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Towards a more efficacious treatment for oropharyngeal candidiasis (OPC) : hydrogel-forming tablets for the controlled release delivery of chlorhexidine diacetateAl-Ani, Enas Atallah January 2018 (has links)
Oropharyngeal candidiasis is a localised infection in the oropharynx region caused by Candida species, predominately C. albicans. It is commonly spread among immunocompromised patients and aggravated by hyposalivation or xerostomia. Current treatment is by systemic antifungals, which might be accompanied by gastrointestinal tract disorders, headache, allergic reactions and drug interactions or Candida becoming resistant to them. In the present work, the anti-candida activity of chlorhexidine diacetate (CHD) was tested as the drug of choice, it has no systemic side effects and microorganisms do not develop resistance against it. Thymol and farnesol were also tested individually and in combination with CHD to investigate a synergistic effect against Candida planktonic cells. The effects of CHD and thymol were investigated against C. albicans biofilm after two hours exposure by testing the metabolic stress, vacuolar activity and protein content. The results of the anti-Candida activity of CHD and thymol based on the minimum inhibitory concentration (MIC) and the minimum biocidal concentration (MBC) were 2.5 and 5 μg/ml for the former and 125 and 250 μg/ml for the later. Farnesol did not show an MIC and MBC at the investigated concentrations, however, it increased the MIC and MBC of CHD to 5 and 40 μg/ml and of thymol to 250 and >250 μg/ml, respectively. The antibiofilm activity of CHD and thymol was concentration dependent and CHD was more potent than thymol. A concentration of 20 μg/ml and 2 hours treatment of Candida biofilm grown for 24 hours showed an 85% decrease in oxidative stress, 78% and 60% loss of vacuolar activity and protein content, respectively. The combination of both drugs showed a limited increase in the activity. The cytotoxic effects of CHD and thymol were tested on human embryo kidney epithelial cell line (HEK 293); the metabolic stress, lysosomal activity and protein content were tested. The cytotoxic effects were also concentration dependent and the combination have increased the cytotoxicity. A concentration of 20 μg/ml and 2 hours treatment showed a 40% decrease in oxidative stress and neither the lysosomal activity nor protein content of HEK 293 cells was affected by the treatment Finally, a mucoadhesive hydrogel buccal tablets for the controlled release of CHD were designed and prepared to increase the residence time of an effective concentration of CHD in the oral cavity for two hours. They were prepared using Poloxamer 407 (P407), hydroxypropyl methylcellulose (HPMC) and either sorbitol, mannitol or xylitol at different ratios. The tablets were investigated for their physical properties, ex vivo mucoadhesion, the rate of hydration, gelling efficiency using image analysis, differential scanning calorimetry (DSC), Fourier transforms infrared spectroscopy (FTIR), X-ray diffractometry (XRD) and in vitro dissolution using Apparatus I and a novel method based on controlled flow rate to mimic salivary drug delivery in the oral cavity. Based on the antibiofilm activity and the cytotoxic effect of CHD a concentration of 20 μg/mL was chosen to be released from the tablets to maintain both efficacy and safety. Accordingly, to maintain this concentration the final formulations were prepared with a 2.5 mg dose of CHD. Tablets analysis showed no chemical interaction with the excipient based on DSC, FTIR and XRD. Furthermore, a novel dissolution method was developed based on a constant flow rate of the dissolution media to mimic oral salivary flow. By comparing CHD release using App I and the flow rate method it was shown that hydrogel-forming tablets successfully controlled the release of CHD regardless of the volume of the dissolution media with approximately 90% release and an average release concentration of 19 μg/ml and 1 ml/min flow rate. This making it a potential candidate for future application for treatment of candidiasis in all types of patients.
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Avaliação do comportamento físico e microbiológico da incorporação de diacetato de clorexidina a resinas acrílicas a base de PMMA / Evaluation of physical and microbiological behavior of the chlorhexidine diacetate incorporation in PMMA based acrylic resinsLuciana Vieira Peroni 26 February 2014 (has links)
Neste trabalho, objetivou-se avaliar as propriedades físicas e microbiológicas de resinas acrílicas a base de polimetilmetacrilato após a incorporação de sal de diacetato de clorexidina (CDA) às mesmas. Para tal, foram confeccionados corpos de prova (CDPs) com as resinas VIPI COR e Duralay, sem e com incorporação de 0,5%; 1,0% e 2,0% de CDA, totalizando 8 grupos. A cromatografia líquida foi utilizada para mensurar a liberação de CDA pelas resinas acrílicas, e ainda, mensurar sua lixiviação de monômeros residuais.Para isso, os CDPs foram armazenados individualmente em placas para cultura celular de 24 poços contendo 1 ml de água destilada estéril em cada poço. Após tempo de armazenagem de 2 horas, 7 dias, 14 dias, 21 dias e 28 dias, a 37oC, a solução foi retirada e a liberação de clorexidina ou monômeros residuais foi avaliada utilizando-se HPLC associado a espectrometria ultravioleta. A atividade antifúngica para C. albicans foi avaliada utilizando teste de difusão em ágar, no qual os CDPs foram colocados em placas de BHI previamente inoculadas com C. albicans, com medição do halo de inibição após 48 horas de incubação a 37C. A análise do grau de conversão das resinas se deu através da técnica de espectroscopia de infravermelho transformada de Fourier FTIR utilizando-se uma amostra de resina não polimerizada de cada grupo e realizados 4 scans de absorbância. Para a mensuração da sorção de água por parte das resinas contendo CDA, foram confeccionados 10 corpos de prova para cada grupo, que foram posicionados em suporte dentro de dessecador a 37C para remoção de umidade intrínseca (m1) e depois imersos em 100 ml de água deionizada por 7 dias a 37C, tendo a água trocada diariamente. Após este intervalo, os corpos foram secos para obter a nova massa da resina (m2). As massas obtidas foram incluídas em fórmula matemática para obtenção do grau de sorção. Após obtenção dos resultados, quando comparou-se o halo inibição entre os grupos testados e de mesma marca, apenas as análises entre grupo CDA 2% x grupo CDA 1% e entre CDA 1% x CDA 0,5% não apresentaram diferenças significantes. Quanto a liberação de CDA, a análise de variância demonstrou que dois dos três fatores avaliados (concentração do fármaco e tempo de armazenagem) alteram de maneira significativa a taxa de liberação da clorexidina (p<0,0001), entretanto a marca do material pareceu não influenciar de maneira significativa na liberação do fármaco. Quanto ao grau de conversão, os valores obtidos não foram significantes e apresentou-se menor apenas nos grupos com CDA 2% . Para ambas a sorção de água aumentou conforme a incorporação do sal cresceu e houve aumento significativo nas concentrações de 1.0% e 2.0%. Podemos concluir que a incorporação da clorexidina às resinas a base de PMMA: é capaz de inibir o crescimento de C. albicans; não alterou o grau de conversão das resinas testadas; não altera a liberação de monômeros residuais; e, altera a sorção de água das resinas acrílicas a base de PMMA quando concentrações maiores de CDA são adicionadas. / This work aimed to evaluate physical and microbiological properties of PMMA acrylic resins after incorporating chlorhexidine diacetate salt (CDA) to them . For that, specimens ( CDPs ) were made with resins VIPI COR and Duralay , with and without incorporation of 0.5 % , 1.0 % and 2.0 % of CDA , totaling 8 groups . The liquid chromatography was used to measure the release of CDA by acrylic resins , and also to measure leaching of residual monomers . For that, CDPs were stored individually in cell culture plates to 24 well containing 1 ml of sterile distilled water in each well. Storage time after 2 hours , 7 days, 14 days, 21 days and 28 days at 37 C , the solution was removed and release of residual monomers or chlorhexidine was evaluated by using ultraviolet spectrometry combined with HPLC. The antifungal activity to C. albicans was evaluated using the agar diffusion method , in which the CDPs were placed on BHI plates inoculated with C. albicans with measuring the zone of inhibition after 48 hours incubation at 37 C. The analysis of the resins conversion degree is given by infrared spectroscopy Fourier transform - FTIR using an uncured resin sample in each group and 4 scans performed absorbance . For the measurement of resins containing CDA s water sorption, 10 specimens were prepared for each group , which were placed in support within desiccator 37 C to remove intrinsic ( m1 ) and then immersed moisture in 100 ml deionized water for 7 days at 37 C , and the water was changed daily. After this interval , the specimens were dried to obtain the new resins weight ( m2 ) . The masses obtained were included in the mathematical formula for the degree of sorption. After obtaining results, when compared the inhibition halo between the tested groups and the same brand , only the analyzes between group CDA2 % x CDA 1 % group and from CDA 1 % x CDA0.5 %,showed no significant differences . About the release of CDA , analysis of variance showed that two of the three factors assessed ( drug concentration and storage time ) significantly change the rate of release of chlorhexidine ( p < 0.0001 ) , however the material mark seemed not significantly influence the drug release . About the conversion degree , the values were not significant and were minor only in groups with CDA 2 % . For both water sorption increased with the incorporation of salt grew and there was significant increase in concentrations of 1.0 % and 2.0 % . We conclude that the incorporation of chlorhexidine to the PMMA based resin : is able to inhibit the growth of C. Albicans ; did not alter the degree of conversion of the resins tested , does not alter the release of residual monomers , and changes the water sorption of the base PMMA acrylic resins when CDA concentrations are incorporated.
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Avaliação in vitro de duas resinas macias para reembasamento de próteses modificadas pela incorporação de clorexidina / In vitro evaluation of two resins-based denture soft lininers modified by chlorhexidine incorporationMartinna de Mendonça e Bertolini 07 December 2011 (has links)
Resinas macias para reembasamento de próteses são largamente utilizadas após cirurgias para estabilizarem a prótese e condicionarem o tecido, aguardando a completa cicatrização. É importante que o material não seja facilmente colonizado por biofilme oral e se possível, evite a contaminação do sítio cirúrgico. Objetivou-se avaliar o efeito da incorporação de clorexidina às resinas acrílicas macias para o reembasamento de próteses totais, através de análises de liberação, citotoxicidade e efeito inibitório de um biofilme de C. albicans. Foram confeccionados corpos de provas (CDPs) com as resinas Trusoft e Coe-soft, com incorporação de 0%, 0,5%, 1,0% e 2,0% de clorexidina, totalizando 8 grupos. A liberação de clorexidina foi avaliada através da mensuração da mudança na densidade óptica da solução de armazenamento, na qual ficaram imersos os CDPs, por espectrometria UV, a cada 48 horas, durante 40 dias. A citotoxicidade celular foi avaliada em fibroblastos (linhagem L929), que ficaram 24 horas em contato com meio de cultura no qual os CDPs ficaram previamente imersos, pela técnica de absorção de corante vermelho neutro após 24, 48 e 72 horas e semanalmente até o 28 dia. E, por fim, a atividade antifúngica contra a C. albicans (ATCC 10231) foi avaliada de duas maneiras: (1) teste de difusão em ágar, no qual os CDPs foram colocados em placas de BHI previamente inoculadas com C. albicans, com medição do halo de inibição após 48 horas de incubação a 37C; (2) a avaliação da inibição da formação de um biofilme de C. albicans sobre a superfície dos CDPs pela quantificação por metil tetrazólio (MTT) a cada 48 horas, durante 22 dias, com leitura feita em espectrofotômetro de UV. Os dados obtidos foram inseridos no programa SigmaStat (versão 3.1, USA) para realizar as análises estatísticas. As diferenças estatísticas foram determinadas por análises de variâncias do tipo ANOVA e todos os procedimentos para comparações múltiplas pareadas foram feitos utilizando-se o método Holm-Sidak, com nível de significância global igual a 0,05. A clorexidina adicionada às resinas testadas foi capaz de ser liberada para o meio de armazenagem, proporcionalmente à quantidade de clorexidina incorporada, porém com diferentes cinéticas de liberação entre as resinas, visto que a Trusoft libera até 71% do total de clorexidina liberada nas primeiras 48 horas e a Coe-soft, até 44%. Ambas as resinas com incorporação de clorexidina apresentaram efeito citotóxico adicional, se comparadas às resinas sem clorexidina, porém para a Coe-soft não houve diferença estatística dos valores, apenas para a Trusoft (p<0,001). Ocorreu formação de halo de inibição proporcionalmente às concentrações de resinas adicionadas, com maiores halos para a resina Trusoft (p<0,001), e sem formação de halo para as resinas sem clorexidina; a inibição da formação de biofilme, realizada somente com a resina Coe-soft, mostrou total inibição durante 8, 12 e 16 dias, para a incorporação de 0,5%, 1,0% e 2,0% respectivamente, sendo uma diminuição estatisticamente significativa (p<0,001) em relação à resina sem incorporação de clorexidina, que não apresentou inibição do biofilme. / Denture soft lining materials are widely used after dental surgeries, tissue conditioning and stabilization of prostheses, until the complete tissue healing. It is important that this material not became easily colonized by oral biofilm and if possible, avoid contamination of the surgical site. The aim of this study was to evaluate the effect of chlorhexidine incorporation into resin-based soft denture lining material, considering the drug release analysis, cytotoxicity and C. albicans biofilm inhibition. Specimens were done using Trusoft and Coe-soft, incorporating 0%, 0.5%, 1.0% and 2.0% of chlorhexidine, totaling eight groups. The chlorhexidine release was evaluated through the measurement of change in optical density of the storage solution, which the specimens were immersed, by UV spectrometry, after every 48 hours for 40 days. The cellular cytotoxicity was evaluated in fibroblasts (strain L929), which were 24 hours in contact with culture medium, in which the specimens were previously immersed, the technique of neutral red dye uptake was used after 24, 48 and 72 hours and weekly until 28th day. Finally, the antifungal activity against C. albicans (ATCC 10231) was evaluated by two different ways: (1) agar diffusion test, in which the specimens were placed over the top of BHI agar plates previously inoculated with C. albicans, and the measurement of inhibition zone was done after 48h of incubation at 37C, (2) C. albicans biofilm inhibition over the specimens surface, which was mensured after every each 48 hours of biofilm and specimens co-incubation, by methyl tetrazolium (MTT), in UV/vis spectrophotometer, during 22 days. Data were analyzed with the SigmaStat software (version 3.1, USA). Statistical differences were determined by analysis of variance ANOVA and all procedures for multiple paired comparisons were made using the Holm-Sidak method, with overall significance level of 0.05. The chlorhexidine added to both resins, Trusoft and Coe-soft, can be released to the storage medium, with a dose-related effect, however the resins presented different release kinetics, since the Trusof released up to 71% of the total amount of the chlorhexidine released within the first 48 hours and Coe-soft release only up to 44%, considering the citotoxic effect, both chlorhexidine incorporated resins showed some extra cytotoxic effect, if compared to resins without chlorhexidine, but for Coe-soft no statistical difference of values was founded, only for Trusoft (p<0.001); considering the C. albicans inhibition, the agar diffusion test values were dose-related for both resins, however with bigger inhibition zones for Trusoft (p<0.001), and without any inhibition for the resins without clorexidine. For the C. albicans biofilm inhibition test, performed only with Coe-soft resin, it was verified a complete inhibition at 8, 12 and 16 days for the incorporation of 0.5%, 1.0% and 2.0% of clorexidine respectively, a statistically significant decrease (p<0.001) if compared to the resin without incorporation of chlorhexidine, which showed no inhibitory effect over the biofilm formation.
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Avaliação do comportamento físico e microbiológico da incorporação de diacetato de clorexidina a resinas acrílicas a base de PMMA / Evaluation of physical and microbiological behavior of the chlorhexidine diacetate incorporation in PMMA based acrylic resinsLuciana Vieira Peroni 26 February 2014 (has links)
Neste trabalho, objetivou-se avaliar as propriedades físicas e microbiológicas de resinas acrílicas a base de polimetilmetacrilato após a incorporação de sal de diacetato de clorexidina (CDA) às mesmas. Para tal, foram confeccionados corpos de prova (CDPs) com as resinas VIPI COR e Duralay, sem e com incorporação de 0,5%; 1,0% e 2,0% de CDA, totalizando 8 grupos. A cromatografia líquida foi utilizada para mensurar a liberação de CDA pelas resinas acrílicas, e ainda, mensurar sua lixiviação de monômeros residuais.Para isso, os CDPs foram armazenados individualmente em placas para cultura celular de 24 poços contendo 1 ml de água destilada estéril em cada poço. Após tempo de armazenagem de 2 horas, 7 dias, 14 dias, 21 dias e 28 dias, a 37oC, a solução foi retirada e a liberação de clorexidina ou monômeros residuais foi avaliada utilizando-se HPLC associado a espectrometria ultravioleta. A atividade antifúngica para C. albicans foi avaliada utilizando teste de difusão em ágar, no qual os CDPs foram colocados em placas de BHI previamente inoculadas com C. albicans, com medição do halo de inibição após 48 horas de incubação a 37C. A análise do grau de conversão das resinas se deu através da técnica de espectroscopia de infravermelho transformada de Fourier FTIR utilizando-se uma amostra de resina não polimerizada de cada grupo e realizados 4 scans de absorbância. Para a mensuração da sorção de água por parte das resinas contendo CDA, foram confeccionados 10 corpos de prova para cada grupo, que foram posicionados em suporte dentro de dessecador a 37C para remoção de umidade intrínseca (m1) e depois imersos em 100 ml de água deionizada por 7 dias a 37C, tendo a água trocada diariamente. Após este intervalo, os corpos foram secos para obter a nova massa da resina (m2). As massas obtidas foram incluídas em fórmula matemática para obtenção do grau de sorção. Após obtenção dos resultados, quando comparou-se o halo inibição entre os grupos testados e de mesma marca, apenas as análises entre grupo CDA 2% x grupo CDA 1% e entre CDA 1% x CDA 0,5% não apresentaram diferenças significantes. Quanto a liberação de CDA, a análise de variância demonstrou que dois dos três fatores avaliados (concentração do fármaco e tempo de armazenagem) alteram de maneira significativa a taxa de liberação da clorexidina (p<0,0001), entretanto a marca do material pareceu não influenciar de maneira significativa na liberação do fármaco. Quanto ao grau de conversão, os valores obtidos não foram significantes e apresentou-se menor apenas nos grupos com CDA 2% . Para ambas a sorção de água aumentou conforme a incorporação do sal cresceu e houve aumento significativo nas concentrações de 1.0% e 2.0%. Podemos concluir que a incorporação da clorexidina às resinas a base de PMMA: é capaz de inibir o crescimento de C. albicans; não alterou o grau de conversão das resinas testadas; não altera a liberação de monômeros residuais; e, altera a sorção de água das resinas acrílicas a base de PMMA quando concentrações maiores de CDA são adicionadas. / This work aimed to evaluate physical and microbiological properties of PMMA acrylic resins after incorporating chlorhexidine diacetate salt (CDA) to them . For that, specimens ( CDPs ) were made with resins VIPI COR and Duralay , with and without incorporation of 0.5 % , 1.0 % and 2.0 % of CDA , totaling 8 groups . The liquid chromatography was used to measure the release of CDA by acrylic resins , and also to measure leaching of residual monomers . For that, CDPs were stored individually in cell culture plates to 24 well containing 1 ml of sterile distilled water in each well. Storage time after 2 hours , 7 days, 14 days, 21 days and 28 days at 37 C , the solution was removed and release of residual monomers or chlorhexidine was evaluated by using ultraviolet spectrometry combined with HPLC. The antifungal activity to C. albicans was evaluated using the agar diffusion method , in which the CDPs were placed on BHI plates inoculated with C. albicans with measuring the zone of inhibition after 48 hours incubation at 37 C. The analysis of the resins conversion degree is given by infrared spectroscopy Fourier transform - FTIR using an uncured resin sample in each group and 4 scans performed absorbance . For the measurement of resins containing CDA s water sorption, 10 specimens were prepared for each group , which were placed in support within desiccator 37 C to remove intrinsic ( m1 ) and then immersed moisture in 100 ml deionized water for 7 days at 37 C , and the water was changed daily. After this interval , the specimens were dried to obtain the new resins weight ( m2 ) . The masses obtained were included in the mathematical formula for the degree of sorption. After obtaining results, when compared the inhibition halo between the tested groups and the same brand , only the analyzes between group CDA2 % x CDA 1 % group and from CDA 1 % x CDA0.5 %,showed no significant differences . About the release of CDA , analysis of variance showed that two of the three factors assessed ( drug concentration and storage time ) significantly change the rate of release of chlorhexidine ( p < 0.0001 ) , however the material mark seemed not significantly influence the drug release . About the conversion degree , the values were not significant and were minor only in groups with CDA 2 % . For both water sorption increased with the incorporation of salt grew and there was significant increase in concentrations of 1.0 % and 2.0 % . We conclude that the incorporation of chlorhexidine to the PMMA based resin : is able to inhibit the growth of C. Albicans ; did not alter the degree of conversion of the resins tested , does not alter the release of residual monomers , and changes the water sorption of the base PMMA acrylic resins when CDA concentrations are incorporated.
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Avaliação in vitro de duas resinas macias para reembasamento de próteses modificadas pela incorporação de clorexidina / In vitro evaluation of two resins-based denture soft lininers modified by chlorhexidine incorporationMartinna de Mendonça e Bertolini 07 December 2011 (has links)
Resinas macias para reembasamento de próteses são largamente utilizadas após cirurgias para estabilizarem a prótese e condicionarem o tecido, aguardando a completa cicatrização. É importante que o material não seja facilmente colonizado por biofilme oral e se possível, evite a contaminação do sítio cirúrgico. Objetivou-se avaliar o efeito da incorporação de clorexidina às resinas acrílicas macias para o reembasamento de próteses totais, através de análises de liberação, citotoxicidade e efeito inibitório de um biofilme de C. albicans. Foram confeccionados corpos de provas (CDPs) com as resinas Trusoft e Coe-soft, com incorporação de 0%, 0,5%, 1,0% e 2,0% de clorexidina, totalizando 8 grupos. A liberação de clorexidina foi avaliada através da mensuração da mudança na densidade óptica da solução de armazenamento, na qual ficaram imersos os CDPs, por espectrometria UV, a cada 48 horas, durante 40 dias. A citotoxicidade celular foi avaliada em fibroblastos (linhagem L929), que ficaram 24 horas em contato com meio de cultura no qual os CDPs ficaram previamente imersos, pela técnica de absorção de corante vermelho neutro após 24, 48 e 72 horas e semanalmente até o 28 dia. E, por fim, a atividade antifúngica contra a C. albicans (ATCC 10231) foi avaliada de duas maneiras: (1) teste de difusão em ágar, no qual os CDPs foram colocados em placas de BHI previamente inoculadas com C. albicans, com medição do halo de inibição após 48 horas de incubação a 37C; (2) a avaliação da inibição da formação de um biofilme de C. albicans sobre a superfície dos CDPs pela quantificação por metil tetrazólio (MTT) a cada 48 horas, durante 22 dias, com leitura feita em espectrofotômetro de UV. Os dados obtidos foram inseridos no programa SigmaStat (versão 3.1, USA) para realizar as análises estatísticas. As diferenças estatísticas foram determinadas por análises de variâncias do tipo ANOVA e todos os procedimentos para comparações múltiplas pareadas foram feitos utilizando-se o método Holm-Sidak, com nível de significância global igual a 0,05. A clorexidina adicionada às resinas testadas foi capaz de ser liberada para o meio de armazenagem, proporcionalmente à quantidade de clorexidina incorporada, porém com diferentes cinéticas de liberação entre as resinas, visto que a Trusoft libera até 71% do total de clorexidina liberada nas primeiras 48 horas e a Coe-soft, até 44%. Ambas as resinas com incorporação de clorexidina apresentaram efeito citotóxico adicional, se comparadas às resinas sem clorexidina, porém para a Coe-soft não houve diferença estatística dos valores, apenas para a Trusoft (p<0,001). Ocorreu formação de halo de inibição proporcionalmente às concentrações de resinas adicionadas, com maiores halos para a resina Trusoft (p<0,001), e sem formação de halo para as resinas sem clorexidina; a inibição da formação de biofilme, realizada somente com a resina Coe-soft, mostrou total inibição durante 8, 12 e 16 dias, para a incorporação de 0,5%, 1,0% e 2,0% respectivamente, sendo uma diminuição estatisticamente significativa (p<0,001) em relação à resina sem incorporação de clorexidina, que não apresentou inibição do biofilme. / Denture soft lining materials are widely used after dental surgeries, tissue conditioning and stabilization of prostheses, until the complete tissue healing. It is important that this material not became easily colonized by oral biofilm and if possible, avoid contamination of the surgical site. The aim of this study was to evaluate the effect of chlorhexidine incorporation into resin-based soft denture lining material, considering the drug release analysis, cytotoxicity and C. albicans biofilm inhibition. Specimens were done using Trusoft and Coe-soft, incorporating 0%, 0.5%, 1.0% and 2.0% of chlorhexidine, totaling eight groups. The chlorhexidine release was evaluated through the measurement of change in optical density of the storage solution, which the specimens were immersed, by UV spectrometry, after every 48 hours for 40 days. The cellular cytotoxicity was evaluated in fibroblasts (strain L929), which were 24 hours in contact with culture medium, in which the specimens were previously immersed, the technique of neutral red dye uptake was used after 24, 48 and 72 hours and weekly until 28th day. Finally, the antifungal activity against C. albicans (ATCC 10231) was evaluated by two different ways: (1) agar diffusion test, in which the specimens were placed over the top of BHI agar plates previously inoculated with C. albicans, and the measurement of inhibition zone was done after 48h of incubation at 37C, (2) C. albicans biofilm inhibition over the specimens surface, which was mensured after every each 48 hours of biofilm and specimens co-incubation, by methyl tetrazolium (MTT), in UV/vis spectrophotometer, during 22 days. Data were analyzed with the SigmaStat software (version 3.1, USA). Statistical differences were determined by analysis of variance ANOVA and all procedures for multiple paired comparisons were made using the Holm-Sidak method, with overall significance level of 0.05. The chlorhexidine added to both resins, Trusoft and Coe-soft, can be released to the storage medium, with a dose-related effect, however the resins presented different release kinetics, since the Trusof released up to 71% of the total amount of the chlorhexidine released within the first 48 hours and Coe-soft release only up to 44%, considering the citotoxic effect, both chlorhexidine incorporated resins showed some extra cytotoxic effect, if compared to resins without chlorhexidine, but for Coe-soft no statistical difference of values was founded, only for Trusoft (p<0.001); considering the C. albicans inhibition, the agar diffusion test values were dose-related for both resins, however with bigger inhibition zones for Trusoft (p<0.001), and without any inhibition for the resins without clorexidine. For the C. albicans biofilm inhibition test, performed only with Coe-soft resin, it was verified a complete inhibition at 8, 12 and 16 days for the incorporation of 0.5%, 1.0% and 2.0% of clorexidine respectively, a statistically significant decrease (p<0.001) if compared to the resin without incorporation of chlorhexidine, which showed no inhibitory effect over the biofilm formation.
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