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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Cytotoxicity testing of various dentine bonding agents using human pulp fibroblast cell lines and a 3T3 mouse fibroblast cell line.

Moodley, Desi January 2007 (has links)
Philosophiae Doctor - PhD / Introduction: Biocompatibility of all kinds of dental materials is of paramount importance In order to prevent/limit irritation or degeneration of the surrounding tissues where it is applied. Some researchers suggested that dentine bonding agents may be used for pulpal protection, while pulpal inflammation and inhibition of pulpal repair following the use of dentine bonding agents were also reported. Objectives: The first part of this study compared the cytotoxicity of human pulp cell lines to a mouse 3T3 cell line to cytotoxic challenges from dentine bonding agents. The second part of the study compared the cytotoxicity of recent dentine bonding agents namely, Scotchbond 1, Prime & Bond NTand Xeno III through artificial membranes as well as thin dentine discs (after its reaction with apatite) and Clearfil Protect Bond (CPB)as such, as well as the primer part of CPBand the bond part of CPB separately. Methods and Materials: Near confluent human pulp cells and 3T3 cells were exposed to culture medium (DMEM)extractions from the various polymerized agents mentioned above and the cell viability (survival rate) was measured using the standard MTTassay and related to the non-exposed controls. Results: Two human pulp cells lines were more sensitive to 3T3 cell lines while the other human cell line was less sensitive to the 3T3 cell line. All bonding agents as such were found to be cytotoxic towards the 3T3 cells with Xeno III (25%survival rate) and CPB (35%)the most cytotoxic. Of the two parts from CPB the bond part was the least toxic (91% survival rate), but the primer part (containing the anti-bacterial pyridinium molecule) was very toxic (30% survival rate). ScotchBond 1 (59% survival rate) and Prime & Bond NT (62% survival rate) were not statistically different (Kruskal-Wallis Test, p>0.05). However,the survival rate of Xeno III (25% through membrane as well as dentine discs) and Clearfil Protect Bond (35%) were significantly lower than that of the other two bonding agents, with Xeno III significantly the most toxic (p<0.05 ) Conclusion: In general, all 4 dentine bonding agents were cytotoxic of which Xeno III was the most toxic even after its reaction with apatite (through dentine discs). The most toxic part of CPB was found to be the primer part containing the pyridinium linked molecule. If human pulp fibroblasts are used for cytotoxicity testing of dentine bonding agents many cell lines must be used.
2

Desenvolvimento e caracterização de uma resina adesiva experimental acrescida de hidroxietil acrilamida / Development and characterization of an experimental adhesive with the addition of hydroxyethil acrylamide

Rodrigues, Stefani Becker January 2013 (has links)
O objetivo do presente estudo foi desenvolver e caracterizar resinas adesivas contendo hidroxietil acrilamida (HEAA). Três grupos de resinas adesivas foram formulados, GHEAA33% (33,3% de HEAA + 66,6% de bisfenol A glicedil dimetacrilato - BisGMA), GHEAA50% (50% de HEAA + 50% de BisGMA) e GHEMA (33,3% de hidroxietil metacrilato - HEMA + 66,6% de BisGMA). Parâmetros como resistência à flexão (n= 12), grau de inchamento (n= 3), temperatura de transição vítrea (n= 3) e degradação em solvente (n= 5) foram avaliados de cada resina adesiva. Em adição foi avaliado com calorimetria exploratória diferencial (DSC), o processo de polimerização das resinas experimentais (n= 3), bem como dos homopolímeros componentes, BisGMA, HEMA, HEAA, HEMA* sem adição de etil 4- dimetilaminobenzoato (EDAB) e HEAA* sem adição de EDAB. Os resultados foram analisados estatisticamente com auxílio de ANOVA de uma via, teste de Tukey e teste t pareado. Todas as resinas adesivas e homopolímeros, exceto HEMA, HEAA* e HEMA*, apresentaram uma alta taxa de polimerização e um alto grau de conversão. Não houve diferença estatística entre as resinas adesivas para a temperatura de transição vítrea e a degradação em solvente (p>0,05). Entretanto, o grupo GHEAA33% apresentou a menor variação de grau de inchamento (p<0,05) e os menores valores de resistência à flexão (p<0,05) quando comparado com o grupo GHEMA. Considerando que a hidroxietil acrilamida foi capaz de promover o aumento do processo de polimerização de resinas adesivas experimentais e, tendo em vista sua potencial resistência à degradação hidrolítica e ainda, com base nos resultados dos demais ensaios, o grupo GHEAA33%, parece reunir as melhores condições de desenvolvimento de resinas adesivas inovadoras. / The purpose of this study was to develop an experimental adhesive resin using hydroxyethyl acrylamide (HEAA). Three groups of experimental resin were formulated, GHEAA33% (33.3% HEAA + 66.6% Bisphenol A glycerolate dimethacrylate- BisGMA), GHEAA50% (50% HEAA + 50% BisGMA), and GHEMA (33.3% 2-Hydroxyethyl methacrylate- HEMA + 66.6% of BisGMA). Parameters such as flexural strength (n= 12), swelling degree (n= 3), glass transition temperature (n= 3), and softening in solvent (n= 5) were evaluated for each adhesive resin. In addition, the polymerization process of each adhesive resin group (n= 3), as well as for the homopolymers, BisGMA, HEMA, HEAA, HEMA* without ethyl 4-dimethylaminobenzoate (EDAB), and HEAA* without EDAB, were also evaluated using differential scanning calorimetry (DSC). The results were analyzed using one way ANOVA, Tukey’s test, and Student’s t-test. For all of the resins and homopolymers evaluated, except for homopolymers HEMA, HEMA* and HEAA* homopolymer, a high rate of polymerization and a high degree of conversion were observed. There was no significant difference (p > 0.05) for the glass transition temperature and for softening in solvent for the adhesive resins assayed. In contrast, the GHEAA33% group exhibited less swelling degree (p < 0.05) and reduced flexural strength (p < 0.05) compared to the GHEMA group. HEAA was also found to promote the polymerization process and was resistant to hydrolytic degradation. Thus, GHEAA33% appears to be a promising alternative for the production of innovative adhesive resins.
3

Desenvolvimento e caracterização de uma resina adesiva experimental acrescida de hidroxietil acrilamida / Development and characterization of an experimental adhesive with the addition of hydroxyethil acrylamide

Rodrigues, Stefani Becker January 2013 (has links)
O objetivo do presente estudo foi desenvolver e caracterizar resinas adesivas contendo hidroxietil acrilamida (HEAA). Três grupos de resinas adesivas foram formulados, GHEAA33% (33,3% de HEAA + 66,6% de bisfenol A glicedil dimetacrilato - BisGMA), GHEAA50% (50% de HEAA + 50% de BisGMA) e GHEMA (33,3% de hidroxietil metacrilato - HEMA + 66,6% de BisGMA). Parâmetros como resistência à flexão (n= 12), grau de inchamento (n= 3), temperatura de transição vítrea (n= 3) e degradação em solvente (n= 5) foram avaliados de cada resina adesiva. Em adição foi avaliado com calorimetria exploratória diferencial (DSC), o processo de polimerização das resinas experimentais (n= 3), bem como dos homopolímeros componentes, BisGMA, HEMA, HEAA, HEMA* sem adição de etil 4- dimetilaminobenzoato (EDAB) e HEAA* sem adição de EDAB. Os resultados foram analisados estatisticamente com auxílio de ANOVA de uma via, teste de Tukey e teste t pareado. Todas as resinas adesivas e homopolímeros, exceto HEMA, HEAA* e HEMA*, apresentaram uma alta taxa de polimerização e um alto grau de conversão. Não houve diferença estatística entre as resinas adesivas para a temperatura de transição vítrea e a degradação em solvente (p>0,05). Entretanto, o grupo GHEAA33% apresentou a menor variação de grau de inchamento (p<0,05) e os menores valores de resistência à flexão (p<0,05) quando comparado com o grupo GHEMA. Considerando que a hidroxietil acrilamida foi capaz de promover o aumento do processo de polimerização de resinas adesivas experimentais e, tendo em vista sua potencial resistência à degradação hidrolítica e ainda, com base nos resultados dos demais ensaios, o grupo GHEAA33%, parece reunir as melhores condições de desenvolvimento de resinas adesivas inovadoras. / The purpose of this study was to develop an experimental adhesive resin using hydroxyethyl acrylamide (HEAA). Three groups of experimental resin were formulated, GHEAA33% (33.3% HEAA + 66.6% Bisphenol A glycerolate dimethacrylate- BisGMA), GHEAA50% (50% HEAA + 50% BisGMA), and GHEMA (33.3% 2-Hydroxyethyl methacrylate- HEMA + 66.6% of BisGMA). Parameters such as flexural strength (n= 12), swelling degree (n= 3), glass transition temperature (n= 3), and softening in solvent (n= 5) were evaluated for each adhesive resin. In addition, the polymerization process of each adhesive resin group (n= 3), as well as for the homopolymers, BisGMA, HEMA, HEAA, HEMA* without ethyl 4-dimethylaminobenzoate (EDAB), and HEAA* without EDAB, were also evaluated using differential scanning calorimetry (DSC). The results were analyzed using one way ANOVA, Tukey’s test, and Student’s t-test. For all of the resins and homopolymers evaluated, except for homopolymers HEMA, HEMA* and HEAA* homopolymer, a high rate of polymerization and a high degree of conversion were observed. There was no significant difference (p > 0.05) for the glass transition temperature and for softening in solvent for the adhesive resins assayed. In contrast, the GHEAA33% group exhibited less swelling degree (p < 0.05) and reduced flexural strength (p < 0.05) compared to the GHEMA group. HEAA was also found to promote the polymerization process and was resistant to hydrolytic degradation. Thus, GHEAA33% appears to be a promising alternative for the production of innovative adhesive resins.
4

Desenvolvimento e caracterização de uma resina adesiva experimental acrescida de hidroxietil acrilamida / Development and characterization of an experimental adhesive with the addition of hydroxyethil acrylamide

Rodrigues, Stefani Becker January 2013 (has links)
O objetivo do presente estudo foi desenvolver e caracterizar resinas adesivas contendo hidroxietil acrilamida (HEAA). Três grupos de resinas adesivas foram formulados, GHEAA33% (33,3% de HEAA + 66,6% de bisfenol A glicedil dimetacrilato - BisGMA), GHEAA50% (50% de HEAA + 50% de BisGMA) e GHEMA (33,3% de hidroxietil metacrilato - HEMA + 66,6% de BisGMA). Parâmetros como resistência à flexão (n= 12), grau de inchamento (n= 3), temperatura de transição vítrea (n= 3) e degradação em solvente (n= 5) foram avaliados de cada resina adesiva. Em adição foi avaliado com calorimetria exploratória diferencial (DSC), o processo de polimerização das resinas experimentais (n= 3), bem como dos homopolímeros componentes, BisGMA, HEMA, HEAA, HEMA* sem adição de etil 4- dimetilaminobenzoato (EDAB) e HEAA* sem adição de EDAB. Os resultados foram analisados estatisticamente com auxílio de ANOVA de uma via, teste de Tukey e teste t pareado. Todas as resinas adesivas e homopolímeros, exceto HEMA, HEAA* e HEMA*, apresentaram uma alta taxa de polimerização e um alto grau de conversão. Não houve diferença estatística entre as resinas adesivas para a temperatura de transição vítrea e a degradação em solvente (p>0,05). Entretanto, o grupo GHEAA33% apresentou a menor variação de grau de inchamento (p<0,05) e os menores valores de resistência à flexão (p<0,05) quando comparado com o grupo GHEMA. Considerando que a hidroxietil acrilamida foi capaz de promover o aumento do processo de polimerização de resinas adesivas experimentais e, tendo em vista sua potencial resistência à degradação hidrolítica e ainda, com base nos resultados dos demais ensaios, o grupo GHEAA33%, parece reunir as melhores condições de desenvolvimento de resinas adesivas inovadoras. / The purpose of this study was to develop an experimental adhesive resin using hydroxyethyl acrylamide (HEAA). Three groups of experimental resin were formulated, GHEAA33% (33.3% HEAA + 66.6% Bisphenol A glycerolate dimethacrylate- BisGMA), GHEAA50% (50% HEAA + 50% BisGMA), and GHEMA (33.3% 2-Hydroxyethyl methacrylate- HEMA + 66.6% of BisGMA). Parameters such as flexural strength (n= 12), swelling degree (n= 3), glass transition temperature (n= 3), and softening in solvent (n= 5) were evaluated for each adhesive resin. In addition, the polymerization process of each adhesive resin group (n= 3), as well as for the homopolymers, BisGMA, HEMA, HEAA, HEMA* without ethyl 4-dimethylaminobenzoate (EDAB), and HEAA* without EDAB, were also evaluated using differential scanning calorimetry (DSC). The results were analyzed using one way ANOVA, Tukey’s test, and Student’s t-test. For all of the resins and homopolymers evaluated, except for homopolymers HEMA, HEMA* and HEAA* homopolymer, a high rate of polymerization and a high degree of conversion were observed. There was no significant difference (p > 0.05) for the glass transition temperature and for softening in solvent for the adhesive resins assayed. In contrast, the GHEAA33% group exhibited less swelling degree (p < 0.05) and reduced flexural strength (p < 0.05) compared to the GHEMA group. HEAA was also found to promote the polymerization process and was resistant to hydrolytic degradation. Thus, GHEAA33% appears to be a promising alternative for the production of innovative adhesive resins.
5

Estabilidade da interface de uniÃo de sistemas adesivos convencionais aplicados à dentina saturada com alcoÃis / Stability of interface created by simplified etch-and-rinse adhesives to alcohol-saturated acid-etched dentin

LÃvia de Oliveira Barros 17 February 2011 (has links)
CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / Existe um consenso de que a instabilidade da interface de uniÃo resina-dentina està relacionada com a quantidade de monÃmeros hidrofÃlicos presentes no sistema adesivo. Dessa forma, interfaces adesivas mais duradouras seriam alcanÃadas com a utilizaÃÃo de sistemas adesivos mais hidrofÃbicos. Uma maneira de unir monÃmeros hidrÃfobos à dentina à atravÃs da saturaÃÃo da matriz dentinÃria desmineralizada por etanol ao invÃs de Ãgua (ethanol-wet bonding technique). O objetivo deste trabalho in vitro foi avaliar o efeito do protocolo de saturaÃÃo dentinÃria, utilizando alcoÃis, na estabilidade da interface de uniÃo produzida por sistemas adesivos convencionais de dois passos. Para isso, foram utilizados 20 terceiros molares humanos, que tiveram a dentina coronÃria exposta e foram distribuÃdos aleatoriamente em quatro grupos experimentais (n=5): Adper Single Bond 2 (SB) aplicado sobre dentina saturada com Ãgua ou etanol; e XP Bond (XP) aplicado sobre dentina saturada com Ãgua ou tert-butanol. O protocolo de saturaÃÃo da dentina foi realizado atravÃs da aplicaÃÃo de 2 &#956;l de etanol 100% ou tert-butanol 99,5% diretamente sobre a dentina por um perÃodo de 60 s. Um platà de resina composta foi confeccionado sobre superfÃcie dentinÃria apÃs a aplicaÃÃo do sistema adesivo e os espÃcimes foram cortados pela tÃcnica non-trimming de obtenÃÃo de palitos para o teste de microtraÃÃo. Os palitos de cada dente foram igualmente divididos em dois subgrupos: imediatamente testado ou envelhecido em soluÃÃo de NaOCl a 10% por 1 hora. Os espÃcimes foram tracionados atà a ruptura da uniÃo a uma velocidade de 1 mm/min e sua forÃa de uniÃo mensurada. Os palitos fraturados foram analisados e classificados de acordo com o modo de fratura em mista, adesiva, coesiva em dentina e coesiva em compÃsito, e os valores expressos em porcentagem. Os valores de resistÃncia de uniÃo foram estatisticamente analisados usando os testes ANOVA a trÃs critÃrios e Tukey (&#945;=0.05). Discos extras de dentina foram submetidos aos procedimentos adesivos de cada grupo testado e utilizados para investigar as caracterÃsticas morfolÃgicas da interface de uniÃo atravÃs de microscopia Ãptica apÃs imersÃo em soluÃÃo amonical de nitrato de prata. Os resultados do teste de microtraÃÃo mostraram que a imersÃo em soluÃÃo de NaOCl reduziu significativamente a forÃa de uniÃo em comparaÃÃo aos grupos controle (p<0.05) e aumentou a nanoinfiltraÃÃo das interfaces adesivas de todos os sistemas adesivos testados. A saturaÃÃo da dentina com etanol 100% reduziu os valores de resistÃncia adesiva para SB quando comparado ao grupo controle, e esta mesma tendÃncia foi observada na infiltraÃÃo de prata. O uso do tert-butanol 99,5% nÃo afetou os valores de resistÃncia adesiva para o XP, assim como a deposiÃÃo de nitrato de prata na interface adesiva. ConclusÃo: Os protocolos simplificados de saturaÃÃo da dentina com alcoÃis utilizados no presente estudo nÃo foram capazes de melhorar a estabilidade da interface de uniÃo para sistemas adesivos convencionais de dois passos. / There is a consensus that the resin-dentin bond instability is correlated with increased hydrophilic resin monomer content in dentin adhesive. Thus, more durable bonds could be created when more hydrophobic resins were used. One way to bond hydrophobic monomers to acid-etched dentin is saturating the demineralized dentin with ethanol instead of water (ethanol-wet bonding technique). The objective of this in vitro study was to evaluate the effect of âalcohol wet bondingâ technique on the stability of adhesive interface produced by two-step etch-and-rinse adhesives systems. For this, it was used 20 human third molars that had superficial dentin exposed and were randomly divided into four experimental groups (n=5): Adper Single Bond 2 (SB) bonded to acid-etched dentin saturated with water or ethanol; and XP Bond (XP) bonded acid-etched dentin saturated with water or 99.5% tert-butanol. The simplified dentin dehydration protocol was performed using 2 &#956;l 100% ethanol or 99.5% tert-butanol directly applied in dentin for 60 s. Composite build-ups were built on dentin surface and specimens were cut into non-trimming dentin-composite beams to microtensile testing. Beams from each tooth were divided equally in two subgroups: immediately tested and aged by immersion in 10% NaOCl solution for 1 h. Specimens were pulled until failure at crosshead speed of 1 mm/min and bond strength was calculated. Fractured sticks were analyzed and classified according to the failure mode as mixed, adhesive, cohesive in dentin and cohesive in composite; and expressed in percentage. Data from &#956;TBS test were statistically analyzed using three-way ANOVA and Tukey tests (&#945;=0.05). Additional dentin disks were bonded using the same groups tested and the morphological characteristics of adhesive interface were investigated by light microscopy after immersion in ammoniacal silver nitrate solution. &#956;TBS results showed that NaOCl solution reduced significantly bond strength comparing with the control groups (p<0.05) and increased the silver nitrate interfacial deposit for all adhesives tested. SB used in ethanol saturated-dentin showed significant lower bond strength values in comparison with SB control group, and this same tendency was observed in the silver nitrate deposition. The use of tert-butanol did not influence XP bond strengths values and silver nitrate deposits. Conclusion: The âalcohol wet bondingâ simplified technique used in the present study was not able to improve resin-dentin bond stability for simplified etch-and-rinse adhesive systems.

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