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Christhania Cornelius
Pengaruh Resin Komposit Alkasit Polimerisasi Kimia dan Sinar Terhadap Nilai pH Saliva Buatan = Effect of Self-Curing and Light-Curing Composite Resin Alkasite on Artificial Saliva pH Changes
"ABSTRAK
Resin komposit alkasit mampu melepaskan ion hidroksida sehingga dapat mempertahankan pH netral saliva. Ion yang dilepaskan lebih banyak pada suasana asam. Resin komposit alkasit dapat dipolimerisasi secara kimia dan/atau menggunakan sinar. Penelitian ini dilakukan untuk mengetahui kemampuan resin komposit alkasit polimerisasi kimia dan sinar dalam menetralkan saliva buatan. Jumlah spesimen 96 buah dibagi menjadi 16 kelompok perlakuan yang terdiri dari 2 kelompok saliva buatan (pH 4,5 dan 5,5), 2 kelompok metode polimerisasi (kimia dan sinar), dan 4 kelompok waktu perendaman (1, 3, 5, dan 7 hari). Spesimen berbentuk lempeng dengan diameter 15 mm dan tebal 1 mm yang direndam dalam 5 ml saliva buatan dan disimpan dalam inkubator bersuhu 37˚C. Hasil penelitian menunjukkan adanya peningkatan pH saliva buatan pada seluruh kelompok perlakuan seiring dengan waktu perendaman. Berdasarkan uji statistik Independent T test dan Mann Whitney U, secara umum tidak terdapat perbedaan bermakna dalam meningkatkan pH saliva buatan antara kelompok metode polimerisasi kimia dan sinar. Sedangkan, terdapat perbedaan bermakna kenaikan pH saliva buatan pada kelompok yang direndam pada saliva buatan pH 4,5 dan 5,5. Dapat disimpulkan bahwa kemampuan resin komposit alkasit polimerisasi kimia dan sinar sama baik dalam meningkatkan pH saliva buatan hingga hari ke 7, terutama dalam suasana yang lebih asam.
ABSTRACT
Alkasite composite resin is able to release hydroxide ions so it can maintain a neutral pH of saliva. More ions released in an acid condition. This composite resin can be polymerized chemically or using LED light. This study aimed to determine the ability of self-cured and light-cured alkasite composite resin to neutralize artificial saliva pH. Ninety-six specimens were immersed in 5 ml of artificial saliva, 15 mm in diameter and 1 mm thick were divided into 16 groups consist of 2 groups of artificial saliva (pH 4,5 and 5,5), 2 groups of polymerization method (self-cured and light-cured), and 4 groups of immersion time (1, 3, 5, and 7 days). The result showed that there was an increase in the pH of the artificial saliva in all treatment groups over the time of immersion. The statistical test using Independent T test and Mann Whitney U showed that in general there were no significant differences between the polymerization method. Meanwhile, there were significant differences between the groups that immersed in each artificial saliva pH. It was concluded that self cured and light cured composite resin alkasite have the same ability to increase the pH of artificial saliva until the 7th day, especially in an acid condition."
Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2019
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UI - Skripsi Membership  Universitas Indonesia Library
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Marisa Amini
Pengaruh pH Saliva Buatan terhadap Kekerasan Resin Komposit Alkasit Polimerisasi Kimia dan Cahaya = Effect of Artificial Saliva pH on Microhardness of Self-cured and Dual-cured Alkasite Composite Resin
"ABSTRAK
Dalam penggunaannya di rongga mulut, resin komposit dapat mengalami degradasi oleh asam, terutama pada pasien dengan resiko karies tinggi. Resin komposit alkasit merupakan material dual-cured yang berbasis UDMA dan mampu melepaskan ion fluor, kalsium, dan hidroksida. Adanya ion hidroksida yang dilepaskan diketahui dapat menetralkan suasana asam. Namun, belum diketahui bagaimana pengaruh pH saliva buatan terutama pH kristis hidroksiapatit dan fluoroapatit terhadap sifat kekerasan resin komposit alkasit. Penelitian ini dilakukan untuk melihat pengaruh pH saliva buatan terhadap kekerasan resin komposit alkasit polimerisasi kimia dan cahaya. Penelitian berupa eksperimental laboratorik dengan menggunakan masing-masing 48 spesimen resin komposit alkasit (Cention-N, Ivoclar-Vivadent, Liechstenstein) polimerisasi kimia dan cahaya. Spesimen berbentuk silindris dengan diameter 6 mm dan tinggi 2 mm yang dibagi menjadi 16 kelompok perendaman. Perendaman dilakukan pada pH saliva buatan 4,5 dan 5,5 dengan lama perendaman 1, 3, 5, dan 7 hari di dalam inkubator dengan suhu 37°C. Uji kekerasan menggunakan Knoop Microhardness Tester (HMV-G Shimadzu). Hasil penelitian menunjukkan adanya penurunan kekerasan pada resin komposit alkasit polimerisasi kimia dan cahaya setelah dilakukan perendaman selama 1, 3, 5, dan 7 hari dalam saliva buatan dengan pH 4,5 dan 5,5. Nilai kekerasan tertinggi terlihat pada resin komposit alkasit polimerisasi cahaya setelah perendaman 1 hari pada pH saliva buatan 5,5 yaitu 58,41±0,23 KHN. Sedangkan nilai kekerasan terendah terlihat pada resin komposit alkasit polimerisasi kimia setelah perendaman 7 hari pada pH saliva buatan 4,5 yaitu 47,38±0,49 KHN. Berdasarkan uji statistik One-way Anova terdapat perbedaan bermakna (p<0,05) antar kelompok lama perendaman pada pH saliva buatan 4,5 dan 5,5. Hasil uji statistik Independent T-test menunjukkan terdapat perbedaan bermakna (p<0,05) antar kelompok pH saliva buatan dan antar kelompok metode polimerisasi. Dapat disimpulkan bahwa terdapat penurunan nilai kekerasan resin komposit alkasit seiring dengan semakin rendahnya pH saliva buatan dan semakin lamanya perendaman dengan penurunan terbesar pada perendaman 1 hari pertama.
ABSTRACT
In its application in the oral cavity, composite resins can be degraded by acids, especially in patients with a high caries risk. Alkasite composite resin is a dual-cured material based on UDMA and capable of releasing fluoride, calcium, and hydroxide ions. The presence of hydroxide ion which released to its environtment can neutralize the acidic condition. However, it has not yet determined how saliva pH, especially the critical saliva pH for hydroxyapatite and fluoroapatite, affects the hardness properties of alkasite composite resins. The aim of this study was to determine the effect of artificial saliva pH on the hardness of self-cured and dual-cured alkasite composite resin. This laboratory study used 48 cylindrical-shaped specimens with 6 mm in diameter and 2 mm in thickness of alkasite composite resin specimens (Cention-N, Ivoclar-Vivadent, Liechstenstein) for each polymerization methods. The specimens were divided into 16 groups for immersion in artificial saliva pH 4.5 and 5.5 and then stored in an incubator at 37°C for the next 1, 3, 5, 7 days. The hardness test was performed using a Knoop Microhardness Tester (HMV-G Shimadzu). The results showed that the hardness of self-cured and dual-cured alkasite composite resins decreased after immersion. The highest hardness value was seen in dual-cured alkasite composite resin after 1 day immersion in artificial saliva pH of 5.5 (58.41 ± 0.23 KHN). While the lowest hardness value was seen in the self-cured alkasite composite resin after 7 days immersion in artificial saliva pH 4.5 (47.38 ± 0.49 KHN). Based on the One-way Anova statistical test, there were significant differences (p <0.05) between the different immersion time groups in each artificial saliva pH. The results of the Independent T-test statistical test showed that there were significant differences (p <0.05) between the artificial saliva pH groups and between polymerization methods groups. It was concluded that there was a decrease in the hardness of alkasite composite resin along with the lower pH of artificial saliva and the increasing immersion time. The greatest decrease occured in the first day of immersion."
Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2019
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UI - Skripsi Membership  Universitas Indonesia Library
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Ayuna Ajeng Ratna
Pengaruh lama perendaman terhadap perubahan pH saliva buatan dan kekasaran permukaan resin komposit giomer bulk-fill = Effect of immersion time on artificial saliva pH changes and surface roughness giomer bulk-fill composite resin
"Penelitian ini bertujuan untuk mengetahui pengaruh lama perendaman dalam saliva buatan terhadap perubahan pH-nya dan kekasaran permukaan resin komposit Giomer Bulk-Fill. Jumlah spesimen 63 buah dibagi dalam sembilan kelompok perlakuan yaitu perendaman dalam saliva buatan pH 7; 5,5; dan 4,5 selama masing-masing 1 jam, 24 jam, dan 72 jam pada suhu 370C. Perubahan pH saliva buatan diukur menggunakan pH meter dan pengujian kekasaran permukaan spesimen menggunakan surface roughness tester. Hasil menunjukkan bahwa terdapat perbedaan yang bermakna pada setiap kelompok perlakuan.
This study aimed to determine the effect of immersion time on artificial saliva pH changes and surface roughness of Giomer Bulk Fill composite resin. Sixty three specimens were divided into nine groups with immersion in artificial saliva pH 7, 5.5, and 4.5 for 1 hour, 24 hours, and 72 hours at 370C respectively. The changes in artificial saliva pH were measured using a pH meter and the surface roughness measured using surface roughness tester. The results showed that there were significant differences between each groups."
Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2016
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UI - Skripsi Membership  Universitas Indonesia Library
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Yogi Pamungkas
Pengaruh Perendaman Pada Berbagai pH Saliva Buatan Terhadap Water Sorption Dan Solubility Resin Komposit Supra-Nano Universal Flow = Effect of Immersion in Various pH Levels of Artificial Saliva on the Water Sorption and Solubility of Supra-nano Universal Flow Composite Resin
"Latar Belakang : Resin komposit menjadi salah satu jenis material restorasi yang banyak digunakan karena memiliki keunggulan dalam sifat fisik, mekanik, dan estetika. Salah satu resin komposit yang beredar di Indonesia adalah Resin Komposit Palfique Supra-Nano Universal Flow yang dikembangkan partikel filler-nya dan diklaim memiliki sifat fisik yang baik antara lain water sorption dan solubility. Penggunaan resin komposit seiring waktu akan terpapar oleh lingkungan rongga mulut akibat adanya saliva yang pH-nya bisa berubah seiring konsumsi makanan dan minuman sehingga mempengaruhi water sorption dan solubility-nya. Hingga saat ini, belum terdapat penelitian mengenai pengaruh perendaman pada berbagai pH saliva buatan terhadap water sorption dan solubility Resin Komposit Palfique Supra-nano Universal Flow. Tujuan : Menganalisis pengaruh perendaman Resin Komposit Supra-Nano Palfique Universal Flow tipe Super Low dan Medium pada berbagai pH saliva buatan terhadap water sorption dan solubility. Metode : Empat puluh delapan spesimen Resin Komposit Supra-Nano Palfique Universal Flow tipe Super Low dan Medium dengan dimensi 15 x 1 mm dibagi menjadi delapan kelompok uji berdasarkan tipe dan perendaman, yaitu pada perendaman di dalam akuades, saliva buatan pH 3, 5,5, dan 7 masing-masing selama 7 hari. Perhitungan dari nilai water sorption dan solubility dilakukan sesuai ISO 4049 : 2019. Analisis data menggunakan uji One way ANOVA dan Kruskall Wallis. Hasil : Nilai water sorption dan solubility pada kedua tipe Resin Komposit Palfique Supra-nano Universal Flow semakin tinggi pada perendaman pH yang semakin rendah. Perendaman di dalam akuades dan saliva buatan pH 3 mengalami kenaikan secara signifikan (p<0,05), dan tidak signifikan pada perendaman di dalam saliva buatan pH 3 dengan pH 5,5 dan pH 7 (p<0,05). Nilai solubility pada perendaman di dalam saliva buatan pH 3 dengan pH 5,5 mengalami kenaikan secara signifikan (p<0,05), sedangkan pada saliva buatan pH 5,5 dengan 7 tidak signifikan (p>0,05). Tipe Super Low memiliki nilai water sorption dan solubility yang lebih tinggi dibandingkan tipe Medium pada semua perendaman namun tidak signifikan (p>0,05). Kesimpulan : Terjadi peningkatan nilai water sorption dan solubility Resin Komposit Palfique Supra-nano Universal Flow setelah perendaman di dalam saliva buatan pH 3 dibandingkan pH 5,5, 7, dan akuades.
Background : Composite resin is one type of restoration material that is widely used because it has advantages in physical, mechanical, and aesthetic properties. One of the composite resins distributed in Indonesia is Palfique Supra-nano Universal Flow Composite Resin which developed its filler particles and claimed to have good physical and mechanical properties, one of which is the physical properties of water sorption and solubility. The use of composite resins over time will be exposed to the oral environment due to the presence of saliva which pH of saliva can change with the consumption of food and drinks, that affecting the water sorption and solubility of the Composite Resin. Until now, there’s not yet research the effect of immersion at various pH artificial saliva on water sorption and solubility of Palfique Supra-nano Universal Flow Composite Resin. Objective : To analyze the effect of immersion type Super Low and Medium Palfique Supra-Nano Universal Flow Composite Resin at various pH artificial saliva on water sorption and solubilty. Methods : Forty-eight type Super Low and Medium Palfique Supra-Nano Universal Flow Composite Resin specimens with dimensions of 15 x 1 mm were divided into eight test groups based on type and immersion ; distilled water, artificial saliva pH 3, 5,5, and 7 for 7 days. Calculations of water sorption and solubility values will be made according to ISO 4049: 2019. Data analysis used One way ANOVA and Kruskall Wallis test. Results : The value of water sorption and solubility for both types (Super Low and Medium) is higher in immersion at lower pH. Immersion in distilled water and artificial saliva pH 3 in both types increased significantly (p<0.05), and in artificial saliva pH 3 with pH 5.5 and pH 7 was not significant (p<0.05). The solubility value in pH 3 immersion with pH 5.5 increased significantly (p<0.05), while at pH 5.5 and 7 it was not significant (p>0.05). The Super Low type has higher water sorption and solubility values than the Medium type in all immersions but not significant (p>0.05). Conclusion : There is an increase on water sorption and solubility of Palfique Supra-nano Universal Flow Composite Resin after immersion at artificial pH 3 compared to pH 5,5, 7, and distilled water."
Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2024
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UI - Skripsi Membership  Universitas Indonesia Library
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Elgiva Kallita Tafiana
Pengaruh Perendaman pada Berbagai pH Saliva Buatan Terhadap Kekuatan Fleksural Resin Komposit Supra-nano Palfique Universal Flow Tipe Medium = Effect of Immersion in Various pH Levels of Artificial Saliva on the Flexural Strength of Supra-nano Universal Flow Composite Resin Type Medium
"Latar Belakang: Palfique Universal Flow® merupakan resin komposit flowable yang digunakan untuk merestorasi gigi anterior dan posterior. Untuk dapat beredar di pasaran, material restorasi harus memenuhi karakteristik standar, salah satunya adalah kekuatan fleksural. Material restorasi akan terpapar oleh lingkungan mulut yang kondisi pH-nya selalu berubah sehingga dapat berdampak pada kekuatan fleksuralnya. Tujuan: Menganalisis pengaruh perendaman resin komposit supra-nano Palfique Universal Flow® tipe medium pada berbagai pH saliva buatan terhadap kekuatan fleksural. Metode: Sejumlah dua puluh empat spesimen resin komposit supra-nano Palfique Universal Flow® tipe medium dengan dimensi 25 x 2,8 x 2 mm dikelompokkan menjadi empat, yaitu kelompok tanpa perlakuan, perendaman di saliva buatan pH 3, pH 5,5, dan pH 7. Setelah direndam selama 7 hari, kekuatan fleksural diukur menggunakan Universal Testing Machine. Data dianalisis menggunakan uji Kruskal Wallis, Mann-Whitney, dan Independent T-Test. Hasil: Nilai kekuatan fleksural pada kelompok tanpa perlakuan merupakan yang tertinggi dan semakin rendah pada perendaman di dalam saliva buatan pH 7; 5,5; dan 3 secara berturut-turut dengan perbedaan signifikan (p≤0,05). Nilai antar kelompok berbeda signifikan pada seluruh kelompok (p≤0,05), kecuali pada pH 3 dengan pH 5,5 dan pH 5,5 dengan pH 7 (p>0,05). Kesimpulan: Saliva buatan yang asam menyebabkan nilai kekuatan fleksural resin komposit supra-nano Palfique Universal Flow® tipe medium menjadi lebih rendah.
Background: Palfique Universal Flow® is a flowable composite resin that used for restoring both anterior and posterior teeth. To be marketed, restorative materials must meet standard characteristics, one of which is flexural strength. Restorative materials are exposed to the oral environment, where pH conditions continuously change, potentially affecting their flexural strength. Objective: To analyze the effect of immersion medium-type supra-nano composite resin Palfique Universal Flow®in artificial saliva at various pH levels on the flexural strength. Methods: Twenty-four specimens of medium-type supra-nano composite resin Palfique Universal Flow®, with dimensions of 25 x 2.8 x 2 mm, divided into four groups: untreated, immersion in artificial saliva with pH 3, pH 5.5, and pH 7. After a 7-days immersion, the flexural strength was measured using a Universal Testing Machine. The data were analyzed using Kruskal-Wallis, Mann-Whitney, and Independent T-Test. Results: The flexural strength values in the untreated group were the highest, decreasing within immersion in artificial saliva at pH 7, 5.5, and 3 with significant differences observed (p≤0.05). Significant differences were noted between groups in all cases (p≤0.05), except between pH 3 and pH 5.5, as well as between pH 5.5 and pH 7 (p>0.05). Conclusion: Artificial saliva with acidic pH levels leads to lower flexural strength values of the medium-type supra-nano composite resin Palfique Universal Flow®.
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Depok: Fakultas Kedokteran Gigi Universitas Indonesia, 2024
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UI - Skripsi Membership  Universitas Indonesia Library
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Fajar Nurrachman
Pengaruh lama perendaman dalam berbagai pH Saliva buatan terhadap kekerasan Komposit Microhybrid G-Aenial Posterior™ = The effect of immersion time in various ph of artificial Saliva on Hardness of Microhybrid G-Aenial Posterior™ Composite Resin
"Tujuan: Penelitian ini bertujuan untuk mengetahui perbedaan nilai kekerasan resin komposit microhybrid G-aenial Posterior™ setelah perendaman dalam saliva buatan dengan pH 4,5; 5,5; dan 7 selama 1 hari dan 7 hari.Metode Penelitian: Dalam penelitian ini digunakan 36 spesimen resin komposit microhybrid G-aenial Posterior™ berbentuk silinder dengan ukuran diameter 6 mm dan tebal 2 mm. Selembar mylar strip diletakkan diatas permukaan resin komposit sebelum dilakukan proses curing. Polimerisasi dilakukan menggunakan Light Curing Unit (LED DBA iLed) selama 10 detik dengan irradiansi 1200 mW/cm2. Setelah polimerisasi, spesimen direndam dalam akuades pada suhu 37oC selama 24 jam. Spesimen dibagi menjadi enam kelompok (n = 6) yaitu; perendaman pada saliva buatan pH 4,5 selama 1 hari, saliva buatan pH 5,5 selama 1 hari, saliva buatan pH 7 selama 1 hari, saliva buatan pH 4,5 selama 7 hari, saliva buatan pH 5,5 selama 7 hari, dan saliva buatan pH 7 selama 7 hari. Spesimen diuji menggunakan HMV-G Series Micro Vickers Hardness Tester (Shimadzu, Jepang) dengan beban 50 gram selama 15 detik untuk mendapatkan nilai kekerasan. Data dianalisis dengan uji statistik One-Way ANOVA dan Post-Hoc Bonferroni. Hasil Penelitian: Hasil uji statistik menunjukkan penurunan bermakna nilai kekerasan material G-aenial PosteriorTM setelah dilakukan perendaman selama 1 dan 7 hari dalam saliva buatan dengan pH 4,5; 5,5; dan 7. Nilai kekerasan tertinggi terlihat pada resin komposit microhybrid G-aenial Posterior™ setelah perendaman 1 hari pada pH saliva buatan pH 7 yaitu sebesar 19,14 ± 0,61 VHN. Sedangkan nilai kekerasan terendah terlihat pada resin komposit microhybrid G-aenial Posterior™ setelah perendaman 7 hari pada pH saliva buatan pH 4,5 yaitu sebesar 14,37 ± 0,31 VHN. Kesimpulan: Disimpulkan bahwa dengan pertambahan waktu perendaman, dan penurunan pH saliva buatan didapatkan nilai kekerasan yang menurun pada resin komposit microhybrid G-aenial PosteriorTM.
Objective: The aim of this study was to determine the difference of Microhybrid G-Aenial Posterior™ Composite Resin hardness value after immersion in artificial saliva with pH 4.5; 5.5; and 7 for 1 day and 7 days. Method: 36 specimens of Microhybrid G-Aenial Posterior™ Composite Resin were used in this study. All materials were prepared into disk-shaped specimens of 6 mm in diameter and 2 mm in thickness. A piece of mylar strip was placed on the top of the specimens just before the polymerization. Polymerization was done using LED curing unit (LED DBA iLed) in 10 seconds with irradiance 1200 mW/cm2. After polymerization, specimens were immersed in 37C aquadest solution for 24 hours. Specimens were divided into six groups (n=6) immersed with artificial saliva pH 4,5 in a day; pH 5,5 in a day; pH 7 in a day; pH 4,5 in 7 days; pH 5,5 in 7 days; and pH 7 in 7 days. Specimens were tested with HMV-G Series Micro Vickers Hardness Tester (Shimadzu, Japan) with 50 gram indentation in 15 seconds. Data were analyzed using One-Way ANOVA and Post-Hoc Bonferroni to assess the significant differences among groups. Result: The result showed hardness significant decreased of G-aenial PosteriorTM after were immersed in 1 and 7 days in 4,5; 5,5; dan 7 pH of artificial saliva. The highest and lowest hardness value seen in microhybrid G-aenial Posterior™ composite resin after were immersed in one day with pH 7 of artificial saliva (19,14 ± 0,61 VHN) and 7 days with pH 4,5 (14,37 ± 0,31 VHN) respectively. Conclusion: It was concluded that the increased immersion time and the decrease in the pH value of the artificial saliva decreased the hardness value of the G-aenial PosteriorTM microhybrid composite resin."
Depok: Fakultas Kedokteran Gigi Universitas Indonesia, 2021
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UI - Skripsi Membership  Universitas Indonesia Library
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Marcella Lydia
Pengaruh lama perendaman dalam saliva buatan terhadap kekerasan permukaan resin komposit giomer bulk-fill = Effect of immersion time on different pH value of artificial saliva on microhardness surface of composite resin giomer bulk-fill
"Latar Belakang: Resin komposit Giomer Bulk-Fill merupakan resin komposit yang dapat ditumpat hingga ketebalan 4 mm dan dapat melepas ion fluor. Resin komposit ini juga menjadi buffer asam ketika tingkat pH saliva turun dan mengembalikan ke pH netral. Namun, kenaikan pH diikuti dengan penurunan sifat fisik dari material. Belum diketahui apakah terdapat pengaruh terhadap kekerasan permukaan setelah material ini melepas fluor dan perubahan pH saliva.
Tujuan: Untuk mengetahui pengaruh perbedaan pH saliva buatan dan lama perendaman terhadap kekerasan permukaan resin komposit Giomer Bulk-Fill.
Metode: Penelitian eksperimental laboratorik menggunakan sembilan puluh spesimen resin komposit Giomer Bulk-Fill berdiameter 6 mm dan tinggi 3 mm dibagi menjadi 9 kelompok perendaman yaitu dengan saliva buatan pH 7 (kontrol); pH 5,5; pH 4,5 dengan lama perendaman 1 jam, 24 jam, dan 72 jam yang disimpan dalam inkubator dengan suhu 37°C. Uji kekerasan menggunakan Knoop Microhardness Tester (Shimadzu HMV-G21DT, Jepang).
Hasil: Berdasarkan hasil uji statistik One-way ANOVA terdapat perbedaan bermakna (p<0,05) antara kelompok perendaman dalam saliva buatan pH 4,5 dengan kelompok perendaman dalam saliva buatan pH 5,5 dan kelompok perendaman dalam saliva buatan pH 4,5 dengan kelompok perendaman dalam saliva buatan pH 7 yang dilakukan perendaman selama 72 jam. Nilai kekerasan pada perendaman dengan saliva buatan pH 4,5 dan lama perendaman 1 jam, 24 jam, dan 72 jam beruturut-turut sebesar 35,9±2,40 KHN, 33,75±2,98 KHN, dan 32,7±2,71 KHN. Sementara itu, nilai kekerasan dengan saliva buatan pH 5,5 dan lama perendaman 1 jam, 24 jam, dan 72 jam beruturt-turut sebesar 38,92±2,96 KHN, 37,00±1,82 KHN, dan 38,6±3,42 KHN. Dengan larutan saliva buatan pH 7 dan lama perendaman 1 jam, 24 jam, dan 72 jam didapatkan nilai kekerasan berturut-turut adalah 37,01±2,21 KHN, 37,05±1,79 KHN dan 37,72±2,51 KHN.
Kesimpulan: Lama perendaman dan tingkat keasaman dalam saliva buatan dapat menurunkan nilai kekerasan permukaan resin komposit Giomer Bulk-Fill.
Introduction: Composite resin Giomer Bulk-Fill is a material for restoration that can be placed in single increment with depth until 4 mm and release fluoride ion. This composite resin can be an acidic buffer when pH saliva drops and turns it back to pH neutral. However, the physical properties of the material are decreased. It is unknown if there any change of surface hardness of the material due to fluoride ion release and changes in pH saliva.
Objective: This study aimed to determine the effect of immersion time and different pH levels of artificial saliva on surface microhardness of composite resin Giomer Bulk-Fill.
Methods: Laboratory experimental research using ninety specimens of resin composite Giomer Bulk-Fill and divided into nine groups with immersion in artificial saliva pH 7 (control); 5,5; and 4,5 for 1, 24, and 72 hours at 37°C respectively and tested using Knoop Microhardness Tester (Shimadzu HMV-G21DT, Japan).
Result: The statistical test using One-way ANOVA showed that there were significant differences (p<0,05) between group of immersion in artificial saliva pH 4,5 compared to group of immersion in artificial saliva pH 5,5 and group of immersion in artificial saliva pH 5,5 compared to group of immersion in artificial saliva pH 7 for 72 hours of immersion. The result showed that the hardness number of the groups immersed in artificial saliva pH 4,5 for 1 hour, 24 hours, and 72 hours respectively are 35,9±2,40 KHN, 33,75±2,98 KHN, and 32,7±2,71 KHN. Meanwhile, the hardness number of the groups immersed in artificial saliva pH 5,5 for 1 hour, 24 hours, and 72 hours respectively 38,92±2,96 KHN, 37,00±1,82 KHN, and 38,6±3,42 KHN. The hardness number of the groups immersed in aritificial saliva of pH 7 for 1 hours, 24 hours, and 72 hours are 37,01±2,21 KHN, 37,05±1,79 KHN dan 37,72±2,51 KHN.
Conclusion: Different immersion times and pH levels decrease surface microhardness of Giomer Bulk-Fill composite resin."
Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2018
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UI - Skripsi Membership  Universitas Indonesia Library
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Andi Soufyan
Pengaruh kontaminasi saliva terhadap kekuatan tarik antara resin komposit dengan jaringan dentin
"Composite resin are restorative materials having color similar to teeth and have been widely used in dentistry. The successful application of composite resin influences the duration of the restoration in the oral cavity. The aim of this research is to describe the influence of artificial saliva contamination and the application of re-conditioning on tensile bond strength of composite resin to dentin. In the control group, the dentin were etched, bonding were applied and composite resin were restored on the dentin. In the group with artificial saliva contamination without re-conditioning, the dentin were etched, bonding were applied and then contaminated with artificial saliva, dried and then restired with composite resin. While the group with artificial saliva contamination with re-conditioning, the dentin were etched, bonding were applied and contaminated with artificial saliva, and then etched and applied bonding agent and restored composite resin.Bond strength test used “Universal testing machine, AG 5000. The results showed that highest value of tensile bond strength of composite resin to dentin was at the control group. It can be concluded that artificial saliva contamination decreased tensile bond strength while re-conditioning application increased it."
Fakultas Kedokteran Gigi Universitas Indonesia, 2008
AJ-Pdf
Artikel Jurnal  Universitas Indonesia Library
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Riza Hakim Fazlurrahman Zaini
Pengaruh penggunaan led light curing unit yang dilapisi plastik dalam variasi jarak penyinaran terhadap kekuatan tarik diametral resin komposit = The effect of plastic wrapped led light curing unit in curing distance variances to diametral tensile strength of composite resin
"Salah satu upaya kontrol infeksi terhadap LED-curing unit (LCU) adalah menggunakan plastik transparan (cling wrap). Untuk mengetahui pengaruh penggunaan LCU yang dilapisi cling wrap dalam variasi jarak penyinaran terhadap kekuatan tarik diametral resin komposit, dibuatlah 60 spesimen yang disinari dengan LCU berlapis dan tanpa pelapis dalam 6 variasi jarak penyinaran (0,5-5 mm). Spesimen diuji dengan uji tekanan diametral menggunakan Universal Testing Machine. Dengan hasil uji statistik yang memperlihatkan perbedaan bermakna (p<0,05) antara kelompok yang disinari dengan LCU berlapis dan tanpa pelapis, disimpulkan bahwa penggunaan LCU yang dilapisi cling wrap memberikan pengaruh pada kekuatan tarik diametral resin komposit.
One of infection control method for LED-curing unit (LCU) is by using transparent plastic barrier (cling wrap). To evaluate the influence of using plasticwrapped LCU in curing distance variances to diametral tensile strength of composite resin, 60 disc-shaped specimens are formed and cured by using plasticwrapped and unwrapped LCU in 6 groups of curing distance (0.5-5 mm). The diametral compression test is done by using Universal Testing Machine. The result of statistical analysis showed the significant difference between the groups cured by plastic-wrapped and unwrapped LCU. Then, the use of plastic-wrapped LCU influences the diametral tensile strength of composite resin."
Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2013
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UI - Skripsi Membership  Universitas Indonesia Library
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Vina Arlia Shafadilla
Pengaruh jarak tip curing unit dan durasi penyinaran terhadap kekerasan permukaan resin komposit nanofilled = Effect of led light curing unit's tip distance and curing time to surface hardness of nanofilled composite resin
"Resin komposit termasuk dalam material restoratif direk yang proses pengerasannya melalui proses polimerisasi dibantu dengan bantuan cahaya. Penelitian ini bertujuan untuk mengetahui pengaruh jarak dan durasi penyinaran terhadap kekerasan permukaan resin komposit nanofilled. 60 spesimen resin komposit yang ditumpat dalam mold dibagi ke dalam 6 kelompok berdasarkan jarak dan durasi penyinaran yang berbeda yaitu 2 mm, 5 mm, dan 8 mm; serta 20 detik dan 40 detik. Rerata nilai tertinggi dimiliki oleh kelompok dengan jarak terkecil dan durasi penyinaran terlama sedangkan nilai rerata terendah terdapat pada kelompok dengan jarak terbesar dan durasi penyinaran tersingkat. Terdapat perbedaan bermakna antar tiap kelompok perlakuan dengan jarak yang berbeda, namun pada 2 kelompok yang memiliki jarak tip LED Light Curing Unit sebesar 8 mm, tidak ada perbedaan bermakna. Dapat disimpulkan, jarak tip LED Light Curing Unit dan durasi penyinaran berpengaruh terhadap kekerasan permukaan resin komposit nanofilled. Pengaruh durasi penyinaran hanya signifikan apabila jarak tip LED Light Curing Unit terhadap permukaan resin komposit kurang atau sama dengan 5 mm.
Composite resin is a material of choice for direct restorations. Hardening process of composite resin is triggered by light to begin the polymerization process. The aim of this research was to assess the effect of LED light curing unit's tip distance and curing time to surface hardness of nanofilled composite resin. 60 specimens were prepared into a mold and they were divided into 6 groups based on the different curing distance and time which is 2 mm, 5 mm, and 8 mm along with 20 seconds and 40 seconds. The highest surface hardness was seen in group with 2 mm tip's distance and 40 seconds curing time, while the lowest was seen in group with 8 mm tip's distance and 20 seconds curing time. Significant differences were seen between different tip's distances but in 2 groups which has 8 mm tip's distances and different curing time, there is no significant differences. In coclusion, LED light curing unit's tip distance and curing time is affecting surface hardness of nanofilled composite resin. Curing time only affect the surface hardness if the tip's distance is less than 8 mm."
Jakarta: Fakultas Kedokteran Gigi Universitas Indonesia, 2016
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UI - Skripsi Membership  Universitas Indonesia Library
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