Digital radiography with a large-area, amorphous-silicon, flat-panel X-ray detector system

Spahn, Martin and Strotzer, Michael and Voelk, Markus and Boehm, Stefan and Geiger, Bernhard and Hahm, Gerhard and Feuerbach, Stefan (2000) Digital radiography with a large-area, amorphous-silicon, flat-panel X-ray detector system. INVESTIGATIVE RADIOLOGY, 35 (4). pp. 260-266. ISSN 0020-9996

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Abstract

RATIONALE AND OBJECTIVES. TO investigate the image quality of a digital radiography system with an amorphous-silicon, large-area, digital flat-panel detector. METHODS. A flat-panel detector based on a matrix of amorphous silicon was integrated into a projection radiography system, The scintillator consisted of a layer of structured cesium iodide, The active matrix size of 3000(2) pixels together with a pixel size of 143 mu m provided a large image area of 43 x 43 cm(2). Basic image quality parameters such as detective quantum efficiency (DQE) and modulation transfer function (MTF) were measured and compared with those obtained with conventional systems, RESULTS. The measurement of DQE yielded a high value of 70% at zero spatial frequency. At a system dose equivalent to 400 speed, the DQE of the digital system was a factor of two larger than the DQE of a storage phosphor or screen-him system within the entire spatial frequency range between zero and the Nyquist limit of 3.5 Line pairs per millimeter, The flat-panel detector furthermore has an MTF that is superior to that in regular screen-film systems and also provides a substantially larger dynamic range. CONCLUSIONS. This new technology demonstrates its potential to provide equal or superior image quality to conventional screen-him systems and to reduce patient exposure to radiation dose. The advantages of digital radiography systems, based on a hat-panel detector as an instant image display, facilitation of work flow in the radiology department, and digital networking and archiving, are well in sight.

Item Type: Article
Uncontrolled Keywords: SCREEN-FILM RADIOGRAPHY; DOSE REDUCTION; IMAGE QUALITY; THIN-FILM; TECHNOLOGY; SENSOR; digital radiography; flat-panel detector; amorphous silicon; detective quantum efficiency
Subjects: 600 Technology > 610 Medical sciences Medicine
Divisions: Medicine > Lehrstuhl für Röntgendiagnostik
Depositing User: Dr. Gernot Deinzer
Date Deposited: 17 May 2022 14:10
Last Modified: 17 May 2022 14:10
URI: https://pred.uni-regensburg.de/id/eprint/42684

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