ライフサイエンスコーパス: arteriography

1 nts underwent off-line quantitative coronary arteriography.

2 renography, Doppler, the captopril test and arteriography.

3 doaneurysm cannot be visualized on selective arteriography.

4 pare IVUS results with those of quantitative arteriography.

5 onary artery disease during routine coronary arteriography.

6 CG), electrocardiography (ECG), and coronary arteriography.

7 giography, gastric tonometry, and mesenteric arteriography.

8 trast-enhanced spiral CT followed by splenic arteriography.

9 egative SPECT study may obviate the need for arteriography.

10 t varying times from 20 to 120 seconds after arteriography.

11 d the 5-year follow-up quantitative coronary arteriography.

12 rove beneficial when compared to traditional arteriography.

13 the BF measurements during routine coronary arteriography.

14 as assessed by serial quantitative coronary arteriography.

15 es (a subject with CAD documented by PET and arteriography), 32 asymptomatic adults without known CAD

16 ree-dimensional helical computed tomographic arteriography (3D CTA) with maximum intensity projection

17 CG group was more likely to undergo coronary arteriography (55% vs. 40%, p < 0.001), angioplasty (24%

18 (67%) vertebral arteries were restudied with arteriography 7 to 10 days after the injury.

19 Greater use of routine coronary arteriography after acute myocardial infarction would in

20 th parathyroid tumors undergoing parathyroid arteriography after failed surgery, serial measurements

21 Generally, hepatic arteriography and (99m)Tc-macroaggregated albumin (MAA)

22 farction, ischemic stroke, or acute coronary arteriography and 2) syncope, angina pectoris, or drug-r

23 lts in a >50% reduction in invasive coronary arteriography and CABG, a 30% cost savings, and excellen

24 4.9+/-10.6; P=.02) after diagnostic coronary arteriography and elective PTCA (88.7+/-7.5 versus 114.3

25 Arteriography and evacuation of the hematoma under ultra

26 the heart had been examined after postmortem arteriography and fixation in distension.

27 used as access sites for peripheral vascular arteriography and interventional procedures.

28 er patient cured or improved is greatest for arteriography and lowest for the captopril test.

29 es not adequately visualized during coronary arteriography and may provide mechanistic insight into t

30 a routine early invasive strategy (coronary arteriography and myocardial revascularization, as clini

31 pril renography is equally cost-effective as arteriography and obviates the need for an arteriogram i

32 patocellular carcinoma who underwent hepatic arteriography and scintigraphy with (99m)Tc-MAA using pl

33 One recent patient had the inciting event of arteriography and stent placement 2 years posttransplant

34 lected from 363 patients undergoing coronary arteriography and tested for CRP and IgG titers to the i

35 Emergency vascular imaging, including arteriography and venography, will almost certainly assi

36 registry of patients who underwent coronary arteriography and were followed up longitudinally.

37 s, both invasive (such as selective coronary arteriography) and noninvasive (such as blood biomarkers

38 CAD, 39 patients with no significant CAD on arteriography, and a "normalcy" group of 36 patients wit

39 uring initial radionuclide testing, coronary arteriography, and clinical evaluation at study entry.

40 All 72 underwent arteriography, and their medical charts were retrospecti

41 (5.8%) patients were identified at selective arteriography as having collateral OA supply.

42 nce, calling into question the legitimacy of arteriography as the diagnostic gold standard.

43 ine fibroid embolization (UFE) and, using OA arteriography as the reference standard, compare the ext

44 All patients underwent coronary arteriography before discharge.

45 patients presenting for diagnostic coronary arteriography between 1977 and 1978.

46 ce imaging time of flight magnetic resonance arteriography both before and after the administration o

47 e by a factor of 2.4 the diagnostic yield of arteriography by screening out patients who are not acti

48 ired perfusion of the myocardium on coronary arteriography by use of the TMP grade is related to a hi

49 y: 1) none (noninvasive, 28.1%); 2) coronary arteriography (cath-capable, 25.2%); 3) coronary angiopl

50 reduce downstream utilization of diagnostic arteriography, compared with SPECT, in patients matched

51 or PTH gradients after selective parathyroid arteriography correctly indicated the site of the adenom

52 CT during hepatic arteriography (CTHA) is a highly sensitive imaging metho

53 from ascendant or sigmoid colon; subsequent arteriography demonstrated active arterial bleeding from

54 Post-procedural arteriography demonstrated complete occlusion of the mal

55 and were uniformly identified at sites where arteriography depicted classic evidence of FMD (8 patien

56 Micro-CT arteriography determined the impairment to be defective

57 t is not always possible to perform coronary arteriography, electrophysiological studies, right ventr

58 Traditional arteriography failed and CT-angiography demonstrated the

59 The postoperative visceral arteriography findings led to a clinical diagnosis of po

60 red in 290 men and women undergoing coronary arteriography for clinical indications.

61 included 47 patients who underwent pulmonary arteriography for evaluation for possible acute pulmonar

62 ecutive patients who underwent both coronary arteriography for presumed CAD and echocardiography and

63 e of a selective invasive strategy (coronary arteriography for recurrent ischemia only) in patients w

64 in the DS group underwent a second coronary arteriography for stent implantation a median of 36 hour

65 ) were performed in the first four patients; arteriography for the purpose of staining was attempted

66 in 1918, pneumoencephalography in 1919, and arteriography in 1927.

67 Follow-up quantitative coronary arteriography in 20 patients demonstrated a late loss of

68 y was performed in 50 patients (conventional arteriography in 47 was the standard of reference).

69 , intravascular ultrasound (IVUS), and renal arteriography in diagnosing renal artery (RA) fibromuscu

70 e effect on the diagnostic yield of visceral arteriography in patients with acute gastrointestinal bl

71 blish the utility of aortography and ovarian arteriography in the routine practice of UFE.

72 Renal arteriography is generally regarded as the gold standard

73 e relative value of captopril renography and arteriography is similar.

74 Arteriography is the standard test for determining the p

75 Routine follow-up arteriography is warranted in patients with grade I and

76 t and velocity augmentation) underwent renal arteriography, IVUS, and BA, with both immediate and lon

77 opathy was conducted for 1 month using X-ray arteriography, laser speckle imaging, CTA angiography, f

78 Diagnostic arteriography (n = 4) and venous sampling (n = 3) were p

79 re collected in patients undergoing coronary arteriography (n=11), elective PTCA (n=15), and angiogra

80 ice), 12 arteriograms (12 patients underwent arteriography once), eight nuclear medicine studies (six

81 not generate any appreciable artifacts at MR arteriography (P < .001) or MR venography (P = .002).

82 tentially reducing the demand for subsequent arteriography, percutaneous trans-coronary intervention,

83 s have the capability for immediate coronary arteriography, percutaneous transluminal coronary angiop

84 Selective arteriography performed with the purpose of embolization

85 than 40 years old who underwent cinecoronary arteriography primarily for evaluation of chest pain, 35

86 th high-risk factors should undergo coronary arteriography promptly with the intent to carry out coro

87 atives to intravenous urography (IVU), renal arteriography (RA), and 24-hr urine creatinine clearance

88 Arteriography rates were 0.34 and 0.31 for the external

89 The frequency of diagnostic arteriography, revascularization, costs, and 1-y clinica

90 od cell scintiscan before the performance of arteriography (scintigraphic screening).

91 teriograms by means of quantitative coronary arteriography showed no significant difference between p

92 cumented coronary artery disease by coronary arteriography showing any visible coronary artery narrow

93 Results of selective visceral arteriography suggested the presence of PAN in 96% of pa

94 ultrasound imaging or quantitative coronary arteriography that were associated with adverse clinical

95 uterus at aortography with selective ovarian arteriography, to establish the utility of aortography a

96 Selective renal arteriography was also performed with 5 mL of undiluted

97 X-ray arteriography was done pre- and post-CFA transection to

98 Quantitative coronary arteriography was performed in 214 patients classified i

99 capable and CABG-capable hospitals, coronary arteriography was performed in 32.9%, 37.4% and 64.9%, r

100 Coronary arteriography was performed in 9 swine (body weight 20 t

101 extremity (n = 8) or lower extremity (n = 3) arteriography was performed successfully.

102 toperative computed tomography, conventional arteriography was performed to identify and eliminate it

103 If selective arteriography was performed, a second grade was assigned

104 Coronary arteriography was repeated after 2 years in 72 smokers a

105 Arteriography was used for diagnosis.

106 iber, evaluated with magnetic resonance (MR) arteriography, was correlated with age and PCC dimension

107 vascular ultrasound or off-line quantitative arteriography were not associated with recurrent ischemi

108 -artery pressure measurements, and pulmonary arteriography were performed before and after each proce

109 Tailored helical CT and pulmonary arteriography were performed within 24 hours of each oth

110 g for diagnostic and interventional coronary arteriography were recruited.

111 ving renal donors who underwent conventional arteriography were reviewed.

112 Fifteen patients with quantitative coronary arteriography were studied at rest and during dobutamine

113 men; median age, 61 years) underwent mapping arteriography with (99m)Tc-MAA LSF calculation before (9

114 Pulmonary arteriography with levo-phase was obtained before placem

115 ements of PTH were obtained during selective arteriography with nonionic contrast material.

116 al treatment, and also to undertake coronary arteriography within 72 h in the interventional strategy

117 All patients underwent coronary arteriography within one month of MPI.