enamel caries (NEC). MATERIALS AND METHOD: Two aqueous solutions of mercuric and potassium iodide (Thoulet's solutions) with different refractive indexes (1.4 and 1.47) and penetration coefficients (3212 cm/s and 2297 cm/s) were tested at histological points (n = 63) of ground sections of NEC lesions. Component volumes were measured with microradiography and interpretation of birefringence. Real-time 2D mapping of capillary flow was performed with orientation-independent polarizing microscopy. RESULTS: αd was a good predictor for both liquids (T1.40: R(2) = 0.413; T1.47: R(2) = 0.505), but was similar to the water and air volumes for Thoulet's 1.47, and to the mineral and organic volumes for Thoulet's 1.40. From real-time 2D mapping, infiltration in ground sections occurred in two propagation directions, perpendicularly to the prism paths (at the centre of the lesion bodies) and axially to the prism paths (at all parts of the lesions), with two penetration rates, the faster related to prisms sheaths and the slower related to intraprismatic pores, affecting penetration length and air displacement. CONCLUSIONS: αd was a good predictor for both liquids, but was similar to the water and air volumes for T1.47 and to the mineral and organic volumes for T1.40. Both flow mechanics and component volumes are required to interpret infiltration of liquids into NEC.
Authors: Laryssa de Barros Pinto; Maria Luiza Lima Alves Lira; Yuri Wanderley Cavalcanti; Eugênia Livia de Andrade Dantas; Maria Lúcia Oliveira Vieira; Gabriel Garcia de Carvalho; Frederico Barbosa de Sousa Journal: Sci Rep Date: 2019-02-26 Impact factor: 4.379