Adhesive sealing of pits and fissures for caries prevention

Cueto, Eriberto Ivan.

January 1965

Thesis--University of Rochester, 1965.

Nd:YAG laser irradiation and Bis-GMA sealed pits and fissures a comparative in vitro study : a thesis submitted in partial fulfillment ... for the degree of Master of Science (School of Dentistry) ... /

Lawrence, Leslie May.

January 1999

Thesis (M.S.)--University of Michigan, 1999. / Includes bibliographical references.

In vitro evaluation of bacterial penetration against occlusal sealants a thesis submitted in partial fulfillment ... pedodontics /

Pierce, Wayne D.

January 1970

Thesis (M.S.)--University of Michigan, 1970.

Adhesive sealing of pits and fissures for caries prevention

Cueto, Eriberto Ivan.

January 1965

Thesis--University of Rochester, 1965.

Comportamento das forças de adesão do adesivo selante de silicone e do mastic butílico sob o efeito da radiação ionizante. / Behavior of the adhesion forces of silicone adhesive sealant and butyl mastic after the exposure to ionizing radiation.

Wanderley da Costa

15 December 2011

Os adesivos são produtos capazes de manter materiais unidos, mediante ligações entre as superfícies. Selantes são produtos capazes de manter preenchido um espaço entre duas superfícies, por meio de uma barreira que se configura como uma ponte entre as duas superfícies. O mastic é um produto obtido por uma mistura de substâncias tendo como principal polímero o butil, com consistência de uma massa não secativa que pode ser utilizada como selante. Os polisiloxanos, também conhecidos como silicones são os mais importantes polímeros sintéticos com estrutura inorgânica, e são matrizes dos adesivos selantes de silicone. Para comprovar como o comportamento das forças de adesão destes produtos acontece, foram utilizadas cinco técnicas diferenciadas. Estes produtos foram submetidos a duas condições distintas para verificar o comportamento da adesão, um em condições ambiente e outro sob influência de radiação ionizante. Os resultados obtidos demonstraram não só a diferença entre produtos (silicone e mastic), mas também que as forças de adesão têm comportamentos diferentes nas condições às quais foram submetidas às amostras. Com isto atingi-se o objetivo desse estudo que é apresentar a diferenciação entre o mastic e o silicone, muitas vezes considerados como um só produto denominado mastic. Desta forma comprova-se que: 1. o silicone pode ser considerado um adesivo selante em condições ambientes, 2. o mastic melhora consideravelmente sua adesão, quando submetido à radiação ionizante, e esta característica de adesão pode ser uma excelente alternativa para o mercado de adesivos. / Adhesives are products that can keep materials together by bonds between the surfaces. Sealants are products that can keep filled a space between two surfaces, through a barrier that is configured as a \"bridge\" between the two surfaces. The mastic is a product made of a mixture of substances with the primary butyl polymer, with the consistency of a mass not dried that can be used as a sealant. The polysiloxane, also known as silicone are the most important synthetic polymers with inorganic structure, and are matrices of silicone adhesive sealants. To demonstrate the behavior of the adhesive forces of these products under different conditions, we used five different techniques. These products were subjected to two different conditions to verify the behavior of adhesion, one at the environmental condition and another under the ionizing radiation. The results showed not only differences between products (silicone and mastic), but also that the adhesive forces have different behaviors under the conditions which the samples were subjected. With this was reached the goal of this study that aspired show the differences between the mastic and silicone, this last one is often considered - erroneously - the same as mastic. Thus it was proven that: 1. silicone can be regarded as an adhesive and a sealant at ambient conditions, 2. mastic improves substantially adhesion in an environment of ionizing radiation and this property can be an excellent alternative to the adhesive market.

Adesivo

Adesivo selantes de silcone

Mastic

Selantes

Adhesive

Mastic

Sealants

Silicone adhesive sealants

Evaluation of multiple and single emission peak light emitting diode light curing units effect on the degree of conversion and microhardness of resin-based pit and fissure sealant

Alqahtani, Saleh Ali M.

January 2017

Indiana University-Purdue University Indianapolis (IUPUI) / Objective: The objective was to assess a multiple emission peak light-emitting-diode (LED) light-curing unit (LCU) by measuring the polymerization efficiency through the degree of conversion (DC) and Knoop microhardness (KHN) of a resin-based pit and fissure sealant at various light curing times and two distances compared to a single emission peak LED LCU. Method: Sixty disks of resin-based pit and fissure sealant (Delton, DENTSPLY, York, PA) samples (6x1mm) were fabricated (n=5/LCU/group). Prepared samples were polymerized using 10, 20 and 40 second curing time at 2 or 4 mm curing distances. The irradiance and radiant exposure received on the top/bottom surfaces of the samples were measured using the Managing Accurate Resin Curing-Resin Calibrator (MARC-RC) system. The samples were stored at 37°C for one hour. Then, the DC (n=3/surface) and KHN (n=5/surface) measurements were collected on the top and bottom surfaces using Attenuated Total Reflection-Fourier Transform Infrared Spectroscopy (ATR-FTIR) and a microhardness tester (Instron) utilizing 25-gm at 10 seconds dwell time, respectively. Multiple-way ANOVA was performed followed by Tukey test (α=0.05). Result: The irradiance from the multiple emission peak LED LCU was significantly higher than the single emission peak LED LCU (1312.6 and 768.3 mW/cm2) respectively. Moreover, the multiple emission peak LED LCU displayed significantly higher DC (82.5%) and microhardness (26.2 KHN) compared to the single emission peak LED LCU (75.5% DC and 21.2 KHN) when curing samples at 2 and 4 mm curing distances assessed using 10, 20 and 40-second curing times. The 10 second cure at 4 mm showed significantly lower DC and KHN values compared to the other groups. Conclusion: The multiple emission peak LED LCU demonstrated significantly higher irradiance, DC and KHN compared to the single emission peak LED LCU on a resin-based pit and fissure sealant at 2 and 4 mm curing distances and 10, 20 and 40 second curing times. Therefore, the multiple emission peak LED LCU performed higher than the single emission peak LED LCU.

Fissure sealants

Degree of conversion

Knoop Microhardness

LED curing units

Curing Lights

Dental

Pit and Fissure Sealants

Fissure penetration and microleakage of a conventional pit and fissure sealant and a flowable composite: a comparative study using three different bonding systems

Chan, Terence

January 2002

Indiana University-Purdue University Indianapolis (IUPUI) / The concepts of using a pit and fissure sealant material to prevent dental caries have been well established in dental research. Effectiveness of a pit and fissure sealant material is limited to its ability to remain bonded to the occlusal surfaces. Adding a dentin-bonding agent between the etched enamel and the sealant material has been demonstrated as a way of optimizing bond strength in the face of moisture and salivary contamination. The purpose of this study was to examine if there was a difference in fissure penetration or microleakage between a conventional pit and fissure sealant or a flowable composite when used as a pit and fissure sealant, while using three different adhesive systems. Delton Direct Delivery System (Dentsply), an opaque, light cured pit and fissure sealant and the commercially available flowable composite, Revolution Formula 2 (Kerr) was selected for this study. Three clinically used adhesive systems selected for this study were: conventional phosphoric acid etching; Opti-bond Solo Plus(Kerr), a single bottle system; and Prompt L-Pop (3M ESPE), an all-in-one primer adhesive. One hundred fifty extracted caries-free third molars, selected for well-defined occlusal pits, were randomly divided into six treatment groups. Fissure penetration and microleakage was examined after immersion of the treated teeth in 5.0-percent methylene blue solution for 18 hours; the teeth were removed and thoroughly cleaned. Mesial and distal flat-ground sections were obtained and examined at X20; microleakage was recorded as either present or absent, and penetration was recorded as either complete or incomplete. The interaction between the material and the adhesive system was non-significant based on the logistic regression model for the penetration and the microleakage, so that only the main effects of material and adhesive system were included in the final model. Enamel conditioning with the total-etch and single-bottle adhesive system provided consistently microleakage resistance when compared with the use of the all-in-one bonding system. The all-in-one adhesive system demonstrated the most microleakage regardless of the material used for the pit and fissure sealant. The hypothesis of this thesis was that there would be no significant difference in fissure penetration or microleakage between the conventional pit and fissure sealant or the flowable composite, regardless of the adhesive system used. The results of this study support the hypothesis that there was no significant difference in fissure penetration between the materials. The result did demonstrate that there was significant difference in microleakage between the three different adhesive systems used.

Pit and Fissure Sealants -- standards

Dental Leakage

Fissure Penetration and Microleakage of a Conventional Pit and Fissure Sealant and a Flowable Composite: A Comparative Study Using Three Different Bonding Systems

Chan, Terence

January 2002

Indiana University-Purdue University Indianapolis (IUPUI) / The concepts of using a pit and fissure sealant material to prevent dental caries have been well established in dental research. Effectiveness of a pit and fissure sealant material is limited to its ability to remain bonded to the occlusal surfaces . Adding a dentin-bonding agent between the etched enamel and the sealant material has been demonstrated as a way of optimizing bond strength in the face of moisture and salivary contamination. The purpose of this study was to examine if there was a difference in fissure penetration or microleakage between a conventional pit and fissure sealant or a flowable composite when used as a pit and fissure sealant, while using three different adhesive systems. Delton Direct Delivery System (Dentsply), an opaque, light cured pit and fissure sealant and the commercially available flowable composite, Revolution Formula 2 (Kerr) was selected for this study. Three clinically used adhesive systems selected for this study were: conventional phosphoric acid etching; Opti-bond Solo Plus(Kerr), a single bottle system; and Prompt L-Pop (3M ESPE), an all-in-one primer adhesive. One hundred fifty extracted caries-free third molars, selected for well-defined occlusal pits, were randomly divided into six treatment groups. Fissure penetration and microleakage was examined after immersion of the treated teeth in 5.0-percent methylene blue solution for 18 hours; the teeth were removed and thoroughly cleaned. Mesial and distal flat-ground sections were obtained and examined at X20; micro leakage was recorded as either present or absent, and penetration was recorded as either complete or incomplete. The interaction between the material and the adhesive system was non-significant based on the logistic regression model for the penetration and the microleakage, so that only the main effects of material and adhesive system were included in the final model. Enamel conditioning with the total-etch and single-bottle adhesive system provided consistently microleakage resistance when compared with the use of the all-in-one bonding system. The all-in-one adhesive system demonstrated the most microleakage regardless of the material used for the pit and fissure sealant. The hypothesis of this thesis was that there would be no significant difference in fissure penetration or microleakage between the conventional pit and fissure sealant or the flowable composite, regardless of the adhesive system used. The results of this study support the hypothesis that there was no significant difference in fissure penetration between the materials. The result did demonstrate that there was significant difference in microleakage between the three different adhesive systems used.

Pit and Fissure Sealants -- Standards

Dental Leakage

Evaluation of two methods of fissure treatment before sealant placement on different caries levels

Chitre, Swati Dinesh,

January 2009

Thesis (M.S.D.)--Indiana University School of Dentistry, 2009. / Title from PDF t.p. (viewed Feb. 5, 2010) Advisor(s): Michael A. Cochran, Chair of the Research Committee, Armando E. Soto Rojas, Margherita R. Fontana, Timothy Carlson, Tien-Min Gabriel Chu. Curriculum vitae. Includes abstract. Includes bibliographical references (leaves 56-61).

The effects of coatings and sealers used to mitigate alkali-silica reaction and/or delayed ettringite formation in hardened Concrete

Wehrle, Evan Richard, 1985-

15 September 2015

Since 2006, research funded by the Texas Department of Transportation (TxDOT) has evaluated the use of coatings and sealers for mitigating expansion due to alkali-silica reaction (ASR) and/or delayed ettringite formation (DEF) in hardened concrete. The report herein includes a project summary of previous work in Phase I, led by Racheal Lute (2008) and Charles Rust (2009). The Phase II research, described in this thesis, established concrete exposure blocks and NCHRP 244 Series II testing as the cornerstones of characterizing coating effectiveness. The studies assessed coating system performance by examining the contribution of steel reinforcement, the effects of aggregate reactivity, the size limitations of treatments, and the impact of painted concrete substrates. Lastly, this thesis describes the preliminary results of a field study site of columns supporting a flyover, and a concrete exposure block site in Houston, Texas. Overall, the results are encouraging as several coatings have reduced expansion by lowering internal relative humidity.

Coatings and sealants

Alkali-silica reactions

Delayed ettringite formation

Concrete pavements