Microhardness of Radicular Dentin Treated with 980-nm Diode Laser and Different Irrigant Solutions

Viapiana, Raqueli; Sousa‐Neto, Manoel Damião; Souza‐Gabriel, Aline Evangelista; Alfredo, Edson; Silva-Sousa, Yara Teresinha Corrêa

doi:10.1089/pho.2011.3109

Cited by 25 publications

(29 citation statements)

References 25 publications

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“…25 Additionally, the root resistance to fracture can be adversely affected by reduction in microhardness 26 and flexural strength. 21 The present study assessed the microhardness and flexural strength of root dentin exposed to chemical agents.…”

Section: Discussionmentioning

confidence: 99%

Impact of chemical agents for surface treatments on microhardness and flexural strength of root dentin

et al. 2014

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This study assessed the cross-sectional Knoop microhardness and flexural strength of root dentin exposed to different surface treatments with chemical agents after biomechanical preparation. Root canals from human canines were biomechanically treated and divided into eight groups (n=10) to receive one of the following dentin treatments: I. Deionized water (control); II. 5.25% Sodium hypochlorite (NaOCl); III. NaOCl + 10% Sodium ascorbate (SA); IV. SA; V. 2% Chlorhexidine gel (CHX); VI. 37% Phosphoric acid gel (PA) + CHX; VII. PA; and VIII. PA + NaOCl. The roots were sectioned to obtain specimens that were evaluated for cross-sectional Knoop microhardness and flexural strength using a three-point bending test. ANOVA and Tukey's test were performed. The microhardness in the control group was significantly higher (p < 0.05) than in the groups exposed to chemical agents, which in turn were statistically similar (p > 0.05) to each other. Regarding flexural strength, PA+NaOCl provided statistical higher values than PA+CHX and CHX. However, there was no significant difference between the control group and those groups subjected to surface treatment (p > 0.05). Dentin microhardness was reduced after exposure to NaOCl, CHX, PA, SA and their associations and the flexural strength of radicular dentin was not affected by the chemical agents.

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Section: Discussionmentioning

confidence: 99%

Impact of chemical agents for surface treatments on microhardness and flexural strength of root dentin

et al. 2014

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“…When root canals following preparation and irrigation with different irrigants (NaOCl, water, NaOCl/EDTA) were irradiated with a 980‐nm diode laser with 1 W/100 Hz, or 3 W/100 Hz, fracture resistance was not altered when compared to untreated controls . Following laser irradiation of root canals in extracted teeth with a 980‐nm diode laser with 1 W/100 Hz or 3 W/100 Hz for 20 s, the microhardness test (KHN) revealed increased microhardness when compared to non‐irradiated controls . Following irrigation with EDTA and the use of a 980‐nm diode laser, most of the dentin was free of a smear layer; open tubules and melted areas were detected .…”

Section: Laser Treatmentmentioning

confidence: 99%

Effects of mechanical instrumentation and chemical irrigation on the root canal dentin and surrounding tissues

Hülsmann¹

2013

Endodontic Topics

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Preparation and disinfection of the root canal aims to remove organic and inorganic tissue from within the root canal, reduce the number of microorganisms, neutralize endotoxins inside the dentin, and prepare the root canal for proper obturation. These aims can be achieved in many cases to a degree that promises a high chance of success through a combination of mechanical preparation and chemical disinfection—in other words, irrigation and medication. Preparation and disinfection both physically and chemically act on the lumen of the root canal itself, trying to remove as much infected material as possible, but also act on the surrounding dentin and all of its components including the dentinal tubules. The chemomechanical process attempts to remove the adhering biofilm as well as microorganisms and their by‐products. It is important to investigate the effect of various treatment options on root canal dentin, the periodontal ligament, and the surrounding alveolar bone. When mechanical processes and chemical agents are applied to a substrate such as dentin, this implies that the dentin will be altered or modified in structure, composition, and/or physical properties. This review aims to summarize the present knowledge on the effects of mechanical instrumentation and chemical irrigation on the root canal dentin and surrounding tissues.

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“…Os mais utilizados para essa finalidade são o carvão mineral/vegetal e o diaminofluoreto de prata a 12% (CALMON, 2001;JORDÃO, 2011). Como há a possibilidade da provocação de microfusões na superfície dentinária, foram adotados parâmetros seguros para minimizar esse risco, como a fixação da potência de 1.5 W e a frequência de 100 Hz, pulsátil (VIAPIANA et al, 2012;FARIA et al, 2012). Além desses parâmetros, a sinergia do tamanho e espessura adequados de fibra também foram fundamentais, e melhoraram a segurança e a utilização da técnica (JORDÃO, 2011).…”

Section: Figura 22unclassified

“…No tratamento dos canais radiculares, os lasers são utilizados para a remoção do tecido pulpar residual e da camada de debris e smear (MICHIELS et al, 2010;MOURA et al, 2010;REDDY et al, 2013;SAHAR-HELFT et al, 2015), e na desinfecção do canal radicular por meio da redução significativa do número de bactérias (YASUDA et al, 2010;FRANZEN et al, 2011;PIRNAT et al, 2011;HSU et al, 2015). Porém, podem influenciar negativamente na dureza e permeabilidad e dentinária (MICHIELS et al, 2010;PIRNAT et al, 2011;MANEESHA et al, 2013;SAHAR-HELFT et al, 2015), visto que podem causar microfusões da superfície dentinária (HUIXIA et al, 2009;VIAPIANA et al, 2012). Essa possibilidade pode ser agravada pela elevação excessiva na temperatura durante a irradiação intracanal, mas é facilmente controlada mediante a utilização de parâmetros seguros (ALFREDO et al, 2008;HUIXIA et al, 2009;HMUD et al, 2010HMUD et al, , 2010a) e fibras adequadas para o procedimento em questão WALSH, 2011;MANEESHA et al, 2013).…”

Section: Introductionunclassified

Efeito da irradiação com lasers de alta potência na adesividade do cimento resinoso às paredes do interior do canal radicular e análise da interface adesiva

Cruvinel¹

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Microhardness of Radicular Dentin Treated with 980-nm Diode Laser and Different Irrigant Solutions

Cited by 25 publications

References 25 publications

Impact of chemical agents for surface treatments on microhardness and flexural strength of root dentin

Impact of chemical agents for surface treatments on microhardness and flexural strength of root dentin

Effects of mechanical instrumentation and chemical irrigation on the root canal dentin and surrounding tissues

Efeito da irradiação com lasers de alta potência na adesividade do cimento resinoso às paredes do interior do canal radicular e análise da interface adesiva

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