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1 mSv (CT urography) and 7.8 mSv (conventional urography).
2 lled edetic acid (EDTA), and did intravenous urography.
3 ve edema at CT and high-grade obstruction at urography.
4 ric edema at CT but low-grade obstruction at urography.
5 occurred in the unfilled ureter at index CT urography.
6 diagnostic information than does intravenous urography.
7 s in diagnostic image quality relative to CT urography.
8 s of 2600 consecutive patients undergoing CT urography.
9 rior replacement of conventional intravenous urography.
10 comparable or even lower than that in X-ray urography.
11 y and 11 patients examined with conventional urography.
12 hen imaging protocols are established for CT urography.
13 imes higher than those in conventional X-ray urography.
14 .5 times the radiation risk for conventional urography.
15 y suspected, underwent multi-detector row CT urography.
16 ted kidneys was identified correctly with MR urography.
17 edema at CT and a nonobstructing calculus at urography, 21 had limited edema at CT and low-grade obst
19 e abdomen of eight patients examined with CT urography and 11 patients examined with conventional uro
20 5% (117 of 157), and 95% (649 of 681) for CT urography and 95% (142 of 149), 92% (634 of 689), 93% (7
21 the majority of patients requiring excretory urography and a superior replacement of conventional int
22 CT is a suitable replacement for intravenous urography and angiography in the assessment of living re
23 rs, CT urography replaced conventional X-ray urography and became the basic imaging technique in our
24 angiography is rapidly replacing intravenous urography and conventional angiography as the imaging mo
28 ivalence of DCE dynamic contrast enhanced MR urography and RS renal scintigraphy for measurement of S
30 ted edema at CT and low-grade obstruction at urography, and 15 had extensive edema at CT and high-gra
31 bined gadolinium-enhanced MR angiography, MR urography, and MR nephrography can accurately depict the
32 1,806 subjects who had undergone intravenous urography between 1994 and 1996 and sent a questionnaire
36 all, historical indications for intravenous urography, CT urography or MR urography is now the prefe
39 uria or a suspicious renal mass underwent CT urography, during which thinly collimated (1-mm) pyelogr
42 provided by a multiphase computed tomography urography examination is beneficial only in a small numb
43 d and calculated skin doses for conventional urography examination, and two-tailed P value significan
45 01, and December 31, 2009, with available CT urography findings in the 12 months prior to surgery or
46 d tomography angiography-computed tomography urography for presurgical evaluation of renal vascular a
48 men (mean age, 55.5 years), and conventional urography group consisted of six women and five men (mea
52 e images obtained from multi-detector row CT urography in 85 patients (57 men, 28 women) were reviewe
53 tory phase images from multi-detector row CT urography in 87 patients (44 women, 43 men; age range, 2
56 omputed tomography directly with intravenous urography in large numbers of patients, confirming the v
58 gle-energy nonenhanced CT and dual-energy CT urography in the excretory phase (either 140 and 80 kV [
59 nd at pathologic examination or follow-up CT urography in the same one-third of the ureter and there
60 olling procedure prior to excretory phase CT urography increases the percentage of bladder opacificat
68 arance (PCC) are alternatives to intravenous urography (IVU), renal arteriography (RA), and 24-hr uri
71 computed tomography (CT) and, especially, CT urography make CT the preferred imaging modality for dia
73 as the initial heir apparent to intravenous urography; many years of experience have now clearly dem
74 rast material-enhanced multi-detector row CT urography may be supplemented with intravenous furosemid
75 Mean patient skin doses for conventional urography measured with TLD strips and calculated as ent
78 computed tomography (CT) (n = 10), excretory urography (n = 6), and retrograde pyelography (n = 8) we
80 d tomography angiography-computed tomography urography not only identifies vascular anatomy but may a
82 underwent unenhanced scanning as part of CT urography; of these, 178 patients did not receive intrav
84 al indications for intravenous urography, CT urography or MR urography is now the preferred examinati
86 d patients who had undergone at least two CT urography procedures with a minimum 5-year follow-up bet
92 different techniques of computed tomography urography reported in the literature and presents the au
95 69 years) who underwent 5-year follow-up CT urography, three new tumors were revealed in three patie
96 ivalence of DCE dynamic contrast enhanced MR urography to RS renal scintigraphy was shown, with a sta
97 introduction of multidetector technology, CT urography, to date, has emerged as the initial heir appa
99 ound examination was followed by intravenous urography, voiding cysto-urethrography and MRI of the ab
102 administration of a diuretic, dual-phase CT urography was performed at 60 seconds (UP) and 5 minutes
103 by 4% when DCE dynamic contrast enhanced MR urography was used compared with that when RS renal scin
105 estimates for CT urography and conventional urography were 14.8 mSv +/- 90.0 and 9.7 mSv +/- 3.0, re
106 oman; mean age, 73.5 years) who underwent MR urography were ultimately identified to have 23 upper-tr
107 ed approach is a limited computed tomography urography which includes precontrast scanning of the kid
108 en; age range, 35-91 years) had undergone CT urography, which consisted of nonenhanced and pyelograph
110 the level comparable with conventional X-ray urography with better visualization of the urinary tract
112 ed individuals who had undergone intravenous urography with views of both hips, and 1,729 community-d
113 mising alternative to conventional excretory urography, with the potential to simplify the imaging ev
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