Abstract
The transfer of digital radiographic images is widely practiced. Digital image processing can influence the perception of image quality. The question arises as to how exposure, internal image adjusting algorithms and image file transfer affect the optical density of digital radiographs. To evaluate the influence of exposure time, optimization and file transfer on digital radiographs. Calibration patterns were formed and a series of digital radiograms were recorded under standardized conditions. The radiographs were exported and then imported into the same software. Three groups of radiographs were analyzed: A - images originally performed and recorded in the software; B - images imported after exporting an optimized image; and C - images imported after exporting an image without optimization but with measurements of the density of the marked regions of interest. An increase of the exposure time decreases optical density. The optimization algorithm increases contrast and decreases differences between exposure times. Long exposures affect the visibility of objects with low optical density. After importing the images in Group B, there was a risk of using the optimization algorithm twice. When optimization was not performed, there were no differences between Groups B and A. In Group C, there was no risk of doubling the optimization algorithm. The transfer of digital radiographs can exert an influence on the optical density values. To avoid the risk of image distortion, files should be exported without image optimization.
Highlights
The traditional technology using X-ray films is being replaced by digital radiography and other digital technologies
The transfer of digital radiographs can exert an influence on the optical density values
According to the study design, the 1st stage consisted in collecting values of optical density for all exposure times after image registration in the patients’ charts and without the image corrections being subjected to analysis on the PC connected to the Dixi[3] sensor (Group A)
Summary
The traditional technology using X-ray films is being replaced by digital radiography and other digital technologies. The software (the internal algorithms of image processing) compensates for changes in exposure time and allows the images to have suitable brightness and contrast; “lighted” (dark) or “under-exposed” (bright) images are uncommon.[1,2]. The software makes it possible to measure the length, angle and optical density of selected areas of the image.[6,7]. The transfer of digital radiographs and the scanning of conventional radiographs to obtain a digital image is practiced widely, but digital processing of an image can have some impact on both the diagnostic value of the X-ray image and the subjective perception of the image quality.[8]. The transfer of digital radiographic images is widely practiced. Digital image processing can influence the perception of image quality. The question arises as to how exposure, internal image adjusting algorithms and image file transfer affect the optical density of digital radiographs
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