No abstract available.
Durapatite*

The present study was performed to evaluate the effect of Tetracycline-HCl on the change of implant surface microstructure according to application time. Implant with hydroxyapatite surface was were utilized. Implant surface was rubbed with 50mg/ml Tetracycline-HCl solution and sterilized saline for 1/2min., 1min., 1 1/2min., 2min., 2 1/2min. and 3min. respectively in the test group. Then, specimens were processed for scanning electron microscopic observation and measured surface roughness by optical interferometer. The results of this study were as follows. 1. Hydroxyapatite surface showed that round particles were deposited irregularly. 2. The roughness of surfaces conditioned with Tetracycline-HCl and saline was lessened and the cracks were increased relative to the application time. In conclusion, the detoxification with 50mg/ml Tetracycline-HCl must be applied respectively with appropriate time according to hydroxyapatite implant surfaces.
Durapatite*

PURPOSE: To evaluate the effect of the slice thickness and the size of region of interest (ROI) on CT number using quantitative CT phantom MATERIALS AND METHODS: The phantom containing 150 mg/cc, 75 mg/cc and 0 mg/cc calcium hydroxyapatite was scanned with 1, 3, 5 and 10mm slice thicknesses by single energy quantitative computed tomography (QCT). CT numbers were measured on center position of the phantom. Shape of ROI was circular and sizes were 1, 3, 5, 11, 16, 21, 26 and 33mm2 . ANOVA and Tukey's multiple comparison method were performed for statistical compari-son of CT numbers according to different slice thicknesses. Coefficient of variation of CT number measured in each size of ROI was evaluated in same slice thickness. RESULTS: CT numbers had statistically significant difference according to slice thicknesses (p<0.05). As the slice thickness increased, CT number also increased. As the density of phantom became lower and the size of ROI became smaller, the coefficient of variation of CT number increased. When the size of ROI was more than 11mm2 in 1mm slice thickness, 5mm2 in 3mm slice thickness and 3mm2 in 5mm slice thickness, the coefficient of variation became consistent. In 10mm slice thickness, the size of ROI had little effect on the coefficient of variation. CONCLUSION: CT number had variation according to the slice thickness and the size of ROI although the object was homogeneous. The slice thickness and the size of ROI are critical factors in precision of the CT number measurements.
Durapatite

PURPOSE: To evaluate the effect of the slice thickness and the size of region of interest (ROI) on CT number using quantitative CT phantom MATERIALS AND METHODS: The phantom containing 150 mg/cc, 75 mg/cc and 0 mg/cc calcium hydroxyapatite was scanned with 1, 3, 5 and 10mm slice thicknesses by single energy quantitative computed tomography (QCT). CT numbers were measured on center position of the phantom. Shape of ROI was circular and sizes were 1, 3, 5, 11, 16, 21, 26 and 33mm2 . ANOVA and Tukey's multiple comparison method were performed for statistical compari-son of CT numbers according to different slice thicknesses. Coefficient of variation of CT number measured in each size of ROI was evaluated in same slice thickness. RESULTS: CT numbers had statistically significant difference according to slice thicknesses (p<0.05). As the slice thickness increased, CT number also increased. As the density of phantom became lower and the size of ROI became smaller, the coefficient of variation of CT number increased. When the size of ROI was more than 11mm2 in 1mm slice thickness, 5mm2 in 3mm slice thickness and 3mm2 in 5mm slice thickness, the coefficient of variation became consistent. In 10mm slice thickness, the size of ROI had little effect on the coefficient of variation. CONCLUSION: CT number had variation according to the slice thickness and the size of ROI although the object was homogeneous. The slice thickness and the size of ROI are critical factors in precision of the CT number measurements.
Durapatite

No abstract available.
Durapatite* ; Forehead*

STATEMENT OF PROBLEM: Surface texture of the implant is one of the important factors of the implant success, especially in the immediate implant loading. Many methods of the surface treatment of implant have developed and introduced. PURPOSE: This study was to evaluate the effects of the Ca-P coating implant crystallized the hydroxyapatite on the surface by the removal torque test and the histomorphometric analysis in vivo. Material and methods: 135 screw type implants, 4.0mm in length and 3.75mm in diameter were used in this study. Implants were divided into 3 groups and treated in the different methods. Group I was not treated, Group II was treated in the SLA method, and Group III was treated in the Ca-P coating with the anodizing method and the hydroxyapatite was crystallized on the surface with the hydrothermal treatment. Firstly, the surface roughness of each group was measured. 45 rabbits were used in this experiment. Two implants were inserted on right tibial metaphysis and one implant was inserted on left side with the alternating order. After the healing periods of 3, 5, and 12 weeks, the rabbits were sacrificed to evaluate the osseointergration by the removal torque test and the histomorphometric analysis. RESULTS: 1. In the analysis for the surface roughness, Group II showed the highest roughness. And Group III showed higher secondly. There was a significant difference one another statistically. 2. In the removal torque test, Group III and II were significantly higher than Group I. There was no statistical difference between Group III and Group II. 3. For all Groups, the removal torque values at 12th week were significantly higher than at 3rd and 5th week. 4. In histomorphometric analysis, the bone implant contact rates of Group III and II were higher than that of Group I at 3rd and 5th week. There was a significant difference at 5th week. 5. In histomorphometric analysis, the bone implant contact rate of Group III and II increased from 3rd week to 5th week, but decreased at 12th week. In Group I, the contact rate at 12th week was significantly higher than at 3rd week and 5th week.
Durapatite ; Rabbits ; Tibia* ; Torque*

The purpose of this study was to evaluated the method for quantitative assessment of bone mass from aluminum-equiv alent value of hydroxyapatite by using digital imaging system consisted of Power Macitosh 7200/120, 15-inch color monitor, and GT-9000 scanner with transparency unit. After aluminum-equivalent image made from correlation between aluminum thickness and grey scale, the accuracy of conversion to mass from aluminum-equivalent value was evaluated. Measured bone mass was compared with converted bone mass fr om aluminum-equivalent value of hydroxyapatite block by correlation formula between aluminum-equivalent value of hydroxy apatite block and hydroxyapatite mass. The results of this study were as follows: 1. Correlation between aluminum thickness and grey level for obtaining aluminum-equivalent imge was high positively ass ociated(r2=0.99). Converted masses from aluminum-equivalent value were very similar to measured masses. There was, statistically, no significnat difference(P<0.05) between them. 2. Correlation between hydroxyapatitie aluminum-equivalent and hydroxyapatite mass was shown to linear relation(r2 =0.95). 3. Converted masses from aluminum-equivalent value of 3 dry mandible segments were similar to measured masses. the diff erence between the exposure directions was not significantly different(P<0.05).
Aluminum ; Durapatite ; Equidae ; Mandible

No abstract available.
Durapatite* ; Dust* ; Rabbits* ; Transplants*

No abstract available.
Durapatite* ; Radionuclide Imaging*

No abstract available.
Animals ; Dogs* ; Durapatite* ; Transplants*