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"Latar Belakang: Sifat mekanis material restorasi resin komposit sangat dipengaruhi komposisi material tersebut. Sifat mekanis tersebut juga dapat mengalami degradasi oleh cairan pada rongga mulut, termasuk makanan dan minuman seperti buah. Oleh sebab itu, pada penelitian ini dilakukan pengujian sifat mekanis kekuatan fleksural dari dua jenis resin komposit microhybrid setelah perendaman akuades dan larutan asam sitrat dengan konsentrasi buah sitrus yang umum dikonsumsi, yaitu jeruk mandarin dan jeruk lemon.Tujuan: Penelitian ini bertujuan untuk mengetahui perbedaan nilai kekuatan fleksural dua resin komposit microhybrid yaitu komposit tanpa Bis-GMA dan memiliki pre-polymerized filler (G-aenial PosteriorTM), serta komposit dengan Bis-GMA dan tanpa pre-polymerized filler (Filtek Z250TM), setelah penyimpanan kering dan perendaman akuades serta dua konsentrasi asam sitrat.Metode: Empat puluh spesimen microhybrid G-aenial PosteriorTM dan empat puluh spesimen Filtek Z250TM berbentuk balok berukuran 25 x 2 x 2 mm dibagi menjadi empat kelompok perlakuan, 1 hari penyimpanan kering, 30 hari perendaman akuades, 30 hari perendaman asam sitrat 0,06 mol/L (konsentrasi jeruk mandarin), dan 30 hari perendaman asam sitrat 0,30 mol/L (konsentrasi jeruk lemon). Spesimen di polimerisasi menggunakan LED curing unit irradiansi 700 mW/cm2 (LED Max Hilux) selama 20 detik. Spesimen diuji dengan Universal Testing Machine AGS-X (Shimadzu, Japan) 50 kgF dan 0,5 mm/menit untuk mendapatkan nilai kekuatan fleksural. Data dianalisis dengan uji statistik One-Way ANOVA dan Post-Hoc Tamhane.Hasil: Hasil uji statistik menunjukkan penurunan bermakna nilai kekuatan fleksural bahan G-aenial PosteriorTM dari nilai 86,32 ± 3,54 MPa pada 1 hari kering menjadi 70,14 ± 4,37 MPa setelah perendaman akuades, 71,58 ± 4,09 MPa setelah perendaman asam sitrat 0,06 mol/L, dan 71,01 ± 3,2 MPa setelah perendaman asam sitrat 0,30 mol/L, serta penurunan bermakna nilai kekuatan fleksural bahan Filtek Z250TM dari nilai 138,72 ± 6,26 MPa pada 1 hari kering menjadi 93,58 ± 7,69 MPa setelah perendaman akuades, 96,39 ± 3,15 MPa setelah perendaman asam sitrat 0,06 mol/L, dan 96,14 ± 5,39 setelah perendaman asam sitrat 0,30 mol/L. Antara kedua bahan microhybrid terdapat perbedaan nilai kekuatan fleksural bermakna pada masing-masing kelompok perlakuan, dengan nilai yang lebih besar bermakna pada Filtek Z250TM, namun Filtek Z250TM mengalami penurunan nilai kekuatan yang lebih besar dibandingkan G-aenial PosteriorTM. Pada masing-masing bahan microhybrid, tidak terdapat perbedaan nilai kekuatan fleksural yang signifikan antara kelompok perlakuan perendaman akuades, asam sitrat 0,06 mol/L dan asam sitrat 0,30 mol/LKesimpulan: Disimpulkan bahwa perendaman dalam akuades dan asam sitrat dapat mempengaruhi signifikan kekuatan fleksural kedua bahan komposit microhybrid.

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Background: The mechanical properties of a resin composite restoration are affected by its composition. These mechanical properties can also be degraded by liquids in the oral environment, including food and drinks such as fruits. Therefore in this study, the mechanical property flexural strength of two different microhybrid composites are tested after immersion in distilled water, and citric acid solutions with concentrations of commonly consumed citrus fruits: mandarin orange and lemon.Objective: This study aims to observe the differences in flexural strength between two microhybrid composite resins after dry storage, and immersion in distilled water and citric acid. The first composite is without Bis-GMA and contains pre-polymerized fillers (G-aenial PosteriorTM), while the other one has Bis-GMA and doesn't contain pre-polymerized fillers (Filtek Z250TM).Methods: Forty G-aenial PosteriorTM and forty Filtek Z250TM 3-point bend test bar specimens are divided into four groups, 1 day dry storage, 30 days immersion in distilled water, 30 days immersion in 0.06 mol/L citric acid (mandarin orange concentration) and 30 days immersion in 0.30 mol/L citric acid (lemon concentration). The specimens are polymerized for 20 seconds using a 700 mW/cm2 irradiance LED curing unit (LED Max Hilux). Afterwards, the flexural strength of the specimens are measured with a Shimadzu, Japan AGS-X Universal Testing Machine (50 kgF, 0,5 mm/minute). Data was analyzed using a One-Way ANOVA statistical test and Tamhane Post Hoc.Result: Statistical analysis shows a significant reduction in the flexural strength of G-aenial PosteriorTM from a value of 86.32 ± 3.54 MPa after 1 dry storage, to 70.14 ± 4.37 MPa after immersion in distilled water, 71.58 ± 4.09 MPa after immersion in 0.06 mol/L citric acid, and 71.01 ± 3.2 MPa after immersion in 0.30 mol/L citric acid. Filtek Z250TM composite also showed a significant reduction in flexural strength from a value of 138.72 ± 6.26 MPa after 1 dry storage, to 93.58 ± 7.69 MPa after immersion in distilled water, 96.39 ± 3.15 MPa after immersion in 0.06 mol/L citric acid, and 96.14 ± 5.39 MPa after immersion in 0.30 mol/L citric acid. A significant difference of flexural strength is shown between the two microhybrid materials, in each of the treatment groups, with a significantly higher value for Filtek Z250TM, however Filtek Z250TM had a larger reduction in strength compared to G-aenial PosteriorTM. In each of the microhybrid composite types, there isn't a significant difference of flexural strength between the distilled water, 0.06 mol/L citric acid, and 0.30 mol/L citric acid immersion groups.Conclusion: It is concluded that immersion in water and citric acid has a significant effect on the flexural strength of the microhybrid composites."

"ABSTRAKLatar Belakang: Dalam rongga mulut, komposit resin dapat menyerap sejumlah air yang dapat menyebabkan kelarutan. Penelitian ini bertujuan untuk menganalisis pengaruh perendaman dalam akuades terhadap penyerapan dan kelarutan komposit resin flowable nanofill dan flowable hybrid giomer. Metode: Jumlah spesimen 21 buah dari masing-masing komposit resin flowable nanofill Filtek Supreme Ultra Flowable Restorative dan flowable hybrid giomer Beautifil Flow Plus Giomer dibagi menjadi tiga kelompok perendaman yaitu 1 hari, 7 hari, dan 14 hari. Penyerapan dan kelarutan dihitung dengan menimbang berat spesimen sebelum dan setelah perendaman dalam akuades. Hasil: Terdapat perbedaan bermakna pada setiap kelompok perlakuan p.

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ABSTRACTBackgorund In oral environment, resin composite can absorb amount of water which can lead to solubility. This study aims to analyze the effect of immersion in distilled water to sorption and solubility of flowable nanofill and flowable hybrid giomer resin composite. Methods Twenty two spesimens of each flowable nanofill Filtek Supreme Ultra Flowable Restorative and flowable hybrid giomer Beautifil Flow Plus Giomer were divided into three different immersion time, which were 1 day, 7 days, and 14 days. Sorption and solubility were calculated by weighing the spesimens before and after immersion in distillated water. Results There were significant differences between each groups p"

"ABSTRAKPenelitian ini bertujuan untuk menganalisis pengaruh perendaman dalam akuades terhadap kekasaran permukaan komposit resin flowable nanofill dan flowable hybrid giomer. Empat puluh dua spesimen dari komposit resin flowable nanofill Filtek Supreme Ultra Flowable Restorative n=21 dan flowable hybrid giomer Beautifil Flow Plus Giomer n=21 dibagi menjadi tiga kelompok perendaman: 1 hari,7 hari dan 14 hari. Nilai kekasaran permukaan sebelum dan sesudah perendaman diukur dengan surface roughness tester. Hasil menunjukkan bahwa terdapat perbedaan bermakna pada setiap kelompok perlakuan p0,05 . Disimpulkan perendaman 7 dan 14 hari dalam akuades dapat memengaruhi kekasaran permukaan komposit resin flowable nanofilled dan flowable hybrid giomer secara signifikan.

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ABSTRACTThis study aims to analyze the effect of immersion in distilled water to surface roughness of flowable nanofill and flowable hybrid giomer resin composite. Fourty two specimens of flowable nanofill Filtek Supreme Ultra Flowable Restorative n 21 and flowable hybrid giomer Beautifil Flow Plus Giomer n 21 resin composite were divided into three different immersion time groups 1 day, 7 days and 14 days. The surface roughness was measured before and after immersion by surface roughness tester. The result showed that there were significant differences between each group p0.05 . It can be concluded that 7 and 14 days immersion in distilled water has significant effect on surface roughness of flowable nanofill and flowable hybrid giomer resin composite."

"Tujuan penelitian ini adalah mengetahui pengaruh intensitas dan lama penyinaran dengan LED curing unit terhadap kekuatan tarik diametral resin komposit mikrohibrida. Enam puluh tiga spesimen dari tiga merk resin komposit mikrohibrida; Polofil Supra, Filtek Z250, dan Solare X, dibagi ke dalam dua kelompok perlakuan dan satu kelompok kontrol. Kelompok perlakuan dipolimerisasi menggunakan LED curing unit Flashmax P3 selama satu dan tiga detik sesuai instruksi pabrik. Kelompok kontrol dipolimerisasi menggunakan Ledmax 450 dengan lama penyinaran sesuai instruksi pabrik resin komposit. Hasil analisa statistik tidak menunjukkan perbedaan bermakna. Intensitas cahaya yang tinggi dengan lama penyinaran yang pendek tidak mempengaruhi kekuatan tarik diametral resin komposit mikrohibrida.

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The aim of this study was to evaluate the influence of light intensity and curing time of the newest LED curing unit on diametral tensile strength of microhybrid composite resin. Sixty three specimens from three brands; Polofil Supra, Filtek Z250, and Solare X, were divided into two test groups and one control group. The test groups were polymerized by LED curing unit Flashmax P3 for one and three seconds based on the manufacturer's instruction. The control group was polymerized by Ledmax 450 with curing time based on composite resin manufacturer's instruction. The result was statistically insignificant. Higher light intensity and shorter curing time did not influence the diametral tensile strength of microhybrid composite resin."

"Penelitian ini bertujuan mengetahui pengaruh lama perendaman dalam larutan pembersih gigi tiruan terhadap kekuatan transverse resin akrilik polimerisasipanas. Spesimen direndam dalam larutan pembersih gigi tiruan dan akuades selama 7 hari 14 jam 30 menit, 10 hari 3 jam 20 menit dan 12 hari 16 jam 10 menit sebagai simulasi perendaman 5-menit selama enam, delapan dan sepuluh tahun. Kekuatan transverse diukur menggunakan uji 3-point bending. Uji T tidakberpasangan dan one-way ANOVA menunjukkan penurunan kekuatan transverse resin akrilik dengan p0,05 pada perendaman dalam larutan pembersih, sebaliknya perendaman dalam akuades mengalami penurunan dengan p0,05 pada kelompok delapan dan sepuluh tahun dibandingkan larutan pembersih.

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This study investigates the effect of immersion time in denture cleanser to transverse strength of heat-cured acrylic resin. Specimens were immersed in denture cleanser and aquadest for 7 days 14 hours 30 minutes, 10 days 3 hours 20 minutes and 12 days 16 hours 10 minutes simulating 5-minutes immersion for six, eight, and ten years. Transverse strength was measured using 3-point bending test. Independent T-test and one-way ANOVA showed the transverse strength of specimens immersed in denture cleanser does not decrease, contrary to aquadest. Consequently, the strength of specimens in aquadest are lower than in denture cleanser after year 8."

"Penelitian ini bertujuan untuk mengetahui pengaruh perendaman minuman yoghurt terhadap kekerasan permukaan resin komposit Tetric® N-Ceram bulk-fill. Enam puluh spesimen resin komposit bulk-fill dibagi menjadi 2 kelompok yaitu perendaman dengan akuades sebagai kontrol dan minuman yoghurt pH 4,01±0,1 (n=30). Masing-masing kelompok dilakukan perendaman selama 1 hari, 3 hari dan 7 hari (n=10). Nilai kekerasan permukaan resin komposit diukur menggunakan Knoop Hardness Tester. Data dianalisis menggunakan uji statistik Kruskal-Wallis. Setelah dilakukan perendaman, diperoleh hasil bahwa terdapat perbedaan yang signifikan (p<0,05) pada setiap kelompok perendaman. Disimpulkan bahwa penurunan kekerasan lebih besar terjadi pada spesimen yang direndam dengan minuman yoghurt dibandingkan akuades serta kekerasan permukaan resin komposit Tetric® N-Ceram bulk-fill semakin menurun seiiring dengan bertambahnya waktu perendaman baik dalam perendaman akuades maupun minuman yoghurt.

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This study aims to analyze the effect of yoghurt drink immersion on the surface hardness of Tetric® N-Ceram bulk-fill composite resin. Sixty bulk-fill composite resin specimens were divided into 2 immersion groups with distilled water as control and yogurt drinks pH 4,01 ± 0,1 (n = 30). Each group was immersed for 1 day, 3 days and 7 days (n = 10). The value of the composite resin surface hardness was measured using Knoop Hardness Tester. Data were analyzed using Kruskal-Wallis statistical test. After immersion, the results showed that there were significant differences (p <0,05) in entire group. It was concluded that the decrease in surface hardness was greater in the specimens immersed in yogurt drinks than distilled water and the surface hardness of the resin decreased with increasing immersion time in distilled water and yogurt drinks."

"Penelitian ini bertujuan untuk mengetahui pengaruh ketebalan komposit resin dan jarak penyinaran terhadap kekuatan tarik diametral komposit resin serat pendek KRSP . Empat puluh spesimen KRSP EverX PosteriorTM berbentuk lempengan dengan ketebalan 3 dan 4 mm, diameter 6 mm n=20 dibagi menjadi dua kelompok dengan jarak penyinaran 2 dan 4 mm n=10 . Spesimen dipolimerisasi menggunakan LED curing unit, iradiansi 800 mW/cm2 selama 20 detik. Spesimen diuji menggunakan Universal Testing Machine 250 kgf, 0,5 mm/menit untuk mendapatkan nilai kekuatan tarik diametral. Hasil uji statistik One-Way ANOVA dan post-hoc LSD, kekuatan tarik diametral menurun signifikan pada kelompok dengan ketebalan KRSP 4 mm dan jarak penyinaran 4 mm. Disimpulkan bahwa ketebalan KRSP dan jarak penyinaran dapat mempengaruhi nilai kekuatan tarik diametral.

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The aim of this study is to analyze the effect of short fiber reinforced resin composite SFRC thickness and light curing distance on diametral tensile strength. Forty disc shaped specimens of SFRC EverX PosteriorTM with 3 and 4 mm of resin composite thickness, 6 mm of diameter n 20 were divided into two different light curing distance groups 2 and 4 mm n 10 . All Specimens were polymerized using LED curing unit, irradiance 800 mW cm2 for 20 s. Specimens were tested using Universal Testing Machine 250 kgf, 0,5 mm menit to determine its diametral tensile strength. The result from One Way ANOVA and post hoc LSD statistical test, diametral tensile strength of 4 mm SFRC thickness with 4 mm light curing distance group has significantly decrease. It was concluded that both SFRC thickness and light curing distance has significant effect on the diametral tensile strength."

"Kebocoran mikro resin komposit proksimal seringkali terjadi pada dinding gingiva. Tujuan studi ini mengevaluasi efek komposit flowable sebagai lapisan antara untuk mengurangi kebocoran mikro pada dinding ginigva. Metode: 30 gigi premolar RA dipreparasi berbentuk boks, restorasi dilakukan pada kelompok 1 dengan resin komposit packable saja (kontrol). Kelompok 2 dengan RK flowable sebagai lapisan antara, setebal 1 mm dan komposit packable di atasnya. Kelompok 3, seperti kelompok 2 namun RK flowable sebagai lapisan antara setebal 2 mm. Setelah dilakukan siklus termal, kebocoran mikro diukur dari penetrasi zat warna metilen biru 1%. Analisis statistik dengan uji Kolmogorov-smirnov. Hasil: Kebocoran mikro pada kelompok 1 berbeda bermakna dengan kelompok 2 dan 3. Namun tidak terdapat perbedaan bermakna pada kelompok 2 dan 3 (p<0.05). Kesimpulan : Tingkat kebocoran mikro dinding gingiva paling sedikit pada restorasi RK proksimal dengan aplikasi RK flowable pengganti dentin setebal 1 mm namun, ketebalannya tidak memiliki pengaruh terhadap tingkat kebocoran mikro secara statistik.

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Microleakage of composite restoration in proximal often occurs on gingival wall. The purpose of this study is to evaluate the influence of flowable composite as intermediate layer to reduce microleakage on gingival wall. Materials and Method: Thirty whole-extracted upper premolars were devided into 3 groups. Within a box-like cavities, the first group is restored with packable composite only. Group 2 were restored with flowable composite with 1 mm thickness then restored with incrementally packable composite. Group 3 were restored like group two with flowable composite thickness were 2mm. After thermocycling, the penetration of 1% methylene blue was investigated along the gingival wall. The data were analyzed with Kolmogorov-smirnov test. Results: There were significant difference between group 1 with group 2 and 3. No significant difference found between Group 2 and Group 3. Conclusion: Flowable composite as intermediate layer has influence in reducing the microleakage of gingival wall on proximal composite restoration. Nonetheless the thickness of flowable composite has no influence."

"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.

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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."