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"Nowadays the use of over the counter (OTC) bleaching material become more popular. The most common composition of this OTC material is mainly carbamide peroxyde and hydrogen peroxyde in various concentration. There many methods for using carbamide peroxyde as bleaching material, such as spray, gel tray or applicable solution, etc. According to the using methods, the possibility contamination between the material and oral mucous membrane is very high. The purpose of this research is to examine the effect of 2% carbamide peroxyde solution on oral mucous membrane. Materials and method : 30 rats of wistar strain divided to 2 groups, the control group consist of 10 rats, and experimental group of 20 rats. The animal of control group received application on their labial vestibulum with aquadest, while for the experimental group applicated with 2% carbamide peroxyde solution. The applications were done for 1 minute, 3 times daily with 10 minutes interval periods. 5 rats of the control group and 10 of the experimental group were killed by epidural anaesthetic after 1 day application. The rest animals were killed after 3 days application. Inferior labia then taken as the specimen, fixated using formaldehyde and processed for microscopic slides stained with HE. Microscopic analyze were done using modified inflammation scoring system developed by Eda & Fukuyama. Statistical analyze shows that there are significant differences of the experimental group inflammation compare to control group, both for 1 day and 3 days application. However there are no differences of oral mucous inflammation between 1 day and 3 days application for both control and experimental groups. Based on this research's result, it can be concluded that bleaching material contain carbamide peroxyde can caused oral mucous inflammation."

"Carbamide peroxide as a whitening agent for teeth is very popular because the use of this agent is easy and inexpensive. There are two kinds of concentrations, i.e. 10%-15% and 35%. The methods are home bleaching and in office bleaching. For home bleaching, the duration of whitening application is 2-6 weeks, each day for 8 hours, whilst for in office leaching, two hour application will be required. Whitening efficacy might be increased up to 2-5 levels and the color may sustain for 1-3 years, and this treatment could be reapplied. There is an effect on pulp system, but the effect is reversible, i.e. sensitivity which could be treated with flouridation or application of potassium nitrate. The side affects on gingiva include inflammation which is caused by the buffer and is only temporary. Bleaching is safe to be use the result will be satisfying if proper procedure is followed."

"Indonesian Journal of Dentistry 2006; Special Edition KPPIKG XIV: 368-373Tooth bleaching has become a popular treatment for esthetic improvement in dentistry. There are several 10% carbamide peroxide bleaching agents that are available in Indonesia which contained potasium nitrate-flouride or without potasium nitrate-flouride. However, there was no clinical report about these products in Indonesia. This study was conducted to compare the effectiveness of two bleaching and sensitivity of tooth and gingiva. Sixty-four participants were divided into 2 groups. The first group was treated with bleaching agent that contained potasium nitrate-flouride (Opalescence PF, Ultradent) and the second group with bleaching agent without potasium nitrate-flouride (Vivastyle, Ivoclar Vivadent). Bleaching treatment was done for 6-8 hours per night over a 2 week-period. Evaluations were performed at baseline and at 3, 7, 14 day afterwards. Color change was measured using a value-ordered Vita classic shade guide; tooth and gingival sensivity were examined using Electric Pulp Tester, Gingival Index and a patient log. The results showed that there were no statistical difference in degree of color change between the two products. The mean color change after 2 weeks was 7-8 tabs lighter than baseline. Also there was no statistical difference in tooth and gingival sensitivity between the products. It can be concluded that 10% carbamide peroxide containing potasium nitrate-flouride has the same effectiveness compared to other agent without potasium nitrate-flouride for tooth color change and tooth and gingival sensitivity."

"Pemutihan gigi dilakukan untuk gigi yang mengalami diskolorasi menggunakan hidrogen peroksida. Salah satu teknik dalam pemutihan gigi adalah at-home bleaching. Aplikasi bahan pemutih gigi juga dapat dilakukan pada gigi yang telah ditumpat dengan resin komposit. Tujuan dari penelitian ini adalah mengetahui pengaruh lama aplikasi bahan pemutih gigi hidrogen peroksida 6% terhadap kekerasan resin komposit hibrid. Penelitian ini menggunakan 30 spesimen yang dibagi menjadi 3 kelompok, yaitu 10 spesimen kontrol, 10 spesimen yang diaplikasi bahan pemutih gigi selama 4 jam dan 10 spesimen yang diaplikasi bahan pemutih gigi selama 8 jam. Aplikasi bahan pemutih gigi dilakukan selama 4 hari. Pengukuran kekerasan dilakukan per hari menggunakan Knoop Microhardness Tester.Hasil dari penelitian ini menunjukkan perbedaan penurunan kekerasan berdasarkan lama aplikasi bahan pemutih gigi. Namun tidak terdapat perbedaan penurunan kekerasan bermakna dibandingkan dengan kelompok kontrol. Dengan demikian dapat disimpulkan bahwa bahan pemutih gigi hidrogen peroksida 6% dapat digunakan pada pasien dengan tumpatan resin komposit hibrid dengan aplikasi 4 jam selama 1 hari.

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Dental bleaching is one of treatment for discoloured teeth using hydrogen peroxide. One of dental bleaching method is at-home bleaching. Application of bleaching agent is also applied on the tooth that has been restorated with dental composite resin. The purpose of this research is to analyse the effect of different time of 6% hydrogen peroxide application to the surface hardness of hybrid composite resin. In this research 30 specimens hybrid composite resin were divided into 3 groups of specimen. These are 10 specimens as control group, 10 specimens applied with bleaching agent for 4 hours and 10 specimens applied with bleaching agent for 8 hours each day for 4 days. Measurement with Knoop Hardness Tester has been done each day.The result of this research is the surface hardness value of hybrid composite resin was decreased significantly after the application of bleaching agent 6% hydrogen peroxide according to time of application. But there?s no significantly differences compared to control group. The conclusion is bleaching agent that contain 6% hydrogen peroxide can be used for patient with hybrid composite resin in 4 hour application for one day."

"Indonesian Journal of Dentistry 2006; Edisi Khusus KPPIKG XIV:294-296Dental bleaching has been considered as a feasible approach for dental esthetic, and many dental bleaching products can be seen in the market. Therefore, the side effect of a such dental product should be studied. This study was aimed to detemine the effect of carbamide peroxide-containing home bleaching agent on the hardness of dental amalgam surface structure. Forty amalgam filling specimens were divided into 4 groups, which consist of 3 treatment group and 1 control gloups. Each group was exposed to the bleaching agent daily for 2, 4, and 8 hours within 7 days. The Vickers Microhardness Tester, with loads 98.07 mN for 20 seconds, was used to measured the hardeness of amalgam surface. It was revealed that, there was a significant difference between the treatment and the control group on 8 hours period. It was concluded that there was a decrease in hardeness of dertal amalgam surface after having a contact with carbamide peroxide bleaching agent."

"Indonesian Journal of Dentistry 2006; Edisi Khusus KPPIKG XIV: 254-259There are two basic kinds of tooth whitening agents. The first is over the counter materials and the other is materials used by the dentist or under dentist control. Home bleaching is a technique using l0% carbamide peroxide on a tray applied by patient under dentist supervision. This paper is a review of the effect of 10 % carbamid peroxide home bleaching technique. It is revealed that this metode is simple, safe, economic, and has short chiar side time."

"Indonesian Journal of Dentistry 2006; Edisi Khusus KPPIKG XIV: 288-293ln dental bleaching, carbamide peroxide is usually used at concentration of 10%, 15%, to 20%. The result of our previous study showed that the application of l0% and 15% carbamid peroxide bleaching agent has increased the surface hardness of glass ionomer cement. The purpose of this study was to observe the effect of 20% carbamide peroxide bleaching to glass ionomer surface hardness. Twenty specimens of glass ionomer cement type II after exposed to 20% carbamide peroxide were divided into two application time group: 4 and 8 hours per day. Glass ionomer cement surface hardness was measured by Vickers Microhardness Tester seri HMV-2 with a wieght 0,025 Hv for 20 second. The measurement was conducted at before/no application, a week after application, and 2 weeks after the application bleaching agent. The one way analysis of variance showed a significant difference of surface hardness of GIC type II between before/no application, after a week, and after 2 weeks application in both group. t can be concluded that the application of 20% carbamide peroxide bleaching agent could increase the surface hardness of glass ionomer cement after 1 week and 2 week application periode."

"Latar Belakang: Teknik internal bleaching kontemporer menggunakan hydrogen peroksida yang diaplikasikan pada kamar pulpa gigi nonvital. Prosedur internal bleaching dengan hydrogen peroksida 35% dapat meninggalkan residu radikal bebas pada struktur gigi yang akan menganggu kekerasan mikro dentin. Teh hijau sebagai antioksidan dapat menghilangkan residu radikal bebas dan meningkatkan kekerasan mikro dentin. Tujuan: mengetahui kekerasan mikro dentin pada gigi pasca internal bleaching dengan hydrogen peroksida yang diaplikasikan teh hijau 10% dan 35% selama 2 menit. Metode: Prosedur internal bleaching dilakukan pada 25 gigi premolar atas yang dipotong menjadi dua bagian mesio-distal, kemudian sampel dibagi menjadi 5 kelompok. Kelompok 1 tanpa bleaching dan tanpa aplikasi teh hijau, kelompok 2 pasca bleaching tanpa aplikasi teh hijau, kelompok 3 pasca bleaching tunda 2 minggu, kelompok 4 pasca bleaching aplikasi teh hijau 10% selama 2 menit, kelompok 5 pasca bleaching aplikasi teh hijau 35% selama 2 menit. Semua kelompok kemudian dilakukan uji kekerasan mikro dentin dengan alat Vicker Hardness Machine Test. Data yang diperoleh dianalisa secara statistik dengan ANOVA satu jalur dan uji Post Hoc Bonferroni. Hasil: Hasil uji Bonferroni menunjukkan perbedaan bermakna kekerasan mikro dentin pada kelompok 1 dan 2; kelompok 1 dan 3; kelompok 2 dan 4; dan kelompok 2 dan 5. Sedangkan antara kelompok 1 dan 5, kelompok 3 dan 4 tidak terdapat perbedaan bermakna. Kesimpulan: Aplikasi teh hijau 35% selama 2 menit cukup untuk meningkatkan kekerasan mikro dentin pada gigi pasca internal bleaching dengan hydrogen peroksida 35%.

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Background: Contemporary bleaching technique involve the use of hydrogen peroxide which can be applied internally in the pulp chamber, in a procedure that can be used only for nonvital teeth. Internal bleaching with 35% hydrogen peroxide will produce free radical residues within the tooth structure and microhardness dentin. Green tea as an antioxidant can remove free radical residues and increase microhardness dentin. Objective: To examine the effect of 10% and 35% green tea application on the microhardness dentin after internal bleaching with 35% hydrogen peroxide. Methods: Internal bleaching procedure was performed on 25 maxillary premolars, then the sample were divided into 5 group. Group 1 without bleaching and antioxidant, group 2 bleaching and without antioxidant, group 3 bleaching and delayed 2 weeks, group 4 bleaching and application greean tea 10% for 2 minutes, and group 5 bleaching and application green tea 35% for 2 minutes. All group were tested for microhardness dentin with Vickers Hardness Machine Test. The data were statistically analyzed with one-way ANOVA and Bonferroni Post Hoc Test. Result: The result showed that there were statistical differences between groups 1 and 2; groups 1 and 3; groups 2 and 4; and groups 2 and 5. Meanwhile between groups 1 and 5; and groups 3 and 4 there was no significant difference. Conclusion: Application of 35% green tea for 2 minutes increased the microhardness dentin after internal bleaching with 35% hydrogen peroxide."

"ABSTRAKPenggunaan serat alam Tandan Kosong Kelapa Sawit (TKKS) sebagai penguat dalam komposit polimer terus digalakkan sebagai alternatif bahan baku yang murah dan berlimpah. Namun, sifat hidrofilik yang dimiliki oleh serat alam TKKS akibat kandungan lignin dan hemiselulosa menyebabkan TKKS memiliki kompabilitas yang rendah dengan matriks polimer yang digunakan. Proses bleaching merupakan metode modifikasi permukaan yang bertujuan untuk meningkatkan sifat hidrofobisitas dari serat TKKS. Potensi penggunaan Hidrogen Peroksida (H2O2­) sebagai bleaching agent dalam larutan alkali menunjukan kemampuan untuk menghilangkan kandungan lignin, hemiselulosa, dan impuritas yang berada pada permukaan serat alam TKKS. Perubahan sifat permukaan TKKS kemudian diteliti menggunakan pengujian sudut kontak dengan metode sessile drop test, SEM, dan FTIR. Tegangan permukaan dari TKKS tanpa perlakuan menunjukan angka 35.18 dynes/cm dan meningkat menjadi 32.33 dynes/cm setelah dilakukan bleaching mengindikasikan adanya peningkatan sifat hidrofobik dari serat TKKS. Selain itu, analisis kuantitatif nilai dispersi menggunakan metode perhitungan statistik skewness ratio dan coefficient of variation menunjukan adanya kecenderungan peningkatan distribusi ukuran serat dari TKKS hasil bleaching. Nilai koefisien variasi yang menurun dari 1.40 menjadi 1.20 setelah perlakuan bleaching menunjukan kondisi distribusi serat TKKS yang lebih seragam. Selain itu, nilai skewness ratio serat TKKS hasil bleaching menunjukan peningkatan nilai dari 1.98 menjadi 2.13 mengindikasikan bahwa serat yang mengalami aglomerasi semakin sedikit. Sedangkan, pada perhitungan Nearest Neighbor Index (NNI), adanya penurunan nilai NNI dari 0.42 pada serat TKKS tanpa perlakuan menjadi 0.32 pada serat hasil perlakuan mengindikasikan meningkatnya kecenderungan serat TKKS untuk mengalami clustering.

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ABSTRACT

The use of Oil Palm Empty Fruit Bunch (OPEFB) fibers as reinforcement in polymer composites continues to be promoted as an alternative to man-made fiber because of its inexpensive and abundant quantity. However, the hydrophilic nature of natural OPEFB fibers due to lignin and hemicellulose content causes OPEFB to have low compatibility with the common polymer matrix like polypropylene. Bleaching as a surface modification method is used to improve the of OPEFB fibers. The potential use of Hydrogen Peroxide (H2O2) as a bleaching agent in an alkaline solution shows the ability to eliminate lignin, hemicellulose, and impurities that are present on the surface of the natural OPEFB fibers. Changes in the surface properties of OPEFB are then examined using contact angle testing using sessile drop method, SEM, and FTIR analysis. The surface tension of the OPEFB without treatment shows the number as high as 35.18 dynes/cm and decreases to 32.33 dynes/cm after bleaching treatment, indicates an increase in the nature of the OPEFB fibers. In addition, quantitative analysis of dispersion values ​​using the statistical calculation method of skewness ratio and coefficient of variation showed tendency of increasing uniformity of size distribution on OPEFB fiber after bleaching treatment. The coefficient of variation decreased from 1.40 to 1.20 after the bleaching treatment showed a more uniform condition of the OPEFB fiber size distribution relative to its average size. In addition, the skewness ratio of post-bleaching OPEFB fibers shows an increase in value from 1.98 to 2.13 indicating that the agglomeration of fiber is getting sparse. Whereas, in the calculation of Nearest Neighbor Index (NNI), a decrease in the value of NNI from 0.42 on untreated OPEFB fibers to 0.32 on treated fibers indicates an increase in the tendency of OPEFB fibers to experience clustering.

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