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All Journal Dentino: Jurnal Kedokteran Gigi Dentin
Wardhana, Agung Satria
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Dentistry

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PENGARUH PERENDAMAN AIR PDAM BANDARMASIH TERHADAP KEKASARAN PERMUKAAN GIGI PASCA PENGAPLIKASIAN KARBAMID PEROKSIDA 20% Taqiyuddin Ham, Muhammad Nabiel; Wardhana, Agung Satria; Nahzi, Muhammad Yanuar Ichrom; Hatta, Isnur; Puspitasari, Dewi
Dentin Vol 8, No 1 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/dentin.v8i1.12198

Abstract

Background: One of the treatments to overcome the problem of discolored teeth is to do tooth whitening or bleaching. The tooth whitening agent that is often used is carbamide peroxide which is applied directly to the tooth enamel surface. Several factors that can affect tooth enamel are the degree of acidity or potential hydrogen (pH), acid concentration, dissolving time and the presence of calcium-like ions, and the level of water hardness. Most of the people in Banjarmasin City still frequently use PDAM water as drinking water and for daily use Objective: To analyze the effect of immersing PDAM water and distilled water on tooth surface roughness after application of 20% carbamide peroxide. Methods: Using a pure experimental design with the Posttest Only With Control Group Design and simple random sampling technique. The total sample was 16 maxillary first premolars which were divided into 3 treatment groups and 1 control group. Results: analysis of the One Way Anova test with Bonferroni's Post-Hoc showed no difference in roughness between the PDAM water immersion and distilled water groups with or without the application of 20% carbamide peroxide (p>0.05). There was a difference in roughness between the group that was given carbamide peroxide and the group that was not given carbamide peroxide 20% (p<0.05). Conclusion: There is an effect of PDAM water immersion on tooth surface roughness after application of 20% carbamide peroxide, but the resulting roughness is not significant.Keywords: PDAM water, Tooth Surface Roughness, 20% Carbamide Peroxide
PENGARUH PERENDAMAN GIGI PADA KITOSAN SISIK IKAN HARUAN (Channa striata) TERHADAP PELEPASAN FOSFAT Fariz Asyraq, Muhammad Hafly; Tri Putri, Deby Kania; Nurrahman, Tri; Wardhana, Agung Satria; Setiawan, Bambang
Dentin Vol 8, No 1 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/dentin.v8i1.12201

Abstract

Background: Chitosan solution from Haruan fish scales (Channa striata) can be used to maintain tooth enamel structure by reducing the rate of solubility of hydroxyapatite or tooth demineralization under acidic conditions. Chitosan haruan fish scale (Channa striata) has the potential to be an anti-demineralization agent. Objective: Analyze the effect of immersing teeth in chitosan solution of 2.5% and 5% Haruan fish scales (Channa striata) on levels of phosphate release. Method: This study used the true experimental method with a posttest-only control group design consisting of 3 treatment groups, namely the negative control, the 2.5% group and the 5% group. All groups were immersed in lactic acid solution pH 5.2. Measurement of phosphate release levels using a uv-vis spectrophotometer. Results: The results of the One Way Analysis of Variance (ANOVA) test obtained a value of p = 0.00 <0.05 which indicated that the hypothesis was accepted or that there was an effect of soaking the teeth in chitosan solution of Haruan fish scales (Channa striata) with a concentration of 2.5% and 5% on phosphate release . The Bonferroni Post Hoc Test showed that there were significant differences in all groups, namely the negative control group with the 2.5% and 5% groups, the 2.5% group and the 5% group. Conclusion: Chitosan from Haruan fish scales (Channa striata) concentrations of 2.5% and 5% are able to inhibit phosphate release on teeth and have the potential as alternative biomaterials in inhibiting tooth demineralization.Keywords: Caries, Chitosan, Demineralization, Haruan, Phosphate
PENGARUH PERENDAMAN AIR PDAM TERHADAP KEKERASAN ENAMEL GIGI PASKA HOME BLEACHING KARBAMID PEROKSIDA 20% Safatullah, Aqshall Ilham; Wardhana, Agung Satria; Diana, Sherli; Oktiani, Beta Widya; Dewi, Renie Kumala
Dentin Vol 8, No 1 (2024)
Publisher : Universitas Lambung Mangkurat

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/dentin.v8i1.12194

Abstract

Background: One of the treatments to overcome the problem of discolored teeth is to do tooth whitening or bleaching. The tooth whitening agent that is often used is carbamide peroxide which is applied directly to the tooth enamel surface. Several factors that can affect tooth enamel are the degree of acidity or potential hydrogen (pH), acid concentration, dissolving time and the presence of calcium-like ions. Communities in Banjarmasin City still frequently use PDAM water for consumption and for their daily needs. Objective: To analyze the effect of immersing PDAM water and distilled water on the hardness of tooth enamel after the application of 20% carbamide peroxide. Methods: This study used a true experimental method with a posttest-only with control group design consisting of 4 treatment groups namely positive control PDAM water, negative control Aquatic water, group 1 carbamide peroxide 20% and PDAM water, and group 2 carbamide peroxide 20% and distilled water. Tooth enamel hardness was measured using a Vickers microhardness tester. Results: analysis of the One Way Anova test with Post-Hoc Bonferroni showed that there was a significant difference in violence in each group (p>0.05). Conclusion: There is an effect of PDAM water after application of 20% carbamide peroxide on the hardness of enamel on teeth.Keywords: Carbamide Peroxide 20%, Discolored, Enamel Hardness, PDAM
COMPRESSIVE STRENGTH OF Ca(OH)2 COMBINED WITH MUSA ACUMINATA AS A PULP CAPPING MATERIAL Wardhana, Agung Satria; Hidalgo, Andres Migael; Puspitasari, Dewi; Erlita, Isyana; Sitepu, Alexander
Dentino: Jurnal Kedokteran Gigi Vol 9, No 1 (2024)
Publisher : FKG ULM

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.20527/dentino.v9i1.18861

Abstract

Background: The weakness of Ca(OH)2 is its low compressive strength and mechanical properties which can affect the stability of the material to the liquid in the tooth root canal so that it can dissolve the root canal medicament material. Due to the various weaknesses of Ca(OH)2, the researchers are interested in combining Ca(OH)2 with natural ingredients extracted from Musa acuminata (Mauli Banana) stem. Musa acuminata stem extract  (MaSE) contains bioactive compounds such as tannins, saponins, alkaloids, flavonoids and lycopene which have antioxidant, anti-inflammatory, antibacterial and anti-viral properties. One of the requirements for pulp capping material is to have sufficient compressive strength, therefore, it is necessary to conduct research to test the value of the compressive strength of the combination of Ca(OH)2 with Musa acuminata stem extract. Purpose: To analyze the compressive strength of the pulp capping material from the combination of calcium hydroxide and Musa acuminata stem extract, with a ratio of 1:1; 1:1.5 ; and 1.5:1. Method: This research is a pure experimental study with a posttest-only design with a control group design, consisting of 4 treatment groups, including: group 1 the combination of Ca(OH)2 with Musa acuminata stem extract at 1:1, group 2 1:1.5, group 3 1.5:1, and group 4 as a positive control. Results: One Way Anova test (p<0.05) which means there is a significant difference. Data analysis was continued with the LSD Post Hoc test (p<0.05) which showed that there were significant differences between groups, between each treatment group. Conclusion: The combination of Ca(OH)2 with 50% MaSE and PG ratio of 1.5 : 1 : 0.375, has the highest compressive strength (1.40 MPa), so it can be concluded that the more Musa acuminata stem extract in the combination, the lower the compressive strength. Keywords : Calcium hydroxide, Compressive strength, Musa acuminata stem extract
Co-Authors Bambang Setiawan Dewi Puspitasari Dewi, Renie Kumala Fariz Asyraq, Muhammad Hafly Hatta, Isnur Hidalgo, Andres Migael Ichrom Nahzi, Muhammad Yanuar Nurrahman, Tri Oktiani, Beta Widya Safatullah, Aqshall Ilham Sherli Diana Sitepu, Alexander Taqiyuddin Ham, Muhammad Nabiel Tri Putri, Deby Kania