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"Radiografi dental panoramik merupakan teknik untuk mendapatkan gambaran daerah mandibula dan seluruh gigi. Saat ini yang menjadi referensi pengukuran dosis pasien adalah penggunaan TLD chip, namun cara pengukuran yang memberikan indikasi langsung dari dosis pasien lebih sulit ditentukan. Dalam penelitian ini dilakukan pengukuran dengan metode CTDI dan pengukuran dengan TLD chip. Penelitian ini menggunakan jenis fantom silinder PMMA berdiameter 16 cm dengan 5 titik pengukuran yaitu pada periperal dan pusat fantom. TLD diletakkan pada sekeliling permukaan fantom, sedangkan pencil chamber diletakkan ke dalam celah fantom dengan lebar berkas radiasi 5 cm. Selain itu, percobaan ini menggunakan waktu penyinaran 12 detik dengan masing-masing faktor eksposi anak 65 kV dan dewasa 70 kV. Nilai CTDI dihitung dari hasil bacaan pencil chamber, sedangkan TLD dihitung dari hasil pembacaan data TLD chip. Selanjutnya, Dose Area Product (DAP) didapatkan dari mengalikan CT-Dose Index dengan celah sekunder dari reseptor. Hasil penelitian menunjukkan Dose-Length Product (DLP) dan DAP untuk kondisi anak adalah 18,23 mGy.mm dan 270 mGy.mm2, sedangkan DLP dan DAP untuk kondisi dewasa adalah 23,45 mGy.mm dan 330 mGy.mm2 . Sebaliknya, hasil pengukuran dosis menggunakan TLD pada dental panoramik yaitu 0,0875 ± 0,001 mGy untuk kondisi anak dan 0,0731 ± 0,001 mGy untuk kondisi dewasa.

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Dental panoramic radiography is a technique to get an image of mandible and teeths. Commonly the patient dose estimation is TLD measurement, but the measurement of actual patient dose is more difficult to determine. In this study, we did the patient dose assesment of the dental panoramic procedure using CTDI method and compared with TLD measurement.

The experiment was done using 16 cm diameter cylindrical CTDI phantom with 5 points measurement at periapical and center of the phantom. TLDs were distributed circularly at phantom surface, whereas the pencil chamber with 5 cm wide X-ray beam was inserted into the chamber’s holder of the phantom. Moreover, the experiments were performed using 12 seconds time exposure and 65 kV and 70 kV for children and adult respectively. The CTDI was calculated based on the reading of chamber whereas the TLD was calculated based on the TLD reading data. Subsequently, the dose area product was calculated with multiplying the CTDI with the secondary slit are of receptor.

The results show the DLP and DAP for children are 18,23 mGy.mm and 270 mGy.mm2, whereas DLP and DAP for adult are 23,45 mGy.mm and 330 mGy.mm2. On the other hand, the TLD measurement shows that the dose estimation during the dental panoramic procedure are 0,0875 ± 0,001 mGy for children and 0,0731 ± 0,001 mGy for adult."

"[ABSTRAKPada 35 sampel, dilakukan analisis radiografis kepadatan tulang alveolar di sekitar implan dental menggunakan piranti lunak SIDEXIS-XG dan pengukuran frekuensi resonansi implan dengan mengunakan Osstell ISQ segera setelah pemasangan implan dan saat kontrol bulan ketiga.Tidakterdapat hubungan bermakna antara analisis radiografis kepadatan tulang alveolar di sekitar implan dental dan frekuensi resonansi implan dental (r = -0,102 di awal dan r = 0,146 saat kontrol, p> 0,05), namun terdapat perubahan bermakna kepadatan tulang alveolar di sekitar implan dental (p = 0,005) dan frekuensi resonansi implan dental (p = 0,000) selama masa penyembuhan.

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ABSTRACTOn 35 samples, alveolar bone density surrounding dental implant was analyzed using SIDEXIS-XG software and resonance frequency of dental implant was acquired by Osstell ISQ right after dental implant placement and on third-month follow-up. No significant correlation was reported between radiographic analysis of alveolar bone density surrounding dental implant and resonance frequency of dental implant (r = - 0,102 at baseline dan r = 0,146 on follow-up, p> 0,05). However, significant difference was observed for alveolar bone density surrounding dental implant and resonance frequency of dental implant throughout healing period (p = 0,005 and p = 0,000 respectively).;On 35 samples, alveolar bone density surrounding dental implant was analyzed using SIDEXIS-XG software and resonance frequency of dental implant was acquired by Osstell ISQ right after dental implant placement and on third-month follow-up. No significant correlation was reported between radiographic analysis of alveolar bone density surrounding dental implant and resonance frequency of dental implant (r = - 0,102 at baseline dan r = 0,146 on follow-up, p> 0,05). However, significant difference was observed for alveolar bone density surrounding dental implant and resonance frequency of dental implant throughout healing period (p = 0,005 and p = 0,000 respectively).;On 35 samples, alveolar bone density surrounding dental implant was analyzed using SIDEXIS-XG software and resonance frequency of dental implant was acquired by Osstell ISQ right after dental implant placement and on third-month follow-up. No significant correlation was reported between radiographic analysis of alveolar bone density surrounding dental implant and resonance frequency of dental implant (r = - 0,102 at baseline dan r = 0,146 on follow-up, p> 0,05). However, significant difference was observed for alveolar bone density surrounding dental implant and resonance frequency of dental implant throughout healing period (p = 0,005 and p = 0,000 respectively)., On 35 samples, alveolar bone density surrounding dental implant was analyzed using SIDEXIS-XG software and resonance frequency of dental implant was acquired by Osstell ISQ right after dental implant placement and on third-month follow-up. No significant correlation was reported between radiographic analysis of alveolar bone density surrounding dental implant and resonance frequency of dental implant (r = - 0,102 at baseline dan r = 0,146 on follow-up, p> 0,05). However, significant difference was observed for alveolar bone density surrounding dental implant and resonance frequency of dental implant throughout healing period (p = 0,005 and p = 0,000 respectively).]"

"Latar belakang: Kulit buah manggis diketahui memiliki banyak khasiat seperti antioksidan, antiinflamasi, antitumor, antivirus, antibakteri, antifungi, antihistamin, antimalaria dan lainnya. Dalam menjalankan perannya, banyak zat aktif yang ,menghambat penyembuhan fraktur sehingga diperlukan peran antioksidan. Tujuan: Mengetahui efek ekstrak kulit buah manggis terhadap penyembuhan tulang. Metode dan Bahan: Penelitian ini menggunakan model fraktur yaitu defek femur kiri-kanan pada 6 ekor mencit (12 femur). Kemudian diaplikasikan ekstrak kulit buah manggis dosis 20 mg/kg BB (3 femur kiri) dan 40 mg/kg BB (3 femur kiri) serta saline water sebagai kontrol (6 femur kanan) pada hari ke 2, 4 dan 6. Pada hari ke 7, semua mencit dikorbankan. Selanjutnya ukuran diameter defek dievaluasi dengan dental digital radiography. Hasil: Terdapat penurunan ukuran diameter defek pada femur mencit yang diaplikasikan ekstrak kulit buah manggis dosis 40 mg/kg BB namun tidak berbeda bermakna bila dibandingkan dengan kontrol (saline water). Kesimpulan: Aplikasi ekstrak kulit buah manggis dosis 40 mg/kg BB dapat menurunkan ukuran diameter defek pada tulang.

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Background: Peel of mangosteen has many benefits such as antioxidant, anti-inflammatory, antitumor, antiviral, antibacterial, antifungal, antihistamine, antimalarial and others. It has a lot of active substances contained therein as xanthones, anthocyanins, phenols, tannins and others. In bone fractures, an increase of free radicals that are supposed to inhibit the bone fractures healing that required the antioxidants.

Objective: To examine the effect of mangosteen peel extract on bone healing.

Methods and Materials: This study uses fracture model that defects on left-right femur in 6 mice (12 femur). Then applied mangosteen peel extract doseges of 20 mg/kg (3 left femur), 40 mg/kg (3 left femur) and saline water as a control (6 right femur) on days 2, 4 and 6. On day 7, all mice were sacrificed. Furthermore, the diameter size of the defect was evaluated with dental digital radiography.

Results: There was a decrease in the diameter of the femoral defect in mice that are applied mangosteen peel extract dose of 40 mg/kg, but not significantly different when compared with saline water.

Conclusion: The application of mangosteen peel extract 40 mg/kg BW dosage can reduce the diameter size of the bone defect."

"ABSTRAKRadiografi dental panoramik merupakan teknik pencitraan untuk mendapatkan gambaran daerah mandibula dan seluruh dental dalam satu film. Telah dilakukan pengukuran dose-area product (DAP) dan dosis kulit phantom pada pemeriksaan dental panoramik dengan menggunakan TLD. Pengukuran dilakukan dengan menggunakan variasi kondisi pengukuran sebanyak 4 variasi tegangan tabung yaitu 66 kV, 68 kV, 70 kV dan 72 kV dengan penggunaan mA tetap yaitu 3 mA dengan waktu paparan rata-rata 19 detik. Pengukuran DAP diperoleh dengan melakukan pengukuran output pesawat tanpa phantom mengguanakn TLD yang diletakkan pada slit sekunder yang sejajar dengan sumber berkas sinar-x. Hasil pengukuran diperoleh nilai yang bervariasi yaitu pada tegangan tabung 66 kV (80.554 mGy cm2), 68 kV (83.376 mGy cm2), 70 kV (93.154 mGy cm2), 72 kV (93.096 mGy cm2). Pengukuran dosis kulit dilakukan dengan meletakkan TLD di 4 lokasi penyinaran, yaitu : daerah kiri dagu (titik A), tengah dagu (titik B), kanan dagu (titik C) dan slit (titik D). Berdasarkan data pengukuran, dosis kulit pada titik B menerima dosis exit pada saat berkas sinar-x melewati TLD di titik B sedangkan dosis pada titik D menerima dosis exit selama pemeriksaan dental panoramik. Dosis kulit pada titik A dan C memperoleh dosis entrance dan exit. Metode untuk mengetahui estimasi dosis pasien pada pemeriksaan dental panoramic yang perlu dilakukan yaitu mengatahui output pesawat tanpa phantom dan distribusi dosis exit dengan phantom yang diukur selama penyinaran.

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ABSTRACTPanoramic dental radiography is the imaging technique to get an overview of the mandible and entire dental area in the one film. Measurements have been carried our dose-area product (DAP) and the phantom skin dose in panoramic dental examination using the TLD. Measurements were made using a variation of the measurement conditions as much as 4 variation of tube voltage is 66 kV, 68 kV, 70 kV and 72 kV with the use of fixed 3 mA with an average exposure time of 19 seconds. DAP measurements obtained by measuring the radiation output without phantom using TLD placed on the secondary slit parallel to the x-ray beam source. Measurement result obtained by varying the value of the tube voltage of 66 kV (80,554 mGy cm2), 68 kV (83,376 mGy cm2), 70 kV (93,154 mGy cm2), 72 kV (93,096 mGy cm2). Skin dose measurements made with TLD placed at 4 locations irradiation, namely : the left chin area (point A), middle chin (point B), right chin (point C) and slit (point D). Based on the measurement data, the skin dose at point B receives the exit dose at the time of x-ray beam through the TLD at point B while the dose at point D received the exit dose during panoramic dental examination. Skin dose at point A and C gain entrance and exit doses. Estimation method to determine patient dose in panoramic dental examination needs to be done is to move on the radiation output without the phantom and the phantom exit dose distributions measured during irradiation."