Potential agents to control enamel caries-like lesions

Neto, Francisco Carlos Rehder; Maeda, Fernando Akio; Turssi, C. P.; Serra, Mônica Campos

doi:10.1016/j.jdent.2009.06.008

Cited by 79 publications

(72 citation statements)

References 33 publications

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“…The calculation of surface's micro hardness is a suitable method which was carried out using Vickers Hardness Measuring method. The advantage of this method is high accuracy and quantitative measurement capability [19]. In this method, there is the possibility of applying force with different sizes and the possibility of remeasurement of hardness of specimens within a specific time.…”

Section: Discussionmentioning

confidence: 99%

In Vitro Evaluation of Enamel Microhardness after Application of Two Types of Fluoride Varnish

Molaasadolah

Eskandarion

Ehsani

et al. 2017

JCDR

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Section: Discussionmentioning

confidence: 99%

In Vitro Evaluation of Enamel Microhardness after Application of Two Types of Fluoride Varnish

Molaasadolah

Eskandarion

Ehsani

et al. 2017

JCDR

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“…O Recaldent™, com perda mineral de 3,2% (MI Paste™, GC America), diferiu do grupo controle, do NovaMin ® e do dentifrício regular (Rehder Neto et al, 2009 proteger os dentes da desmineralização provocada pelos ácidos (Barbosa et al, 2012). …”

Section: Fluoretosunclassified

“…Este método tem baixo custo, possibilita uma maneira simples de se obter informação sobre erosão inicial em esmalte e dentina, pode ser usado em estudos "in vitro" e "in situ", uma vez que necessita de uma superfície de análise plana e polida. A microdureza de superfície Knoop é mais sensível a mudanças na camada mais superficial das lesões de erosão Rees, 2004;Cheaib;Rehder Neto et al, 2009;Schlueter et al, 2011;Turssi et al, 2011;Turssi et al, 2010) do que a microdureza de superfície Vickers Rees, 2004;Srinivasan et al, 2010;Venasakulchai et al, 2010). A nanodureza utiliza o mesmo princípio da microdureza, mais numa escala menor, com um endentador de diamante Berkovich de forma trigonal piramidal.…”

Section: Métodos Quantitativosunclassified

“…Após a seleção, os dentes foram armazenados em solução de timol a 0,1% (manipulada no Laboratório de Bioquímica da FOUSP) e mantidos em refrigerador a 4°C até o início da fase experimental (Rehder Neto et al, 2009;Turssi et al, 2011;Turssi et al, 2010).…”

Section: -Grau De Mineralização: As Coroas Foram Examinadas Pelo Métunclassified

“…Os espécimes foram limpos em aparelho de ultrassom (T 14, Thornton) com água deionizada por 20 minutos e secos com papel absorvente; em seguida foram fixados sobre uma fita dupla face (3M), previamente posicionada sobre uma placa de vidro, com a superfície do esmalte voltada para a fita. Para remoção dos resíduos provenientes do processo lixamento e polimento, os espécimes ficaram imersos em água deionizada dentro de uma cuba de ultrassom por 10 minutos (Ferreira, 2004;Pinheiro, 2009;Rehder Neto et al, 2009;Turssi et al, 2011;Turssi et al, 2010). (Amaechi et al, 1999;McKnight-Hanes;Whitford, 1992;Rehder Neto et al, 2009;Turssi et al, 2011).…”

Section: Preparo Dos Espécimes De Esmalte Para O Teste De Microdurezaunclassified

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Efeito de materiais contendo compostos bioativos na remineralização de lesões de erosão no esmalte bovino: estudo in vitro

Pedrosa¹

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Resin‐modified glass ionomer enriched with BIOGLASS: Ion‐release, bioactivity and antibacterial effect

et al. 2022

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Developing dental materials for the prevention of remineralization or demineralization is important for high‐risk caries patients. This study aimed to evaluate the physicochemical and microbiological effects of adding 45S5 bioglass to resin‐modified glass ionomer cement (RMGIC). Samples belonged to the following groups: GIC: conventional glass ionomer cement (Vitro Fil), RMGIC: resin‐modified GIC (Vitro Fil LC), and RMGIC/45S5: RMGIC with 10% (wt %) of 45S5. Changes in pH and release of fluoride, calcium, and phosphorus ions under acidic (pH 4) and neutral (pH 7) pH conditions were evaluated. Antibacterial activity was verified based on colony‐forming units. Material sorption and solubility were analyzed after bacterial exposure. After 28 days, the bioactivity of the materials was evaluated using scanning electron microscopy/energy dispersive X‐ray spectroscopy (SEM/EDS). Analysis of variance, post hoc Scheffe, and Tukey (α = 0.05) tests were employed for statistical analysis. RMGIC/45S5 showed higher alkalization activity, calcium release at pH 4 and 7, and sorption than GIC and RMGIC (p < .05). Release of phosphorus and fluoride at pH 4 and 7 was higher for GIC than that for RMGIC and RMGIC/45S5 (p < .05). RMGIC/45S5 showed higher values than RMGIC (p < .05). However, antibacterial activity did not differ among the groups. Precipitates of calcium and phosphorus were visualized in RMGIC/45S5 samples via SEM/EDS. These results indicate that the RMGIC/45S5 promotes alkalization and increases the release of calcium, phosphorus, and fluoride ions, resulting in precipitate deposition rich in calcium and phosphorus, thereby being a promising option to improve the bioactivity of RMGIC.

show abstract

Potential agents to control enamel caries-like lesions

Abstract: Depending on the agent used, a remineralizing effect may be expected, which reflects in caries lesions progression.

Cited by 79 publications

References 33 publications

In Vitro Evaluation of Enamel Microhardness after Application of Two Types of Fluoride Varnish

In Vitro Evaluation of Enamel Microhardness after Application of Two Types of Fluoride Varnish

Efeito de materiais contendo compostos bioativos na remineralização de lesões de erosão no esmalte bovino: estudo in vitro

Resin‐modified glass ionomer enriched with BIOGLASS: Ion‐release, bioactivity and antibacterial effect

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