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All Journal Dentika Dental Journal Journal of Dentistry Indonesia Padjadjaran Journal of Dental Researchers and Students
Endang Suprastiwi
Universitas Indonesia
Biochemistry, Genetics & Molecular Biology Dentistry Immunology & microbiology Medicine & Pharmacology Public Health

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APPLICATION OF GLASS IONOMER CEMENT (GIC) FOR REPAIRING DENTAL PULP BY MEASURING EXPRESSION OF DENTIN MATRIX PROTEIN-1 : APLIKASI SEMEN IONOMER KACA UNTUK PERBAIKAN PULPA GIGI DENGAN MENGUKUR EKSPRESI DENTIN MATRIKS PROTEIN-1 Endang Suprastiwi; Siti Mardewi Soerono Akbar; Narlan Sumawinata; Ellyza Herda
Dentika: Dental Journal Vol. 17 No. 4 (2013): Dentika Dental Journal
Publisher : TALENTA

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (195.863 KB) | DOI: 10.32734/dentika.v17i4.1777

Abstract

Glass ionomer cement (GIC) has a potential to improve the pulp by inducing Dentin Matrix Protein-1 (DMP-1) release that can mineralize dentin. This study used three types of glass ionomer cements; Conventional GIC i.e. GC Fuji IX; resin-modified glass ionomer cement (RMGIC) i.e. GC Fuji II LC and Nano particle of RMGIC i.e. Ketac™ N100 3MEspe. The three materials were applied to the tooth pulp of Macaca nemestrina. Expression of DMP-1 extract-dental pulp of the subjects was investigated by using ELISA. This study was statistically analyzed by using Mann-Whitney test. The result showed that GICs has a potential to induce the expression of DMP-1 and there was no significant differences among the three groups of GIC to induce DMP-1(p≥ 0,05). In conclucion, all tested materials have a potential in dental pulp repair by expressing DMP-1.
Application of 10% Ascorbic Acid Improves Resin Shear Bond Stregth in Bleached Dentin Kamizar, Kamizar; Suprastiwi, Endang; Heptorina, Yusi
Journal of Dentistry Indonesia
Publisher : UI Scholars Hub

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Abstract

Restoration of the teeth immediately after bleaching with H2 O2 35% is contraindicated due to the remnants of free radical that will stay inside dentin for 2-3 weeks which will compromise the adhesiveness of composite resin. Objective: The aim of this study was to evaluate the influence of 10% ascorbic acid on shear bond strength of composite placed on bleached dentin. Methods: Twenty seven samples were divided equally into three groups. Group 1: dentin was etched with 35% phosphoric acid; Group 2: dentin was bleached with 35% H2 O2 followed by etching with 35% phosphoric acid; Group 3: dentin was bleached with 35% H2 O2 , followed by application of 10% ascorbic acid and etched with 35% phosphoric acid. All samples were then stored at 370 C for 24 hours. The Universal Testing Machine was used to measure shear bond strength and the results were analyzed with Kruskal Wallis and Mann Whitney test. Results: After nine independent experiments, 10% ascorbic acid application on bleached dentin resulted in highest increased in bond stregth (56.04±11.06MPa) compared to Group 2 (29.09±7.63MPa) and Group 1 (25.55±2.22MPa) and the difference was statistically significant (p
Perbedaan intensitas transmitansi pelepasan senyawa hidroksil mineral trioxide aggregate, nano silika sekam padi hasil metode sol-gel dan pirolisisDifferences in the transmittance intensity of hydroxyl release from mineral trioxide aggregate, sol-gel, and pyrolysis nano-silica of rice husk Iffi Aprillia; Sarmayana Sarmayana; Endang Suprastiwi
Padjadjaran Journal of Dental Researchers and Students Vol 5, No 1 (2021): April 2021
Publisher : Fakultas Kedokteran Gigi Universitas Padjadjaran

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24198/pjdrs.v5i1.31350

Abstract

Pendahuluan: Mineral trioxide aggregate (MTA) diketahui memanfaatkan sifat reaktif gugus hidroksil dari permukaan nano silika yang dikandungnya untuk remineralisasi jaringan. Sementara itu, silika berukuran nano dapat diekstraksi dari sekam padi melalui metode sol-gel dan pirolisis. Tujuan penelitian menganalisis perbedaan intensitas transmitansi pelepasan senyawa hidroksil yang dihasilkan oleh MTA, nano silika sekam padi hasil metode sol-gel dan pirolisis. Metode: Jenis penelitian eksperimen laboratori. Sebanyak 3 sampel yang terdiri dari masing-masing bubuk sampel MTA, nano silika sekam padi sol-gel dan nano silika sekam padi pirolisis sebanyak 0,14 mg dicampurkan dengan 0,2 ml aquades dan dibiarkan mengeras selama 15 menit. Hasil campuran kemudian diukur menggunakan alat Fourier Transform Infrared Spectroscopy (FTIR) dan dilihat intensitas transmitansinya. Hasil karakteristik FTIR kemudian dianalisis secara kualitatif. Hasil: Ketiga sampel uji melepaskan gugus fungsi -OH di kisaran gelombang 3000-3500. Sampel MTA memperlihatkan intensitas puncak transmitansi gugus -OH paling tinggi. Sample nano silika sol-gel memperlihatkan intensitas puncak transmitansi gugus –OH lebih tinggi dibandingkan nano silika pirolisis. Sampel MTA memperlihatkan keberadaan gugus karbonat (CO3-2) yang tidak terdapat pada kedua sampel nano silika, sementara kedua sampel nano silika memperlihatkan gugus siloksan (Si-O-Si) yang tidak terdapat pada sampel MTA. Simpulan: MTA menghasilkan intesitas transmitans senyawa hidroksil paling tinggi, yang menandakan MTA dapat melepaskan gugus hidroksil paling banyak dibandingkan sampel nano silika sol-gel dan nano silika pirolisis.Kata Kunci: Mineral Trioxide Aggregate (MTA), nano silika sekam padi metode sol-gel, nano silika sekam padi metode pirolisis, pelepasan senyawa hidroksil, Fourier Transform Infrared Spectroscopy (FTIR). ABSTRACT Introduction: Mineral trioxide aggregate (MTA) is known to take advantage of the reactive properties of the hydroxyl groups from the surface of the nano-silica for tissue remineralisation. Meanwhile, nano-sized silica can be extracted from rice husks through sol-gel and pyrolysis methods. The research objective was to analyse the differences in the transmittance intensity of hydroxyl compounds released by MTA, nano-silica of rice husks resulting from the sol-gel method and pyrolysis. Methods: This research was an experimental laboratory. A total of 3 samples consisted of MTA powder, sol-gel nano-silica rice husk and pyrolysis nano-silica rice husk, 0.14 mg each, mixed with 0.2 ml of distilled water and hardened still for 15 minutes. The mixture results was then measured using a Fourier Transform Infrared Spectroscopy (FTIR) instrument, and then the intensity of the transmittance was observed. The results of the FTIR characteristics were then analysed qualitatively. Results: All samples release the -OH functional group in the wave range of 3000-3500. The MTA sample showed the highest intensity of the -OH group transmittance. The sol-gel nano-silica samples showed higher intensity of the –OH group transmittance than the pyrolysis nano-silica. The MTA sample showed a carbonate group (CO3-2) which was not present in another two nano-silica samples, while the two nano-silica samples showed a siloxane (Si-O-Si) group that was not present in the MTA sample. Conclusion: MTA produces the highest transmittance intensity of hydroxyl compounds, which indicates that MTA can release the most hydroxyl groups compared to sol-gel nano-silica and pyrolysis nano-silica samples.Keywords: MTA (mineral trioxide aggregate), sol-gel nano-silica rice husk, pyrolysis nano-silica rice husk, hydroxyl compounds release, Fourier Transform Infrared Spectroscopy (FTIR).
Co-Authors Anggraeni Anggraeni Dewa Ayu Nyoman Putri Artiningsih Ellyza Herda Iffi Aprillia Kamizar Kamizar Narlan Sumawinata Sarmayana Sarmayana Siti Mardewi Soerono Akbar Yusi Heptorina