Prophylactic efficiency of glass-ionomer fissure sealant
Efikasnost glasjonomera kao profilaktičkih sredstava u stomatologiji
Abstract
One of the most efficient prophylactic measures in caries prevention is sealing pits and fissures. After improvements of physical and mechanical properties, glass-ionomers are frequently used as sealing materials. The aim of this study was to evaluate the prophylactic efficiency of Fuji VII, a glass-ionomer fissure sealant, through adaptation ability and fluoride reasing potential assessment using scanning electron microscopic and energy dispersive spectroscopic techniques. The sample consisted of 20 extracted intact human teeth, 10 premolars and 10 molars. Six sections of each tooth were analyzed using SEM. EDS analysis was conducted one week and three months after material placement. The parameters used for the evaluation included: adaptation ability, penetration depth, material structure, integrity of the interfacial zone and ion exchange extent. The sealant penetration depth was observed at 30 X magnification, and the interfacial zone between the material and the enamel at 500-1000...0 X. EDS was used for quantitative analysis of the material structure, interfacial zone and the enamel surface. The results were statistically analyzed the using chisquare test and descriptive statistical methods. SEM analysis revealed the zone of interaction between the enamel surface and the glass-ionomer with predominant cohesive failures within the sealant material, and satisfactory adaptation ability of the sealing material. The mean value of the penetration was 83% of the total fissure depth, without a statistically significant difference between the tested teeth groups. A lower penetration ability was observed in deep pits and fissures with a larger diameter of unfilled space (p lt 0.05). EDS analysis revealed the potential of the glass-ionomer for ion exchange with dental tissues. The presence of fluoride ions was detected in 2 sections 3 months after material placement. Glass-ionomers, chemically cured, biocompatible materials demonstrate satisfactory prophylactic characteristics.
Cilj ove studije je bio da se proceni profilaktička efikasnost glasjonomera, Fuji VII, analizom kvaliteta adaptacije i potencijala oslobađanja fluorida. Uzorak je činilo 20 intaktnih ekstrahovanih zuba, i 6 preseka svakog zuba analizirano je SEM-om. EDS analiza je urađena 7 i 90 dana nakon aplikacije materijala. Procenjivani parametri su uključivali: kvalitet površinske adaptacije, dubinu penetracije, strukturu materijala, međuspoja i površine gleđi, i analizu jonske razmene materijala i zuba. SEM analizom je potvrđena zona adaptacije materijala uz površinu gleđi, sa kohezionim frakturama glasjonomera. Penetracija materijala iznosila je u proseku 83% dubine fisure. EDS analizom je pokazan potencijal za otpuštanje fluorida. Glasjonomeri, hemijski-vezujući biokompatibilni materijali pokazuju zadovoljavajuće profilaktičke karakteristike.
Keywords:
glass-ionomer / fissure sealing / SEM / EDS / glasjonomeri / zalivanje fisura / SEM / EDSSource:
Hemijska industrija, 2007, 61, 2, 90-95Publisher:
- Savez hemijskih inženjera, Beograd
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Institution/Community
Stomatološki fakultetTY - JOUR AU - Petrović, Bojan AU - Marković, Dejan AU - Filipović, Danka M. PY - 2007 UR - https://smile.stomf.bg.ac.rs/handle/123456789/1339 AB - One of the most efficient prophylactic measures in caries prevention is sealing pits and fissures. After improvements of physical and mechanical properties, glass-ionomers are frequently used as sealing materials. The aim of this study was to evaluate the prophylactic efficiency of Fuji VII, a glass-ionomer fissure sealant, through adaptation ability and fluoride reasing potential assessment using scanning electron microscopic and energy dispersive spectroscopic techniques. The sample consisted of 20 extracted intact human teeth, 10 premolars and 10 molars. Six sections of each tooth were analyzed using SEM. EDS analysis was conducted one week and three months after material placement. The parameters used for the evaluation included: adaptation ability, penetration depth, material structure, integrity of the interfacial zone and ion exchange extent. The sealant penetration depth was observed at 30 X magnification, and the interfacial zone between the material and the enamel at 500-10000 X. EDS was used for quantitative analysis of the material structure, interfacial zone and the enamel surface. The results were statistically analyzed the using chisquare test and descriptive statistical methods. SEM analysis revealed the zone of interaction between the enamel surface and the glass-ionomer with predominant cohesive failures within the sealant material, and satisfactory adaptation ability of the sealing material. The mean value of the penetration was 83% of the total fissure depth, without a statistically significant difference between the tested teeth groups. A lower penetration ability was observed in deep pits and fissures with a larger diameter of unfilled space (p lt 0.05). EDS analysis revealed the potential of the glass-ionomer for ion exchange with dental tissues. The presence of fluoride ions was detected in 2 sections 3 months after material placement. Glass-ionomers, chemically cured, biocompatible materials demonstrate satisfactory prophylactic characteristics. AB - Cilj ove studije je bio da se proceni profilaktička efikasnost glasjonomera, Fuji VII, analizom kvaliteta adaptacije i potencijala oslobađanja fluorida. Uzorak je činilo 20 intaktnih ekstrahovanih zuba, i 6 preseka svakog zuba analizirano je SEM-om. EDS analiza je urađena 7 i 90 dana nakon aplikacije materijala. Procenjivani parametri su uključivali: kvalitet površinske adaptacije, dubinu penetracije, strukturu materijala, međuspoja i površine gleđi, i analizu jonske razmene materijala i zuba. SEM analizom je potvrđena zona adaptacije materijala uz površinu gleđi, sa kohezionim frakturama glasjonomera. Penetracija materijala iznosila je u proseku 83% dubine fisure. EDS analizom je pokazan potencijal za otpuštanje fluorida. Glasjonomeri, hemijski-vezujući biokompatibilni materijali pokazuju zadovoljavajuće profilaktičke karakteristike. PB - Savez hemijskih inženjera, Beograd T2 - Hemijska industrija T1 - Prophylactic efficiency of glass-ionomer fissure sealant T1 - Efikasnost glasjonomera kao profilaktičkih sredstava u stomatologiji VL - 61 IS - 2 SP - 90 EP - 95 DO - 10.2298/HEMIND0702090P ER -
@article{ author = "Petrović, Bojan and Marković, Dejan and Filipović, Danka M.", year = "2007", abstract = "One of the most efficient prophylactic measures in caries prevention is sealing pits and fissures. After improvements of physical and mechanical properties, glass-ionomers are frequently used as sealing materials. The aim of this study was to evaluate the prophylactic efficiency of Fuji VII, a glass-ionomer fissure sealant, through adaptation ability and fluoride reasing potential assessment using scanning electron microscopic and energy dispersive spectroscopic techniques. The sample consisted of 20 extracted intact human teeth, 10 premolars and 10 molars. Six sections of each tooth were analyzed using SEM. EDS analysis was conducted one week and three months after material placement. The parameters used for the evaluation included: adaptation ability, penetration depth, material structure, integrity of the interfacial zone and ion exchange extent. The sealant penetration depth was observed at 30 X magnification, and the interfacial zone between the material and the enamel at 500-10000 X. EDS was used for quantitative analysis of the material structure, interfacial zone and the enamel surface. The results were statistically analyzed the using chisquare test and descriptive statistical methods. SEM analysis revealed the zone of interaction between the enamel surface and the glass-ionomer with predominant cohesive failures within the sealant material, and satisfactory adaptation ability of the sealing material. The mean value of the penetration was 83% of the total fissure depth, without a statistically significant difference between the tested teeth groups. A lower penetration ability was observed in deep pits and fissures with a larger diameter of unfilled space (p lt 0.05). EDS analysis revealed the potential of the glass-ionomer for ion exchange with dental tissues. The presence of fluoride ions was detected in 2 sections 3 months after material placement. Glass-ionomers, chemically cured, biocompatible materials demonstrate satisfactory prophylactic characteristics., Cilj ove studije je bio da se proceni profilaktička efikasnost glasjonomera, Fuji VII, analizom kvaliteta adaptacije i potencijala oslobađanja fluorida. Uzorak je činilo 20 intaktnih ekstrahovanih zuba, i 6 preseka svakog zuba analizirano je SEM-om. EDS analiza je urađena 7 i 90 dana nakon aplikacije materijala. Procenjivani parametri su uključivali: kvalitet površinske adaptacije, dubinu penetracije, strukturu materijala, međuspoja i površine gleđi, i analizu jonske razmene materijala i zuba. SEM analizom je potvrđena zona adaptacije materijala uz površinu gleđi, sa kohezionim frakturama glasjonomera. Penetracija materijala iznosila je u proseku 83% dubine fisure. EDS analizom je pokazan potencijal za otpuštanje fluorida. Glasjonomeri, hemijski-vezujući biokompatibilni materijali pokazuju zadovoljavajuće profilaktičke karakteristike.", publisher = "Savez hemijskih inženjera, Beograd", journal = "Hemijska industrija", title = "Prophylactic efficiency of glass-ionomer fissure sealant, Efikasnost glasjonomera kao profilaktičkih sredstava u stomatologiji", volume = "61", number = "2", pages = "90-95", doi = "10.2298/HEMIND0702090P" }
Petrović, B., Marković, D.,& Filipović, D. M.. (2007). Prophylactic efficiency of glass-ionomer fissure sealant. in Hemijska industrija Savez hemijskih inženjera, Beograd., 61(2), 90-95. https://doi.org/10.2298/HEMIND0702090P
Petrović B, Marković D, Filipović DM. Prophylactic efficiency of glass-ionomer fissure sealant. in Hemijska industrija. 2007;61(2):90-95. doi:10.2298/HEMIND0702090P .
Petrović, Bojan, Marković, Dejan, Filipović, Danka M., "Prophylactic efficiency of glass-ionomer fissure sealant" in Hemijska industrija, 61, no. 2 (2007):90-95, https://doi.org/10.2298/HEMIND0702090P . .