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"Latar Belakang: Pengunyahan merupakan proses makanan dihancurkan dan dicampur dengan air liur untuk membentuk bolus untuk ditelan. Proses pengunyahan memberikan tekanan pada gigi yang mempengaruhi degradasi sifat mekanik pada gigi. Salah satu cara untuk mengembalikan email yang terdegradasi adalah dilakukan restorasi dengan bahan seperti resin komposit. Bahan restorasi diharapkan memiliki sifat mekanik yang sebanding dengan email. Tujuan: Menganalisis perbedaan kekerasan mikro permukaan resin komposit mikro hibrida dengan resin komposit nano hibrida. Metode: 8 spesimen resin komposit mikro hibrida (Kerr Herculite™ Précis Composite) dan 8 spesimen resin komposit nano hibrida (Kerr Harmonize™ Nano hibrida Universal Composite) disiapkan untuk uji kekerasan mikro permukaan lalu dianalisis dengan uji Independent T-Test. Hasil Penelitian: Terdapat perbedaan bermakna dengan signifikansi p<0,041 (p<0,05) antara nilai kekerasan mikro permukaan resin komposit mikro hibrida dan resin komposit nano hibrida dengan nilai kekerasan resin komposit nano hibrida lebih tinggi (45,51 KHN) dibandingkan dengan resin komposit mikro hibrida (42,31 KHN). Kesimpulan: Resin komposit nano hibrida memiliki kekerasan mikro permukaan lebih tinggi dibandingkan dengan resin komposit mikro hibrida.

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Background: Chewing is the process of crushing food and mixing with saliva to form a bolus for swallowing. The chewing process puts pressure on the teeth which affects the degradation of the mechanical properties of the teeth. One of the ways to restore degraded enamel is to do restoration with materials such as composite resin. The restoration material is expected to have mechanical properties comparable to that of enamel. Objective: Analyzing the differences in surface microhardness of microhybrid composite resin with nanohybrid composite resin. Methods: 8 specimens of microhybrid composite resin (Kerr Herculite ™ Précis Composite) and 8 specimens of nanohybrid composite resin (Kerr Harmonize ™ Nanohybrid Universal Composite) were prepared for surface microhardness testing and then analyzed by Independent T-Test. Result: There was a significant difference with a significance of p <0.041 (p <0.05) between the surface micro-hardness value of hybrid micro-composite resin and nano-hybrid composite resin with higher surface microhardness value for nanohybrid composite resin (45.51 KHN) compared to microhybrid composite resin. (42.31 KHN). Conclusion: The nanohybrid composite resin has higher surface microhardness compared to the microhybrid composite resin."

"Latar Belakang: Perawatan restorasi resin komposit nanofilled dan nanohybrid memerlukan prosedur pemolesan untuk mengurangi tingkat kekasaran permukaan sehingga permukaan halus dan mengkilap. Tujuan: Membandingkan kekasaran permukaan resin komposit nanofilled dan nanohybrid setelah pemolesan menggunakan teknik multiple-step. Metode: 40 spesimen resin komposit yang dibagi ke dalam 2 kelompok 20 spesimen nanofilled Filtek Z350XT A dan 20 spesimen nanohybrid Filtek Z250XT B dipersiapkan kemudian dipoles. Setelah direndam dalam saliva buatan selama 24 jam, tingkat kekasaran permukaan diukur dengan surface roughness tester. Hasil: Hasil rerata tingkat kekasaran permukaan beserta standar deviasi kelompok A adalah 0,0967 m 0,0174 sedangkan kelompok B adalah 0,1217 m 0,0244. Secara statistik p=0,05 terdapat perbedaan signifikan antara kedua kelompok. Kesimpulan: Dapat disimpulkan bahwa tingkat kekasaran permukaan resin komposit nanofilled setelah pemolesan dengan teknik multiple-step lebih baik dibandingkan dengan nanohybrid.

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Background: Restorative treatment using nanofilled and nanohybrid composite should be finished and polished to reduce surface roughness and create smoother surface of the composite.

Objective: To compare the surface roughness nanofilled and nanohybrid composite resin after polishing using multi step technique.

Method: 40 composite resin specimens were divided into 2 groups 20 nanofilled specimens Filtek Z350XT A and 20 nanohybrid specimens Filtek Z250XT B was prepared and then polished. After immersion in artificial saliva for 24 hours, the surface roughness is measured with a surface roughness tester.

ResultL The mean surface roughness results along with standard deviation of group A is 0,0967 m 0,0174 while group B is 0,1217 m 0,0244. Statistically with p 0.05 , there are significant differences between each group.

Conclusion: Surface roughness of nanofilled composite resin after polishing with multiple step technique is better than nanohybrid."

"Tujuan penelitian ini adalah melihat kekerasan permukaan dasar komposit resin aktivasi sinar yang berbeda warna. Tiga kelompok spesimen komposit resin warna terang (B1), sedang (A3), gelap (C3) dari Z250XT, 3M ESPE (USA) berbentuk silinder dipolimerisasi menggunakan LED light curing unit. Uji kekerasan dilakukan menggunakan Knoop Microhardness Tester. Hasil menunjukkan bahwa komposit resin warna terang (B1), sedang (A3) dan gelap (C3), berurutan, 82,4+1.1 KHN, 75,9+1.2 KHN dan 65.9+1.91 KHN. Terdapat perbedaan bermakna (p<0,001) antara masing-masing kelompok spesimen komposit. Disimpulkan bahwa terdapat perbedaan kekerasan permukaan dasar komposit resin antara warna yang berbeda.

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The objective of the present study was to observe the undersurface microhardness of nanofilled light-cured resin composites of different shades. Three groups of specimens are used, light-shade(B1), medium-shade(A3), and dark-shade(C3) from Z250XT,3M ESPE-USA in the silinder form which later polymerized using LED light curing unit. The microhardness was tested using Knoop Microhardness Tester. The microhardness test result of light (B1), medium (A3), and dark shade (C3), 82,4+1.1 KHN, 75,9+1.2 KHN and 65.9+1.91 KHN respectively. The result showed a significant difference (p<0,001) between each group. The study proved difference undersurface microhardness between different shades of resin composite."

"Latar Belakang: LCU-LED prototip metode PWM iradiansi 900 dan 1.000 mW/cm2 telah dibuat untuk mengurangi panas akibat polimerisasi dengan waktu penyinaran 10 detik. Tujuan: Menganalisis pengaruh iradiansi terhadap kekerasan permukaan komposit resin nano. Metode: Sampel disinar dengan LCU-LED prototip iradiansi 900 dan 1.000 mW/cm2 serta LCU-LED pembanding iradiansi 900 mW/cm2. Kekerasan permukaan diuji dengan sistem Knoop. Data dianalisis dengan One-way ANOVA dan Post-HocTest. Hasil: Kekerasan permukaan antar kelompok berbeda signifikan kecuali antara penyinaran LCU-LED prototip iradiansi 900 mW/cm2 dan LCU-LED pembanding iradiansi 900 mW/cm2. Kesimpulan: Penyinaran iradiansi 900 mW/cm2 dari LCU-LED prototip dan LCU-LED pembanding menunjukan kekerasan permukaan yang sama.

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Introduction: Prototype LCU-LED using PWM with irradiance 900 and 1,000mW/cm2 has constructed that can reduce temperature for polymerizing in ten seconds. Objectives: To analyze influence of irradiance to the hardness of nano resin composites. Methods: Samples were polymerized using the prototype with irradiance of 900 and 1,000mW/cm2 or the off-the-shelf LCU-LED (900mW/cm2) as comparison. Hardness was measured using Knoop system. Statistical analysis was conducted by One-Way ANOVA and post-hoctest. Results: There’s significant differences among the groups except those between prototype and comparison with irradiance of 900mW/cm2. Conclusions: Hardness from prototype is equal to those from comparison with irradiance of 900mW/cm2"

"ABSTRAKPenelitian ini bertujuan untuk menganalisis pengaruh perendaman resin komposit nanohybrid dalam obat kumur mengandung etanol dengan waktu berbeda terhadap kekasaran permukaan. Dua puluh empat spesimen resin komposit nanohybrid dibagi menjadi 4 kelompok perendaman: obat kumur etanol 17 dan 26,9 selama 1,5 jam dan 3 jam. Kekasaran permukaan diukur menggunakan surface roughness tester Mitutoyo SJ301. Berdasarkan analisis statistik uji one-way ANOVA dan uji Tukey.

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ABSTRACTThe aim of this study was to analyze the effect of ethanol containing mouthwash with different concentration and duration of immersion on the surface roughness of nanohybrid composite resin. Twenty four specimens of nanoybrid composite resin were divided into 4 groups of immersion 17 ethanol containing mouthwash, and 26,9 ethanol containing mouthwash for 1,5 hours and 3 hours. Surface roughness was measured using SJ301 Mitutoyo surface roughness tester. Statistical analysis of one way ANOVA and Tukey test."

"Latar Belakang: Material restorasi yang paling berkembang pesat sampai saat ini adalah resin komposit. Resin komposit yang beredar di pasaran dan menurun klaim pabrik memiliki sifat estetika yang baik, mudah dimanipulasi, serta dapat dipakai secara universal adalah Resin Komposit Supra-Nano Palfique Universal Flow. Suatu material restorasi harus mengalami polimerisasi yang adekuat agar menghasilkan sifat fisik, kimia, mekanik, dan biologis yang optimal. Sifat kekerasan mikro dan depth of cure material dapat menjadi indikator seberapa baik polimerisasi suatu material. Pada keadaan klinis, anatomi gigi dapat menghalangi sinar untuk berada tepat di atas permukaan restorasi sehingga jarak dan durasi penyinaran memengaruhi kekerasan mikro dan depth of cure resin komposit. Tujuan: Menganalisis pengaruh jarak dan durasi penyinaran terhadap kekerasan mikro dan depth of cure Resin Komposit Supra-Nano Palfique Universal Flow. Metode: Tiga puluh spesimen Resin Komposit Supra-Nano Palfique Universal Flow berbentuk silinder berdiameter 6 mm dan tinggi 2 mm dipersiapkan untuk penelitian ini. Spesimen terbagi menjadi 6 kelompok berdasarkan jarak penyinaran (0,3, dan 6 mm) dan durasi penyinaran (10 dan 15 detik) yang disinari light curing unit dengan iradiansi 1050 mW/cm2. Uji kekerasan dilakukan pada permukaan atas spesimen, dan diuji juga kekerasan pada permukaan bawah spesimen untuk menghitung depth of cure (DoC). DoC dihitung dengan menggunakan metode bottom/top hardness ratio (%). Data dianalisis menggunakan uji statistik One-way ANOVA dan Independent Sample T-test. Hasil: Kekerasan mikro dan DoC semakin tinggi pada jarak yang semakin dekat baik pada durasi 10 maupun 15 detik. Nilai kekerasan mikro dan DoC pada durasi penyinaran 15 detik lebih tinggi dibandingkan durasi penyinaran 10 detik pada jarak yang sama secara signifikan (p<0.05). DoC > 80% hanya didapatkan pada kelompok dengan jarak penyinaran 0 mm dengan durasi penyinaran 10 dan 15 detik yaitu 81,44 ± 0,02% dan 92,64 ± 0,01% secara berurutan, serta pada kelompok dengan jarak penyinaran 3 mm dan durasi penyinaran 15 detik, yaitu 88,78 ± 0,02%. Kesimpulan: Semakin dekat jarak penyinaran dan semakin lama durasi penyinaran, maka kekerasan mikro dan DoC akan semakin tinggi.

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Background: The most rapidly developing restoration material to date is composite resin. The composite resin on the market and according to manufacturer claims has good aesthetic properties, is easy to manipulate and can be used universally is Palfique Universal Flow Supra-Nano Composite Resin. A material restoration must have an adequate polymerization to produce optimal physical, chemical, mechanical, and biological properties. The microhardness and depth of cure properties of a material can be an indicators of how well a material is polymerized. In clinical situations, anatomical teeth can prevent light from being directly above the surface of the restoration so that the distance and duration of light-curing affect the microhardness and depth of cure of the composite resin. Objective: To analyze the effect of light-curing distance and duration on the microhardness and depth of cure of Supra-Nano Palfique Universal Flow Composite Resin. Methods: Thirty specimens of Palfique Universal Flow Supra-Nano Composite Resin in a cylindrical shape with a diameter of 6 mm and a height of 2 mm were prepared for this study. Specimens were divided into 6 groups based on the light-curing distance (0,3, and 6 mm) and duration (10 and 15 seconds) which were exposed to a light curing unit with an irradiance of 1050 mW/cm2. The hardness test was on the top surface of the specimen, and hardness was also tested on the bottom surface of the specimen to calculate the depth of cure (DoC). DoC was calculated using the bottom/top hardness ratio (%) method. Data was analyzed statistically by One-way ANOVA and Independent Sample T-test. Results: Microhardness and DoC were higher at closer light-curing distances for both 10 and 15 seconds. Microhardness and DoC values at a light-curing duration of 15 seconds were significantly higher than at a duration of 10 seconds at the same distance (p<0.05). DoC > 80% was only obtained in the group with a light-curing distance of 0 mm with a duration of 10 and 15 seconds, that is 81.44 ± 0.02% and 92.64 ± 0.01% respectively, and 88.78 ± 0.02% in the group with a light-curing distance of 3 mm and a duration of 15 seconds. Conclusion: The closer the light-curing distance and the longer the light-curing duration, the higher the microhardness and DoC."

"Latar Belakang: Material restorasi yang paling berkembang pesat sampai saat ini adalah resin komposit. Resin komposit yang beredar di pasaran dan menurun klaim pabrik memiliki sifat estetika yang baik, mudah dimanipulasi, serta dapat dipakai secara universal adalah Resin Komposit Supra-Nano Palfique Universal Flow. Suatu material restorasi harus mengalami polimerisasi yang adekuat agar menghasilkan sifat fisik, kimia, mekanik, dan biologis yang optimal. Sifat kekerasan mikro dan depth of cure material dapat menjadi indikator seberapa baik polimerisasi suatu material. Pada keadaan klinis, anatomi gigi dapat menghalangi sinar untuk berada tepat di atas permukaan restorasi sehingga jarak dan durasi penyinaran memengaruhi kekerasan mikro dan depth of cure resin komposit. Tujuan: Menganalisis pengaruh jarak dan durasi penyinaran terhadap kekerasan mikro dan depth of cure Resin Komposit Supra-Nano Palfique Universal Flow. Metode: Tiga puluh spesimen Resin Komposit Supra-Nano Palfique Universal Flow berbentuk silinder berdiameter 6 mm dan tinggi 2 mm dipersiapkan untuk penelitian ini. Spesimen terbagi menjadi 6 kelompok berdasarkan jarak penyinaran (0,3, dan 6 mm) dan durasi penyinaran (10 dan 15 detik) yang disinari light curing unit dengan iradiansi 1050 mW/cm2. Uji kekerasan dilakukan pada permukaan atas spesimen, dan diuji juga kekerasan pada permukaan bawah spesimen untuk menghitung depth of cure (DoC). DoC dihitung dengan menggunakan metode bottom/top hardness ratio (%). Data dianalisis menggunakan uji statistik One-way ANOVA dan Independent Sample T-test. Hasil: Kekerasan mikro dan DoC semakin tinggi pada jarak yang semakin dekat baik pada durasi 10 maupun 15 detik. Nilai kekerasan mikro dan DoC pada durasi penyinaran 15 detik lebih tinggi dibandingkan durasi penyinaran 10 detik pada jarak yang sama secara signifikan (p<0.05). DoC > 80% hanya didapatkan pada kelompok dengan jarak penyinaran 0 mm dengan durasi penyinaran 10 dan 15 detik yaitu 81,44 ± 0,02% dan 92,64 ± 0,01% secara berurutan, serta pada kelompok dengan jarak penyinaran 3 mm dan durasi penyinaran 15 detik, yaitu 88,78 ± 0,02%. Kesimpulan: Semakin dekat jarak penyinaran dan semakin lama durasi penyinaran, maka kekerasan mikro dan DoC akan semakin tinggi.

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Background: The most rapidly developing restoration material to date is composite resin. The composite resin on the market and according to manufacturer claims has good aesthetic properties, is easy to manipulate and can be used universally is Palfique Universal Flow Supra-Nano Composite Resin. A material restoration must have an adequate polymerization to produce optimal physical, chemical, mechanical, and biological properties. The microhardness and depth of cure properties of a material can be an indicators of how well a material is polymerized. In clinical situations, anatomical teeth can prevent light from being directly above the surface of the restoration so that the distance and duration of light-curing affect the microhardness and depth of cure of the composite resin. Objective: To analyze the effect of light-curing distance and duration on the microhardness and depth of cure of Supra-Nano Palfique Universal Flow Composite Resin. Methods: Thirty specimens of Palfique Universal Flow Supra-Nano Composite Resin in a cylindrical shape with a diameter of 6 mm and a height of 2 mm were prepared for this study. Specimens were divided into 6 groups based on the light-curing distance (0,3, and 6 mm) and duration (10 and 15 seconds) which were exposed to a light curing unit with an irradiance of 1050 mW/cm2. The hardness test was on the top surface of the specimen, and hardness was also tested on the bottom surface of the specimen to calculate the depth of cure (DoC). DoC was calculated using the bottom/top hardness ratio (%) method. Data was analyzed statistically by One-way ANOVA and Independent Sample T-test. Results: Microhardness and DoC were higher at closer light-curing distances for both 10 and 15 seconds. Microhardness and DoC values at a light-curing duration of 15 seconds were significantly higher than at a duration of 10 seconds at the same distance (p<0.05). DoC > 80% was only obtained in the group with a light-curing distance of 0 mm with a duration of 10 and 15 seconds, that is 81.44 ± 0.02% and 92.64 ± 0.01% respectively, and 88.78 ± 0.02% in the group with a light-curing distance of 3 mm and a duration of 15 seconds. Conclusion: The closer the light-curing distance and the longer the light-curing duration, the higher the microhardness and DoC."

"Latar Belakang: Bleaching merupakan prosedur mencerahkan warna gigi dengan bantuan bahan kimia yang memiliki efek samping berupa perubahan pada permukaan material resin komposit. Sementara itu, kekasaran permukaan memainkan peran penting dalam penentuan interaksi material restorasi dengan lingkungan rongga mulut karena tekstur permukaan yang tidak baik dapat meningkatkan retensi akumulasi plak dan dapat menimbulkan penyakit lainnya. Namun, penelitian mengenai efek bleaching agent pada kekasaran permukaan melaporkan hasil yang kontroversial. Tujuan: Penelitian ini bertujuan untuk menganalisis pengaruh in-home bleaching agent terhadap kekasaran permukaan resin komposit nanofilled dan microhybrid. Metode: Resin komposit nanofilled FiltekTM Z350 XT Universal Restorative (3M ESPE) dan resin komposit microhybrid FiltekTM Z250 Universal Restorative (3M ESPE) digunakan pada penelitian ini. Sebanyak 16 spesimen disiapkan dari masing-masing jenis resin komposit yang dinyatakan oleh kelompok A resin komposit nanohybrid dan kelompok B resin komposit microhybrid (jumlah total spesimen adalah 32). Seluruh spesimen dibuat dengan penumpatan material ke dalam mould dengan diameter 6 mm dan ketebalan 2 mm menggunakan kaca preparat dengan strip seluloid kemudian diberikan beban 500 gram. In-home bleaching agent (Opalescence Tooth Whitening Systems 10% Carbamide Peroxide Concentrations) diaplikasikan selama 8-10 jam/hari. Seluruh perlakuan dilakukan pada suhu 37°C dan in-home bleaching agent dibilas setiap hari selama 1 minggu dan disimpan dalam air saline steril selama periode hiatus. Kemudian, seluruh spesimen diuji dan dicatat nilai kekasaran permukaan (Ra) dalam satuan μm dengan menggunakan alat uji surface roughness tester (Surtronic® S-128) sebelum dan sesudah perlakuan. Data dianalisis secara statistik dengan uji Paired T-Test dan Independent T-Test. Hasil: Terdapat perbedaan bermakna antara kekasaran permukaan resin komposit nanofilled dan microhybrid sebelum dan sesudah aplikasi in-home bleaching agent (p<0,005). Terdapat perbedaan bermakna antara resin komposit nanofilled dan microhybrid sesudah aplikasi in-home bleaching agent (p<0,005). Kesimpulan: In- home bleaching agent secara signifikan meningkatkan nilai kekasaran permukaan pada kedua jenis material resin komposit dengan resin komposit nanofilled lebih rendah dari resin komposit microhybrid. Kekasaran permukaan pada kedua jenis resin komposit masih dapat diterima secara klinis karena menunjukkan nilai di bawah ambang batas kritis 0,2 μm.

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Background: Bleaching is a procedure that involves lightening the color of a tooth through the application of a chemical agent, which has a side effect in the form of changes to the surface of the composite resin material. Meanwhile, surface roughness plays a vital role in determining a material’s interaction with the oral environment due to the poor surface texture of dental materials. It has a significant influence on plaque accumulation and causes other diseases. However, studies on the effect of bleaching agents on the surface roughness of dental materials have reported controversial results. Objectives: This study aimed to analyze the effect of in-home bleaching agents on the surface roughness of nanofilled and microhybrid composite resin. Methods: Nanofilled composite resin FiltekTM Z350 XT Universal Restorative (3M ESPE) and microhybrid composite resin FiltekTM Z250 Universal Restorative (3M ESPE) were used in the present study. Sixteen specimens were prepared from each type of composite resin that represented by group A for nanofilled composite resin and group B for microhybrid composite resin (total number of specimens were 32). Each specimen was prepared by compressing a sufficient amount of material into a mold of 6 mm in diameter and 2 mm in thickness using glass slides with celluloid strip, then given a load of 500 grams. In-home bleaching agents (Opalescence Tooth Whitening Systems 10% Carbamide Peroxide Concentrations) were applied 8-10 hours/day. All treatment was conducted at 37°C temperature, and an in-home bleaching agent was applied and rinsed off daily for one week and stored in distilled water during the hiatus period. Then, the surface roughness of all specimens was measured and recorded (Ra) value in μm using a surface roughness tester (Surtronic® S-128) before and after being treated. Data were statistically analyzed with Paired T-Test and Independent T-Test. Result: There was a statistically significant difference between the surface roughness of nanofilled and microhybrid composite resin before and after being bleached with an in-home bleaching agent (p<0,005). There was a statistically significant difference between nanofilled and microhybrid composite resin after being bleached with an in-home bleaching agent (p<0,005). Conclusion: In-home bleaching agent significantly increased the surface roughness value of both types of composite resin with nanofilled composite resin is lower than microhybrid composite resin. Surface roughness for both composite resins is still clinically acceptable because values tested below the critical threshold of 0,2 μm."

"Resin komposit Bulk-Fill merupakan material yang dapat merestorasi kavitas dengan kedalaman 4-5 mm dalam satu kali penyinaran. Polimerisasi resin komposit dipengaruhi oleh durasi penyinaran dan metode penyinaran Light Curing Unit. Polimerisasi adekuat diperlukan untuk mendapatkan kekerasan permukaan dan Depth of Cure yang optimal. Penelitian ini dilakukan untuk mengetahui kekerasan permukaan dan Depth of Cure resin komposit Bulk-Fill yang disinar menggunakan Light Curing Unit penyinaran pulsa selama 5, 10, dan 20 detik. Spesimen berjumlah 30 buah dibagi berdasarkan kelompok perlakuan yaitu kelompok durasi penyinaran (5, 10, dan 20 detik) dan penyinaran (pulsa dan kontinu). Spesimen berdiameter 6 mm dan tebal 4 mm diuji menggunakan Knoop Microhardness Tester dengan beban indentasi 50 g selama 10 detik pada 5 titik berbeda. Hasil penelitian menunjukkan peningkatan kekerasan permukaan yang disinar dengan Light Curing Unit penyinaran pulsa dan kontinu seiring pemanjangan durasi penyinaran. Terdapat perbedaan bermakna (p<0,05) pada kekerasan permukaan di kelompok durasi penyinaran. Pada nilai depth of cure dengan kedua Light Curing Unit tidak terdapat perbedaan bermakna (p>0,05). Sehingga disimpulkan, penyinaran pulsa Light Curing Unit selama 5, 10, dan 20 detik pada resin komposit Bulk-Fill mengalami peningkatan kekerasan permukaan yang signifikan dan penggunaan dua metode penyinaran sama baik pada nilai depth of cure.

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Bulk-Fill composite resin have been introduced with the purpose of time savings. It can be placed in a 4-5 mm thickness bulks to be photo-cured in one step. Polymerization of composite resins affected by the irradiation time and mode. Adequate polymerization is needed to obtain optimal surface hardness and Depth of Cure. This study aimed to evaluate the influence of different exposure time with pulse-lighting mode on Bulk-Fill composite resin surface microhardness and Depth of Cure. Thirty specimens divided into 3 groups of exposure time (5, 10, and 20 sec) and 2 groups of irradiation mode (pulse and continuous), 6 mm in diameter and 4 mm in thick were prepared. Each specimen was measured using Knoop Microhardness Tester at each surface. The result showed that irradiation of Bulk-Fill composite resin with pulse-lighting mode curing unit for 5, 10, and 20 seconds experienced a significant increase in surface hardness. The depth of cure values shows no significant difference among different irradiation mode. It was concluded that that Bulk-Fill composite resin irradiated at longer exposure time exhibited significantly higher surface microhardness than those irradiated at shorter time. Meanwhile, there was no significant difference between two different irradiation mode for depth of cure."

"Resin kompositterus dikembangkan untuk meningkatkan performa estetiknya. Resin komposit terbaru yaitu nanofiller dan nanohybrid yang masih diperdebatkan ketahanannya terhadap zat warna minuman kopi. Penelitian ini bertujuan membandingkan perubahan warna permukaan resin komposit nanofiller dan nanohybrid setelah perendaman kopi. Terdapat 36 sampel yang dibagi dalam 6 kelompok dengan ukuran diameter 6 mm, tebal 3 mm. Pengukuran warna menggunakan vita easyshade classic yang diurutkan berdasarkan value. Hasil data dianalisis menggunakan Wilcoxon Test dan Mann-Whitney Test. Didapatkan Perubahan warna pada nanohybrid lebih sedikit dibandingkan pada nanofiller dan secara statistik berbeda bermakna (p<0,05). Sehingga nanohybrid memiliki ketahanan terhadap zat warna yang lebih baik daripada nanofiller.

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Resin composites continue developed to improve aesthetic performance. The newest composite resin are nanofiller and nanohybrid where color resistance to coffee drinks still debating. The aim of this study is to compare surface discoloration nanofiller and nanohybrid resin composites after immersion coffee. There are 36 samples were divided into 6 groups with a diameter of 6 mm, thickness 3 mm. Color measurements using vita easyshade classic that is sorted by value.Results data were analyzed using the Wilcoxon test and Mann-Whitney Test. Changes in color on nanohybrid lower than the nanofiller and statistically significant (p<0.05). Therefore nanohybrid has resistance to color better than nanofiller."