An In Vitro Study Of The Penetrating And Sealing Properties Of Bis - Gma Resin Pit And Fissure Coatings

Powell, K. R

January 1975

Master of Dental Surgery / This work was digitised and made available on open access by the University of Sydney, Faculty of Dentistry and Sydney eScholarship . It may only be used for the purposes of research and study. Where possible, the Faculty will try to notify the author of this work. If you have any inquiries or issues regarding this work being made available please contact the Sydney eScholarship Repository Coordinator - ses@library.usyd.edu.au

Dental caries -- Prevention

Acrylic resins

In-vitro study of the color stability of modern restorative resins a thesis submitted in partial fulfillment ... prosthodontics ... /

Khokhar, Zahir A.

January 1989

Thesis (M.S.)--University of Michigan, 1989.

Dental resins Acrylic Resins. Color.

In-vitro study of the color stability of modern restorative resins a thesis submitted in partial fulfillment ... prosthodontics ... /

Khokhar, Zahir A.

January 1989

Thesis (M.S.)--University of Michigan, 1989.

Dental resins Acrylic Resins. Color.

Residual monomer in denture base acrylic

Lung, Ying-kei, Christie.

January 2003

Thesis (Ph.D.)--University of Hong Kong, 2004. / Also available in print.

High-temperature free-radical polymerization of n-butyl acrylate /

Quan, Congling. Soroush, Masoud. Grady, Michael.

January 2005

Thesis (Ph. D.)--Drexel University, 2005. / Includes abstract and vita. Includes bibliographical references (leaves 90-94).

Mechanical retention of acrylic teeth onto a pure nylon base

Van Der Poel, Nadine Olive

January 2014

Thesis submitted in fulfilment of the requirements for the degree Master of Technology: Dental Technology in the Faculty of Health and Wellness Sciences at the Cape Peninsula University of Technology 2014 / A pure nylon denture base does not bond chemically to the acrylic teeth processed into the denture. A mechanical bond is created by boring retention holes (diatorics) into the tooth structure. Concerns are that this form of retention might be insufficient. The purpose of this study is, firstly, to compare the retention of acrylic denture teeth in pure nylon dentures with that of teeth in conventional acrylic denture bases (the acrylic test pieces serving as the control standard), and secondly, to explore whether the technique prescribed for creating diatorics in acrylic teeth for use with pure nylon denture bases potentially has a weakening effect on the acrylic tooth structure. Two sets of 26 identical anterior one-tooth test pieces were created. The first set, labelled N, comprises two different pure nylon denture base materials labelled N1 and N2 – all have diatorics in the acrylic teeth. The second set, labelled A, comprised the same acrylic denture base. The set labelled A1 is the control standard without diatorics in the acrylic teeth and the set labelled A2 has diatorics within the acrylic teeth. A compressive load was applied to these test pieces at an angle of 45 degrees on the palatal surface of the tooth until fracture occurred or maximum load was reached. Resulting data from the first part of the research was analysed by One-Way ANOVA analysis. Resulting data for the second part of the research was analysed via the Chi-square cross- tabulation method. The One-Way ANOVA test revealed that there is no statistical difference in the mean fracture or maximum load in Newton values between the two A (acrylic denture base) groups. There is also no statistical difference in the mean fracture or maximum load in Newton values between the two N (pure nylon denture base) groups. There is, however, a statistically significant difference in the mean fracture or maximum load in Newton values of Group A in comparison to Group N. The Chi-square cross-tabulation indicated that the A groups have very similar breakage patterns, and the N groups have similar breakage patterns respectively. It is concluded that the mechanical retention of acrylic denture teeth in pure nylon denture bases is weaker than the mechanical and chemical retention of acrylic denture teeth in acrylic denture bases. It is also concluded that when diatorics are created as prescribed within the tooth, these do not weaken the tooth structure.

Dentures

Acrylic resins

Dental materials

The dimensional distortion of acrylic resin denture bases subjected to different dual cure materials and methods

Thokoane, Meriting Gladys

January 2013

A research report submitted to the School of Oral Health Science, Faculty of Health Sciences, University of the Witwatersrand, Johannesburg, in partial fulfilment of the requirements for the degree of Master of Dentistry in the field of Prosthodontics. Johannesburg, 2013 / Background: The majority of edentulous patients are unable to afford anything other than mucosa-borne complete dentures, but the conventional methods of complete denture fabrication can be lengthy and expensive. Simplified techniques have been proposed to reduce the number of clinical visits as well as the laboratory time and costs. One such technique has advocated making the final heat-cured acrylic resin denture base after the first visit, which then requires a second processing cure for the artificial teeth. This dual-cure has been reported to cause distortion of the previously cured denture base. Purpose: To measure the amount of linear and three-dimensional distortion of an acrylic resin maxillary denture base following an additional curing cycle using different processing methods. Method and Materials: A standardised method was developed for fabricating a maxillary denture base with measuring pins , as well as a standardised method for waxing an arch of teeth to the base. The pins were used to make three-dimensional measurements using a Reflex Microscope. The resins used were from the same manufacturer. Four dual cure methods of varying temperature and time were used: 1. Place flask in boiling water for 20 minutes, remove and plunge into cold water for 20 minutes; 2. Place into cold water, heat up to 70°C, leave for 1 hour, remove and bench cool; 3. Place into cold water, bring to 72°C for 8 hours and bench cool; and 4. Place in cold water, bring to the boil for 40 minutes, bench cool for 45 minutes, then plunge into cold water for 20 minutes. For each method five models were fabricated, to give a total of 20 models. Results: Although there was an overall distortion of all denture bases following a second cure, the linear and 3D differences were not statistically significant between and within the different dual cure methods tested. The mean percentage changes measured were translated into real changes in distances or angles between the pins, in order to ascertain the clinical relevance of these changes, for if they are too great, the distortion of the denture base will exceed the resilience of the mucosa as well as disrupt the peripheral seal, and the denture base will not be retentive. The largest mean change was seen in the three-dimension distance between the innermost pins in the posterior palate, but this was only 1.3mm. This also showed the worst change of all measurements, but it was still only 2.0mm. Conclusions: With the adaptive nature of the denture-supporting tissues, the changes described are unlikely to have any clinical significance. Although only one brand of denture base resin was used, it is representative of the modern rapid-cure resins, and so rapid cure methods can be advocated when a dual cure is required.

Acrylic Resins

Dental Materials

Dentures

An in vitro investigation of the flexural strength and microstructure of "stick glass fiber" and "wire mesh" reinforced heat cured denture base acrylic

Kiilu, Paul Muli

January 2008

Submitted in fulfillment of the Degree of Master in Technology: Dental Technology in the Department of Dental Services Faculty of Health Sciences, Durban University of Technology, 2008. / Globally in the field of Dental Technology, polymethyl methacrylate (PMMA) resin continues to be the popular material for the fabrication of denture bases in removable prosthodontics. However, the mechanical strength of the denture base is a concern due to fractures occurring intra-orally or when accidentally dropped. The objective of this in vitro investigation was therefore to evaluate and compare the flexural strength and microstructure of stick® glass fibre and wire mesh reinforced PMMA resin after thermocycling. The selection of the materials used in this study was based primarily on their popularity and availability in South Africa. These materials were selected to ensure that the results of this study would have further implicational value in the commercial dental industry when published. This investigation was conducted by means of fabricating a total of 90 PMMA resin specimens and divided in three groups consisting of 30 specimens each. Sample groups 1 and 2 were reinforced with stick® glass fibres and wire mesh respectively. The un-reinforced sample group was the control. All 90 specimens were thermocycled in water at temperatures between 5˚C and 55˚C for 2100 cycles. The flexural strength of each specimen was tested using a universal testing machine and the microstructure of the fractured surfaces was then analysed using scanning electron microscopes (SEM). SPSS version 15.0 was used for data analysis. A p-value of <0.05 was considered as statistically significant. Data were analysed using parametric and non-parametric statistical methods. Statistically significant differences in flexural strength existed between the three sample groups (p<0.001) with the stick® glass fibre and wire mesh sample groups being significantly superior to the control. Furthermore there was a significant association between fracture modes and sample groups. Microscopic analysis revealed the presence of voids. Statistically, in terms of microstructure (% of voids present), a significant difference existed between all sample groups. With regards to surface texture of the compression and tension sides of the test specimens, significant differences existed between the three sample groups. Furthermore microscopic analysis revealed partial impregnation and distribution of the fibres to the PMMA resin matrix and un-bonding between the wire mesh and PMMA resin matrix. Statistically, the Mann-Whitney test was conducted to compare flexural strength between sample groups with and without voids. The flexural strength was higher in sample groups with voids than those without. This is an important finding from the clinical perspective because, in some structures of dentures, toughness is a desired property. Nevertheless in order to find the long-term data especially on clinical behaviour of these new fibre reinforcement systems, more studies should be conducted. / DUT Institutional Research Committee

Dental acrylic resins

Polymethylmethacrylate

Dental materials

Flexure

Efeito da desinfecção química sobre a microdureza e rugosidade superficial de resinas para base de dentaduras e resinas rígidas para reebasamento: estudo longitudinal / Effect of chemical disinfection on the hardness and roughness of denture base resins and hard chairside resins: a longitudinal study

Pinto, Luciana de Rezende

20 April 2007

O objetivo deste estudo foi investigar, longitudinalmente, o efeito de cinco soluções desinfetantes sobre a microdureza e rugosidade superficial de uma resina acrílica termopolimerizável e três materiais reembasadores rígidos. Um total de 240 corpos de prova circulares (30 X 6mm) foram fabricados, utilizando um material para base de dentaduras (Lucitone 550; n=60), e três materiais rígidos, para reembasamento (Jet; n=60, Kooliner; n=60, Tokuyama rebase II fast; n=60), os quais foram imersos em água (controle), e em cinco soluções desinfetantes (hipoclorito de sódio a 1%, hipoclorito de sódio a 2%, hipoclorito de sódio a 5,25%, glutaraldeído a 2% e gluconato de clorexidina a 4%), e testados para avaliação de microdureza Knoop (KHN) e rugosidade superficial (Ra-µm) em diferentes intervalos (antes das imersões, após 30, 90 e 180 ciclos de desinfecção. Em cada condição experimental foram utilizados 10 corpos de prova de cada material estudado. Os dados foram analisados através de esquema fatorial (6X4) e as médias foram analisadas por meio de análise de variância, seguida por teste de Tukey a 5%. Para as resinas Lucitone 550 (20,61 ± 1,36 a 15,44 ± 1,26 KHN), Jet (18,74 ± 0,47 a 13,75 ± 0,95 KNH), Kooliner (14,09 ± 1,63 a 7,52 ± 0,88 KHN) e Tokuyama rebase II fast (12,57 ± 0,94 a 8,28 ± 0,39 KHN), foi observada uma diminuição significativa dos valores de microdureza, independente da solução utilizada, após 180 ciclos de imersão. Não foi observada interação significativa para a rugosidade da resina Kooliner. Para a resina Lucitone 550 (0,06 ± 0,01 a 0,20 ± 0,02µm) e Jet (0,07 ± 0,01 a 0,23 ± 0,04µm), foi observado aumento significativo dos valores de rugosidade superficial, independente da solução desinfetante utilizada, e a após 180 ciclos de imersão em água, estes materiais mantiveram valores semelhantes ao da avaliação inicial. A resina Tokuyama rebase II fast não mostrou diferenças significativas nos valores de rugosidade superficial quando imersa em água, hipoclorito de sódio a 2%, 5,25% e glutaraldeído a 2%, durante o período do estudo. Ao final da avaliação (180 ciclos), conclui-se que, embora todas as soluções tenham causado redução da microdureza da resina Lucitone 550, os espécimes submetidos às imersões em H5,25% e H2% apresentaram menores valores, no entanto, não ocorreu diferença significante entre os desinfetantes para as resinas autopolimerizáveis. As soluções H1%, H2% e GC4% causaram maior alteração na rugosidade superficial da resina Lucitone 550. Estas mesmas soluções, além de H5,25%, promoveram maior rugosidade na resina Jet, enquanto que, para a resina Tokuyama Rebase II fast, não houve diferença entre os desinfetantes. / The aim of this study was to investigate the longitudinal effect of five disinfection solutions on the hardness and roughness of one heat-polymerizing denture base acrylic resin and three hard chairside resins. A total of 240 circular specimens (30 X 6mm) were fabricated using one denture base material (Lucitone 550; n=60) and three hard chairside reliners (Jet; n=60, Kooliner; n=60, Tokuyama rebase II fast; n=60), which were immersed in water (control), and five disinfecting solutions (1% sodium hypochlorite; 2% sodium hypochlorite; 5,25% sodium hypochlorite, 2% glutaraldehyde; 4% chlorhexidine gluconate) that were tested for knoop hardness (KHN) and roughness (Ra-µm) for different times (before immersions, after 30, 90 and 180 immersion cycles). For each experimental condition, 10 specimens were used from each material. Data was analyzed by factorial scheme (6 X 4) and the means were analyzed by The Variance Analysis which was followed by Tukey\'s test 5%. For Lucitone 550 (from 20,61 ± 1,36 to 15,44 ± 1,26 KHN), Jet (from 18,74 ± 0,47 to 13,75 ± 0,95 KHN), Kooliner (from 14,09 ± 1,63 to 7,52 ± 0,88 KHN), Tokuyama rebase II fast (from 12,57 ± 0,94 to 8,28 ± 0,39 KHN) significant decrease in hardness was observed regardless of the solution used, after 180 immersion cycles. No significant interactions were observed for Kooliner roughness. Between Lucitone (from 0,06 ± 0,01 to 0,20 ± 0,02µm) and Jet, (from 0,07 ± 0,01 to 0,23 ± 0,04µm) there was a significant increase in roughness regardless of the disinfectant solution used; Jet showed significant increase in roughness after immersion in water for 180 cycles. Tokuyama rebase II fast showed no significant differences in roughness when immersed in water, 2% sodium hypochlorite, 5.25% sodium hypochlorite, and 2% glutaraldehyde after 180 cycles. In conclusion, this study showed that Lucitone 550 specimens exhibited significant decrease in hardness regardless of the disinfection solution used, and the specimens immersed in H5,25% and H2% showed lower hardness values; However, no significant differences were noted between all disinfectants solution, for hard chairside resins. The solutions H1%, H2% and GC4% caused more alteration in roughness of Lucitone 550. These solutions along with H5,25% caused an increase in the roughness of Jet, while with the Tokuyama rebase II fast there was no difference between the disinfection solutions.

acrylic resins

desinfecção

disinfection

resinas acrílicas

Efeito de sucessivos ciclos de desinfecção por microondas sobre a microdureza e rugosidade superficial de diferentes bases de próteses totais: estudo longitudinal / Effect of successive microwave disinfection cycles on the hardness and roughness of different denture base resins: a longitudinal study

Távora, Flora Freitas Fernandes

22 June 2007

O objetivo desse estudo foi investigar longitudinalmente, o efeito de sucessivos ciclos de desinfecção sobre as propriedades de microdureza e rugosidade superficial de 4 diferentes resinas acrílicas. Foram confeccionados 200 corpos de prova, utilizando um material para base de dentaduras (Lucitone 550) e três materiais rígidos para reembasamento (Jet, Kooliner e Tokuyama Rebase II Fast), os quais foram divididos, para cada resina, em cinco grupos: imersos em água (controle) e submetidos à irradiação por microondas em quatro combinações diferentes de potência-tempo. Esses grupos foram avaliados em relação à rugosidade superficial (Ra-µm) e microdureza Knoop (KHN) em um período anterior às desinfecções e após 30, 90 e 180 ciclos de desinfecção. Os dados foram submetidos à análise de variância, seguida por teste de Tukey a 5%. As principais alterações nos valores de microdureza (diminuição) e rugosidade superficial (aumento) ocorreram após 30 ciclos de desinfecção em microondas. Após esse período existiu uma tendência para a estabilização dos valores dessas propriedades, mesmo quando ciclos adicionais (90 e 180 ciclos) foram realizados. Os tratamentos empregados para os diferentes grupos experimentais (diferentes combinações de potência-tempo) não foram os principais fatores que tiveram influência sobre a propriedade de microdureza. É provável que a redução dos valores de microdureza tenha sido mais dependente da sorpção de água do que da energia de microondas por si só. O principal efeito sobre a microdureza através da irradiação por microondas parece ser o efeito da água. A exposição da prótese a fluidos como água e saliva é uma condição que não pode ser evitada. Esse comportamento não foi observado para a rugosidade superficial. Os tratamentos empregados para os diferentes grupos experimentais (diferentes combinações de potência-tempo) tiveram influência sobre a propriedade de rugosidade superficial. De maneira geral observou-se que os valores de rugosidade superficial dos espécimes somente imersos em água foram menores do que os valores dos espécimes irradiados. Apesar da rugosidade de alguns espécimes ter ficado acima de 0.2 um, isso não parece contra-indicar a desinfecção por microondas. As técnicas convencionais de acabamento e polimento aplicadas para as outras superfícies dificilmente atingem níveis de rugosidade superficial inferiores a 0,2 µm. Dessa maneira parece ser prudente a afirmação de que a desinfecção através da energia de microondas pode ser utilizada para a desinfecção de próteses. / The objective of this study was to investigate the longitudinal effect of microwave disinfection on the hardness and roughness of one heat-polymerizing denture base acrylic resin and three hard chairside resins. A total of 200 specimens were fabricated using one denture base material (Lucitone 550; n=50) and three hard chairside reliners (Jet; n=50, Kooliner; n=50, Tokuyama Rebase II Fast; n=50), which were immersed in water (control), and submitted to microwave disinfection at four different arrangements of power and time. These specimens were tested for knoop hardness (KHN) and roughness (Ra-µm) for different times (before disinfection, after 30, 90 and 180 disinfection cycles). Data were analyzed by Variance Analysis which was followed by the Turkey\'s test at a level of 5%. The principal alterations on hardness (reduction) and on roughness (elevation) occurred after 30 disinfection cycles. Both of the properties remained stable after this period, even after 90 and 180 disinfection cycles. The different arrangements of power and time carried out for the experimental groups did not have influence on hardness. It is possible that this property was more affected from water sorption than microwave energy only. During its clinical use, the denture is exposed to water and saliva and it seems that this condition cannot be prevented. This fact was not observed for roughness. The different arrangements of power and time carried out for the experimental groups had influence on roughness. It was observed that the control group had lower roughness values when compared to the experimental groups. The roughness values of some specimens were greater than 0.2 um. However, this fact does not compromise the indication of microwave disinfection. The finishing and polishing techniques commonly used for the other surfaces of the denture do not get roughness values below 0.2 um. Therefore, it is very likely that microwave disinfection could be recommended for the disinfection of dentures.

Acrylic resins

Desinfecção

Disinfection

Resinas acrílicas