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"Senyawa lignan banyak ditemukan dalam tumbuhan dengan genus Phyllanthus, salah satunya meniran hijau (Phyllanthus niruri). Lignan yang terdapat pada meniran hijau berupa filantin. Pelarut ionic liquid merupakan salah satu pelarut alternatif yang banyak dilakukan percobaan dan pengembangan untuk pengesktraksian suatu tanaman. Tujuan dari penelitian ini adalah untuk mengetahui perbandingan efektifitas hasil ekstraksi senyawa filantin dari herba meniran menggunakan pelarut IL secara Microwave Assisted Extraction (MAE) dengan hasil ekstraksi yang menggunakan pelarut metanol secara maserasi, serta menentukan pelarut IL yang dapat menghasilkan kadar filantin tertinggi. Variabel bebas yang digunakan dalam proses optimasi adalah konsentrasi pelarut IL (0,25 M; 0,75 M; dan 1,25 M) dan rasio sampel:pelarut (1:10; 1:12; dan 1:14). Variabel dirancang dengan Response Surface Methodology (RSM). Penetapan kadar filantin menggunakan Kromatografi Cair Kinerja Tinggi (KCKT) dengan parameter yang telah divalidasi dengan fase gerak etanol:air sebesar 66:34 v/v dan dideteksi pada panjang gelombang 229 nm. Kondisi ektraksi optimal yang didapatkan menunjukkan hasil terbaik pada run 1 dengan konsentrasi 0,75 M dan rasio 1:14. Kadar filantin yang didapatkan sebesar 0,1783 mg/g. Berdasarkan hasil tersebut, penggunaan IL-MAE lebih efektif jika dibandingkan dengan metode maserasi metanol yang menarik filantin sebanyak 0,1319 mg/g.

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Lignan can be found in plants of the Phyllanthus genus, one of which is green meniran (Phyllanthus niruri). The lignans found in green meniran are phyllanthin. Ionic Liquid (IL) is one of the alternative solvents that is being developed for the chemical extraction of a plant. The purpose of this study is to compare the effectiveness of the extraction of phyllanthin compounds from meniran herbs using IL solvent by Microwave Assisted Extraction (MAE) with methanol solvent by maceration method, and to determine IL that can produce the highest levels of phyllanthin. The independent variables used in the optimization process were concentration of IL solvent (0.25 M; 0.75 M; and 1.25 M) and sample:solvent ratio (1:10; 1:12; and 1:14). Variables are designed with Response Surface Methodology (RSM). Determination of phyllanthin content using High Performance Liquid Chromatography (HPLC) with parameters that have been validated with ethanol:water mobile phase of 66:34 v/v was detected at a wavelength of 229 nm. The optimal extraction conditions obtained showed that the best result was in the first run with optimal condition of 0.75 M concentration of solvent and a ratio of 1:14. This condition produced phyllanthin content of 0.1783 mg/g. Based on these results, IL-MAE method is more effective compared to methanol maceration method which attracts phyllanthin content of 0.1319 mg/g."

"How does a marble manufacturer know that the color will be consistent throughout the products being made? How can you tell if liquid at the bottom of a container is the same consistency as at the top? How does a pellet manufacturer know if the pellets are consistently the same size? How does a chemical manufacturer know if the percent purity in a sample is representative of the whole batch? These and similar questions are answered in A Primer for Sampling Solids, Liquids, and Gases: Based on the Seven Sampling Errors of Pierre Gy. Statisticians are well trained in sampling techniques if the sample is well defined. Examples of such samples include industrial parts in manufacturing, invoices in business processes, and people in surveys. However, what if the sampling unit isn't well defined? What if you are sampling bulk material such as a pile of coal? Author Patricia L. Smith illustrates what to look for in sampling devices and procedures to obtain correct samples from bulk materials. She gives sampling guidelines that can be applied immediately and shows how to analyze protocols to uncover sampling problems. Smith presents the ideas of Pierre Gy in lay terms so that his concepts and principles can be easily grasped and applied. She conveys Gy's intuitive meaning while preserving his original ideas. Synonyms have been used for some technical terms to avoid confusion."

"Penelitian ini bertujuan untuk mengetahui pengaruh perendaman minuman isotonik terhadap kekerasan permukaan resin komposit bulk-fill. Enam puluh spesimen Tetric N-Ceram Bulk-Fill berdiameter 6 mm dan tinggi 3 mm dibagi menjadi 2 kelompok perendaman yaitu dengan akuades (kontrol) dan minuman isotonik. Setiap kelompok direndam dengan lama perendaman 1 hari, 3 hari dan 7 hari. Kekerasan permukaan diuji menggunakan HMV-G Series Micro Vickers Hardness Tester.Hasil menunjukan terdapat perbedaan bermakna (p<0,05) antara perendaman akuades dan minuman isotonik uji Independent T-Test. Hasil menunjukkan bahwa terdapat perbedaan bermakna (p<0,05) antara semua kelompok perendaman minuman isotonik dengan lama perendaman 1 hari, 3 hari dan 7 hari dengan uji statistik One-Way Anova dan PostHoc Tukey HSD. Dapat disimpulkan bahwa minuman isotonik mempengaruhi kekerasan permukaan resin komposit bulk-fill.

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This study aims to determine the influence of isotonic drink immersion on surface hardness of bulk-fill composite. Sixty specimens of Tetric N-Ceram Bulk-Fill, 6 mm in diameter and 3 mm height were divided into two groups of storage media; deionized water (control) and isotonic drink. Each group was for 1 day, 3 days and 7 days. The surface hardness is measured using a HMV-G Series Micro Vickers Hardness Tester.

The results showed that there were significant differences (p <0.05) between immersion of control and isotonic drink with Independet T-Test. The results showed that there were significant differences (p <0.05) between all isotonic drink immersion groups with immersion duration of 1 day, 3 days and 7 days with One-Way Anova Test and Post Hoc Tukey HSD. It can be concluded that isotonic drinks affect the surface hardness of bulk-fill composite."

"Latar Belakang: Dalam dunia kedokteran gigi, terdapat banyak pilihan material restoratif yang dapat digunakan, salah satunya yaitu resin komposit. Seiring dengan perkembangan teknologi, para peneliti berhasil mengembangakan resin komposit baru yaitu Bulk-Fill. Sebagai contoh adalah resin komposit Giomer Bulk-Fill yang memiliki berbagai sifat seperti sifat mekanik, fisis dan biologis. Namun, belum ada penelitian pada resin komposit Giomer Bulk-Fill yang secara spesifik menguji nilai kekuatan tarik diametral yang merupakan salah satu sifat mekanik material restoratif.Tujuan Penelitian: Penelitian ini bertujuan untuk mengetahui pengaruh lama perendaman 1, 24, dan 72 jam serta perbedaan nilai pH saliva buatan 7; 5,5; dan 4,5 terhadap kekuatan tarik diametral resin komposit Giomer Bulk-Fill.Metode: Penelitian eksperimental laboratorik dengan menggunakan 90 spesimen berbentuk silindris pejal dengan diameter 6 mm dan tinggi 3 mm yang diuji menggunakan Universal Testing Machine (Shimadzu AGS-X 5kN, Japan) dan dibagi ke dalam 3 kelompok pH larutan saliva buatan yaitu 7; 5,5; dan 4,5; serta 3 kelompok lama perendaman yaitu 1, 24, dan 72 jam.Hasil: Hasil pengujian menggunakan uji One-way ANOVA menunjukkan adanya perbedaan bermakna pada spesimen-spesimen yang digunakan (p<0,05). Pada kelompok spesimen yang direndam dalam larutan saliva buatan dengan pH 7, hasil rerata kekuatan tarik diametral pada perendaman selama 1 jam adalah sebesar 36,7 ± 2,7 MPa. Kemudian mengalami penurunan setelah perendaman 24 jam dengan rerata nilai kekuatan tarik diametralnya sebesar 35,2 ± 2,2 MPa dan meningkat kembali setelah perendaman 72 jam dengan hasil rerata kekuatan tarik diametralnya sebesar 40,1 ± 3,6 MPa. Pada kelompok spesimen yang direndam dalam larutan saliva buatan dengan pH 4,5, pada perendaman selama 1 jam hasil rerata kekuatan tarik diametralnya sebesar 33,6 ± 2,4 MPa. Kemudian setelah perendaman 24 jam dan 72 jam meningkat menjadi 42,6 ± 2 MPa dan 44,2 ± 2,8 MPa. Pada kelompok spesimen yang direndam dalam larutan saliva buatan dengan pH 5,5, hasil rerata kekuatan tarik diametral setelah perendaman selama 1 jam adalah sebesar 34 ± 2,4 MPa. Namun, terjadi perbedaan jika dibandingkan dengan kelompok pH 4,5 yaitu pada kelompok dengan pH 5,5 pada lama perendaman 24 jam terjadi peningkatan yaitu sebesar 44,7 ± 2,8 MPa kemudian menurun setelah perendaman 72 jam dengan nilai rerata sebesar 39 ± 3,3 MPa.Kesimpulan: Nilai kekuatan tarik diametral resin komposit Giomer Bulk-Fill tidak dipengaruhi oleh pH saliva buatan 4,5; 5,5; dan 7 yang digunakan di dalam penelitian ini. Nilai kekuatan tarik diametral resin komposit Giomer Bulk-Fill yang direndam selama 1, 24, dan 72 jam di dalam saliva buatan dengan pH 4,5; 5,5; dan 7 secara umum mengalami peningkatan sehingga lama perendaman dalam penelitian ini mempengaruhi nilai kekuatan tarik diametral resin komposit Giomer Bulk-Fill.

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Background: In the world of dentistry, there are many choices of restorative materials that can be used, one of them is composite resin. Along with the development of technology, the researchers succeeded in developing a new composite resin called Bulk-Fill. One example is Giomer Bulk-Fill composite resin which has various properties such as mechanical, physical and biological properties. However, there is no research on Giomer Bulk-Fill composite resin which specifically tests the value of diametral tensile strength which is one of the mechanical properties of restorative material.

Objective: This study aims to determine the effect of immersion time and the difference in pH value 7; 5,5; and 4,5 of the artificial saliva solution on the value of diametral tensile strength of Giomer Bulk-Fill composite resin.

Method: Laboratory experimental research using 90 solid cylindrical specimens with a diameter of 6 mm and a height of 3 mm which were tested using Universal Testing Machine (Shimadzu AGS-X 5kN, Japan) and were divided into 3 groups pH of artificial saliva solution (7; 5.5; and 4.5) and 3 groups of immersion periods (1, 24 and 72 hours).

Results: The test results using the One-way ANOVA test showed significant differences in the specimens used (p <0.05). In the group of specimens which were immersed in artificial saliva solution with pH 7, the results of the average diametral tensile strength at immersion for 1 hour were 36.7 ± 2.7 MPa. Then it decreased for 24 hours immersed time with a mean value of diametral tensile strength of 35.2 ± 2.2 and increased again at 72 hours immersed time with an average value of diametral tensile strength 40.1 ± 3.6 MPa. In the group of specimens which were immersed in artificial saliva solution with pH 4.5, at immersion for 1 hour the average value of diametral tensile strength was 33.6 ± 2.4 MPa. Then in 24-hour and 72-hour immersion, it increased to 42.6 ± 2 MPa and 44.2 ± 2.8 MPa. In the group of specimens immersed in artificial saliva solution with a pH of 5.5, the average value of diametral tensile strength for 1 hour was 34 ± 2.4 MPa. However, there was a difference when compared to the pH 4.5 group, which was in the group with a pH of 5.5 in the 24-hour immersion period, the value increase for 44.7 ± 2.8 MPa and then decreased for 72 hours of immersion with an average value of 39 ± 3.3 MPa.

Conclusion: The value of diametral tensile strength of Giomer Bulk-Fill composite resin is not affected by pH of artificial saliva 4.5; 5.5; and 7 that used in this study. The value of diametral tensile strength of Giomer Bulk-Fill composite resin, which is immersed for 1, 24, and 72 hours in artificial saliva with pH 4.5; 5.5 and 7 generally increased so that the immersion time in this study affected the diametral tensile strength of Giomer Bulk-Fill composite resin."