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Instrumentation of digital gray-scale US.
Goldstein A.
Department of Radiology, Detroit Receiving Hospital, MI 48201.
Radiographics. 1993 Nov;13(6):1389-95
Modern, high-resolution, gray-scale, ultrasound (US) imaging equipment is computer based, with all hardware signal processing functions under software control. This systems architecture permits maximum flexibility in function, rapid upgrades, and reliable performance. With modern US equipment, the spatial dimensions of the analog image are transformed into a digital matrix of picture elements (pixels). The volume of tissue, or voxel, that contributes to the echo amplitudes received from each pixel depends crucially on the section (ie, "slice") thickness at the voxel depth. Partial volume effects are more likely to occur in a longer voxel located at a depth outside the section thickness focal zone. The echo signal voltage, or amplitude, is acquired by an analog-to-digital converter simultaneously with the pixel location of the image echo origin. The most accurate echo amplitudes (with least partial volume averaging) occur at the highest image magnification when the voxel dimensions are the smallest in and out of the scan plane. With computer-based imaging, postprocessing procedures, such as fill-in algorithms and digital calipers (measurements of distances in images), can be used to aid in diagnosis.
Posted via PubMed for educational and discussion purposes only.
Link to PubMed Reference
Department of Radiology, Detroit Receiving Hospital, MI 48201.
Radiographics. 1993 Nov;13(6):1389-95
Modern, high-resolution, gray-scale, ultrasound (US) imaging equipment is computer based, with all hardware signal processing functions under software control. This systems architecture permits maximum flexibility in function, rapid upgrades, and reliable performance. With modern US equipment, the spatial dimensions of the analog image are transformed into a digital matrix of picture elements (pixels). The volume of tissue, or voxel, that contributes to the echo amplitudes received from each pixel depends crucially on the section (ie, "slice") thickness at the voxel depth. Partial volume effects are more likely to occur in a longer voxel located at a depth outside the section thickness focal zone. The echo signal voltage, or amplitude, is acquired by an analog-to-digital converter simultaneously with the pixel location of the image echo origin. The most accurate echo amplitudes (with least partial volume averaging) occur at the highest image magnification when the voxel dimensions are the smallest in and out of the scan plane. With computer-based imaging, postprocessing procedures, such as fill-in algorithms and digital calipers (measurements of distances in images), can be used to aid in diagnosis.
Posted via PubMed for educational and discussion purposes only.
Link to PubMed Reference
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