[en] Recently, a large number of new screen-film systems have become available for use in diagnostic radiology. These new screens are made of materials generally known as rare - earth phosphors which have high x-ray absorption and high x-ray to light conversion efficiency compared to calcium tungstate phosphors. The major advantage of these new systems is reduction of patient exposure due to their high speed or high sensitivity. However, a system with excessively high speed can result in a significant degradation of radiographic image quality. Therefore, the speed is important parameters for users of these system. Our aim of in this was to determine accurately and precisely the absolute speed and relative speeds of both new and conventional screen - film system. We determined the absolute speed in condition of BRH phantom beam quality and the relative speed were measured by a split - screen technique in condition of BRH and ANSI phantom beam quality. The absolute and the relative speed were determined for 8 kinds of screen - 4 kinds of film in regular system and 7 kinds pf screen - 7 kinds of film in ortho system. In this study we could know the New Rx, T - MAT G has the highest film speed, also know Green system's standard deviation of relative speed larger than blue system. It was realized that there were no relationship between the absolute speed and the blue system. It was realized that there were no relationship between the absolute speed and the relative speed in ortho or regular system

[en] Recently, general radiography became to variety because of the continuous development of Inverter type generator and ortho chromatic system. Therefore, we must re-evaluate about patient exposure dose and image quality. I studied about chest radiography which has frequency among general radiography being used during FEB. to AUG., 1994 over 151 medical facilities from medical facilities that are located in Seoul area. The result obtained were as follows; 1) The rectification method of the generator were employing mainly single phase full wave in 82.8 %, three phase full wave in 11.26 % and Inverter type in 4.64 % and condenser type is 1.32 %. 2) Exposure kV was used below 80 kV in most medical facilities and 21.8 % of the medical facilities was using high tube voltage higher than 120 kV. 3) The exposure time was used below the 0.05 sec in 28.4 %, in 29.8 % of the medical facilities used above 0.1 sec. 4) The usage frequency of the added filter is 15.3 %, and among them compound filter was used only 4 %. 5) Rare earth screen was used in 37.7 %. 6) The average skin entrance dose was 0.25 mSv, the range of dose is 0.05∼0.79 mSv in each medical facilities. 7) The average density of the lung field is 1.76, 0.49 in lung side, 0.30 in mediastinum and 0.37 in heart shadow. Therefore it is required to improve all of these for increasing image quality and reducing patient exposure dose as soon as possible

[en] Recently, various screen film system have been introduced in diagnostic radiology. There are two kinds of screen film system : blue emitting Ca WO₄ screen has been largely used in these days. However, it tends to be changed to use green emitting Gd₂O₂S : Tb screen. In this study, photographic characteristics of Ca WO₄, and Gd₂O₂S : Tb screen were investigated with luminescence, spectroscopy. The morphology of Ca WO₄, and Gd₂O₂S : Tb were also observed by using scanning electron microscope. The result obtained were as follows: 1. There was small difference in the thickness of phosphor layers for the front and back screen of blue emitting system, but little difference in those of green emitting system. 2. There was no difference in the size of phosphor particles between the front and back screen for each screen. However, the particle size was different for the various kinds of screens. 3. The shape of phosphor particle was round with many faces for all the screens. 4. In the exposure of X - ray with the same intensity, luminescent intensity of a green emitting system was 6∼7 times larger than that of a blue emitting system. 5. The thickness of phosphor layers does not affect on the sensitivity of the screens exposed by X - ray

[en] We got the following results from the experiment and examination in order to measure the bone-marrow dose of the patients when we did chest or abdomen radiography in the hospitals located in Seoul City from Jan. 1989 until Feb. 1990. 1. In the exposure factors for chest radiography, tube voltage 60∼69 kVp took 48.3 %, 80∼89 or 90∼99 kVp took 13.8 % respectively, 70∼79 kVp 10.3 % and 100∼129 kVp 10.3 %. In tube current and exposure times, 6∼10 mAs took 41.4%, 16∼20 mAs took 20.7% and 11∼15 mAs 13.8 %, measure under 5 mAs 10.4 % orderly. 2. In chest radiography, the bone-marrow dose came to the minimum 3.48 mrad, to the maximum 35.67 mrad, to the mean 14.46 mrad, to the standard deviation 8.89 mrad. 3. Comparing bone-marrow doses of the patients when we used Bucky technique and non-Bucky technique, that of Bucky technique was very higher than that of non-Bucky technique. Because the result was that Bucky technique had the span of 6.09∼35.67 mrad, while non-Bucky technique had the span of 3.48∼17.40 mrad. 4. In the exposure factors for abdomen radiography, tube voltage of 70∼79 kVp was 63.0 %, that of 80∼89 kVp was 22.2 %, that of 60∼69 kVp was 11.1 %. Tube current and exposure times of 31∼40 mAs was 33.4%. that of 51∼60 mAs was 29.6 % and that of 41∼50 mAs was 22.2 %. 5. In abdomen radiography, the bone-marrow dose of the patients came to the minimum of 6.96 mrad, to the maximum of 60.90 mrad, to the mean of 35.73 mrad, to the standard deviation of 12.65 mrad

[en] A Radiographical representation of the relationship between the exposure received by the film and the density the exposure produces following processing. The characteristic curve and be obtained by giving the film material a graded series of exposures, processing the film under a standardized set of conditions and measuring and plotting the resulting image densities against the respective exposures. Aluminium step wedge technique (Boot strap method) in practice film gamma is not altered by the radiographer and radiological technologist, since gamma is an inherent Characteristic of the material in given conditions of exposure and development

[en] This study was done at 45 medical facilities located in Seoul. The purpose of study is twofold. First, this is to investigate usually who examines patients for UGI and how many films are used for the examination. Secondly, this is to evaluate image qualities of UGI in terms of representation of lesser curvatures, amount of Ba and air and other criteria for the exam. The results are as follows : 1. In most cases, the UGI is examined by the Dr(67%), by the RT(22%), and together(11%). 2. The total films used ranged from 5 sheets(42%) to 7 sheets(18%). 3. The amount of Ba given to Pt. was mostly 200∼300 ml(60%) and gastrografin was used 3∼4 g(86.6%) for the examination. 4. For the evaluation of qualities, lack of representation of lesser curvature was 86.7%, lack of Ba and air and bubble formation was 62%, 46.7% and 42.2% respectively

[en] Recently developed new step wedge has a small size as 10 x 10 cm². It can use central beam, and is affected little by scattered rays emitted from the neighboring step wedges. It's characteristics are same as the intensity scale method, and are excellent compared with conventional boot strap methods. Moreover, the method using new step wedge is simple in operation, and the characteristics are excellent. Now, the above method using new step wedge can supercede the distance method

[en] For the evaluation of X-ray image intensifier, we measured radiation dose at input of I. I., brightness and fluorescence at output of I. I. by using X-ray exposure meter, optometer and fluorescence meter for the relative conversion factor. Especially, by using fluorescence meter, we could easily get relative conversion factor without having regulated machine by JIS. Since using, the quality of image intensifier is going down. Consequently, it needs continuous quality maintenance

[en] This study was performed to find out dose distribution, pdd, surface dose and off center ratio. A few articles is analysis of dose data in radiotherapy field, there is no standardized measure of an assessment of exposure dose at diagnostic radiology, yet. And authors demonstrated a new assessment measure by ion chamber, TLD and film dosimetry system. We assurance that our data is useful to quantitative analysis of exposure dose and clinical fields for reduction of radiation dose

[en] This report was the results of an investigation based on the status of the mammography in the 45 medical facilities in the areas of Seoul and Kyong-Gi Do. In regard to mammography, we were able to understand the rectification method of the generator, the functions, the radiographic techniques, the patient exposure dose, etc. Recently, the occurrence of breast cancer has rapidly increased and has lead to increased interest in the early discovery of breast cancer. However, mammography has not kept up with the publics interests and its demand. The main problem is thought to be a wide great difference in the quality of the facilities, especially in the techniques of radiograpic and the capabilities of the generator, which would have a major effect on the grade management of the image quality. In order to be ready and keep up with the high rate of increase of breast cancer, the standardization of mammography and the grade management is urgently required as a solution to the problems in the increase of image quality and the decrease of dose. It is regarded that the basic guide of the techniques of photography in the mammography, which is being used in all developed countries due to the influence of the USA, should be presented, especially in Korea, and for this, more active and enthusiastic education and enlightenment should be needed. =20