![]() ![]() Jing Z, Huda W, Walker JK (1998) Scattered radiation in scanning slot mammography. Jaffray DA, Siewerdsen JH (2000) Cone-beam computed tomography with a flat-panel imager: initial performance characterization. IPSM (Institute of Physical Sciences in Medicine) (1994) The commissioning and routine testing of mammographic x-ray systems, 2nd edn. IEC (International Electrotechnical Commission) (2001) Diagnostic x-ray imaging equipment – characteristics of general purpose and mammographic antiscatter grids. IEC (International Electrotechnical Commission) (1978) Characteristics of antiscatter grids used in x-ray equipment. Fortschr Rontgenstr 141:574–582įriedrich M (1986) Ultra-Hoch-Linien-Dichte-Raster für die Mammographie: Eine Alternative zur Rastermammographie? Fortschr Rontgenstr 144:566–571 Fortschr Rontgenstr 123:556–566įriedrich M (1984) Schlitzblendentechnik für die Mammographie. Radiology 147:575–582įriedrich M (1975) Der Einfluss der Streustrahlung auf die Abbildungsqualität bei der Mammographie. Radiology 156:541–544ĭoi K, Frank PH, Chan H-P, Vyborny CJ, Makino S, Iida N, Carlin M (1983) Physical and clinical evaluation of new high-strip-density radiographic grids. Med Phys 17(4):655–664ĭershaw DD, Masterson ME, Malik S, Cruz NM (1985) Mammography using an ultrahigh-strip-density, stationary, focused grid. Radiology 154:807–815Ĭhan H-P, Lam KL, Wu Y (1990) Studies of performance of antiscatter grids in digital radiography: effect on signal-to-noise ratio. Phys Med Biol 27:785–803Ĭhan HP, Frank PH, Doi K, Iida N, Higashida Y (1985) Ultra-high-strip-density radiographic grids: a new antiscatter technique for mammography. EUR 16261EN (ISBN 92–827–7843–6) BrusselsĬhan H-P, Doi K (1982) Investigation of the performance of antiscatter grids: Monte Carlo simulation studies. Acta Radiol 55:225–235ĬEC (Commission of the European Communities) (1996) European guidelines on quality criteria for diagnostic radiographic images in paediatrics. Med Phys 27(5):894–897īoldingh WH (1961) Quality and choice of Potter Bucky grids: parts IV, V. ![]() Med Phys 27(7):1503–1508īaydush AH, Ghem WC, Floyd CE Jr (2000) Anthropomorphic versus geometric chest phantoms: a comparison of scatter properties. ![]() Radiographics 11:307–323īaydush AH, Floyd CE Jr (2000) Improved image quality in digital mammography with image processing. Eur Radiol 5(Suppl):70īarnes GT (1991) Contrast and scatter in x-ray imaging. Electromedica 60:74–81Īichinger H, Seyferth W, Staudt F (1995) The specific effectiveness of high-strip-density grids in diagnostic radiology (abstract). Röntgenpraxis 52:251–264Īichinger H, Staudt F, Kuhn H (1992) Multiline grids for imaging in diagnostic radiology – a physical and clinical assessment. This process is experimental and the keywords may be updated as the learning algorithm improves.Īichinger H, Säbel M (1999) Techniken der Streustrahlenreduktion bei der Röntgendiagnostik. These keywords were added by machine and not by the authors. Various publications (Boldingh 1961 Chan and Doi 1982 Aichinger et al. 7.4), but also the materials used for their cover and interspaces (aluminium, paper, carbon fibre). ![]() In comparing different anti-scatter grid types, e.g., one must take into consideration not only the geometrical characteristics of the grid design (e.g. In the following it is explained that it is of great importance for image quality and dose which method of scatter reduction technique is selected. The influence of scattered radiation on image quality has been discussed in the previous chapters over and over again, because the knowledge of its effect on the visibility of image details is decisive for diagnosis. ![]()
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