ライフサイエンスコーパス: sonography

1 e prospectively evaluated with power Doppler sonography.

2 solitary cyst in one kidney, confirmed with sonography.

3 a thick wall, an irregular wall, or both at sonography.

4 renal transplant recipients underwent duplex sonography.

5 enosis were seen only with contrast-enhanced sonography.

6 tumors were also evaluated with preoperative sonography.

7 in image analysis in cardiac radiography and sonography.

8 e of NAFLD were also determined by abdominal sonography.

9 gital imaging, and high-frequency ultrasound sonography.

10 carotid atherosclerosis evaluated by duplex sonography.

11 ant breast tumour which is hyperechogenic on sonography.

12 s stability were evaluated by carotid duplex sonography.

13 distortions not visualized at mammography or sonography.

14 al radiography, gray-scale and color Doppler sonography.

15 collect blood samples and conduct ultrasound sonography.

16 ignant and benign lesions at mammography and sonography.

17 ing urinalysis, blood chemistries, and renal sonography.

18 maging and again during enhanced transrectal sonography.

19 cale, harmonic gray-scale, and power Doppler sonography.

20 atological features, or transcranial doppler sonography.

21 asymptomatic control subjects also underwent sonography.

22 ay not be detected with enhanced transrectal sonography.

23 incidental finding on high frequency scrotal sonography.

24 is similar to that reported previously using sonography.

25 ignant foci) and during enhanced transrectal sonography (257 [80%] of 323 malignant foci).

26 With sonography, a mean of 2.5 needle passes (range, 1-5) wer

27 This study compared sonography, a modern imaging technique, with conventiona

28 Patients should undergo routine duplex sonography after extracorporeal membrane oxygenation to

29 High resolution endoluminal sonography allows quantitative measurement of variceal s

30 dality, including prenatal multiplanar neuro sonography, anatomical MRI and advanced MRI techniques,

31 arked ascites and confirmed in both cases by sonography and angiography.

32 (MCAv) was obtained by transcranial Doppler sonography and arterial pressure in the radial artery wa

33 (MCAv) was obtained by transcranial Doppler sonography and arterial pressure in the radial artery wa

34 nderwent prospective evaluation by abdominal sonography and by flat and upright abdominal x-rays.

35 6 h post-occlusion, was assessed by Doppler sonography and cerebral blood flow (CBF) values after cl

36 enoses, detectable via submandibular Doppler sonography and cervical magnetic resonance angiography (

37 tomy of the carotid arteries and the Doppler sonography and CT angiography findings of the left commo

38 -two consecutive patients who underwent both sonography and magnetic resonance (MR) imaging of the la

39 e roles of radiography, computed tomography, sonography and magnetic resonance (MR) imaging, as well

40 on-invasive diagnosis have been transvaginal sonography and serum beta-human chorionic gonadotropin,

41 essment index (HOMA), and liver steatosis by sonography and the fatty liver index (FLI).

42 ; the diagnostic process usually starts with sonography and then the findings are refined with fetal

43 rwent thoracal ((18)F-FDG PET/)MRI, axillary sonography, and dedicated prone breast MRI.

44 Current imaging techniques, particularly sonography, are noninvasive and accurate for identificat

45 Cervical length assessed by endovaginal sonography between 16 weeks' and 18 weeks 6 days' gestat

46 with imaging abnormalities on mammography or sonography (BI-RADS 4/5) underwent combined (18)F-FDG PE

47 sion: (18)F-FDG PET/MRI outperforms axillary sonography, breast MRI and thoracal MRI in determining t

48 Second-look sonography by radiologists provides a valuable check of

49 tification and evaluation at mammography and sonography, (c) relevant percutaneous biopsy considerati

50 ings showed that peripheral calcification on sonography can be a potential indicator of malignant thy

51 Breast sonography can be a useful and powerful screening tool i

52 Sonography can be used to differentiate full- from parti

53 In atypical PD variants, transcranial sonography can detect striatal hyperechogenicity, and di

54 Real-time contrast-enhanced sonography (CES) is a relatively new technique in provid

55 physical examination, laboratory values, and sonography compared with a reference standard of either

56 The authors determined the utility of sonography compared with plain x-rays in the diagnosis o

57 r forms of medical image analysis, including sonography, computed tomography, and magnetic resonance

58 Imaging studies (sonography, computed tomography, magnetic resonance imag

59 a inhibitors was given and repetitive duplex sonography confirmed arterial flow.

60 perfusion scintigraphy, transcranial Doppler sonography, CT angiography and MR angiography are used.

61 At sonography, cystic areas were more often seen in maligna

62 Sonography demonstrated bowel obstruction by showing flu

63 Sonography demonstrates low accuracy in the diagnosis of

64 Enhanced transrectal sonography depicted prostate cancer in 24 sites in 15 su

65 Sonography detected 127 definite erosions in 56 of 100 R

66 In early disease, sonography detected 6.5-fold more erosions than did radi

67 f the peroneus quartus muscle is common with sonography due to variation in the location of the muscu

68 standard of care in the United States, with sonography employed selectively based on clinical findin

69 A combination of clinical, laboratory, and sonography findings can be potentially helpful in making

70 is an infiltrative breast cancer with occult sonography findings in a patient with a history of a lon

71 uded computed tomography (CT) (10 patients), sonography (five patients), and magnetic resonance (MR)

72 to endoscopy, which was superior to Doppler sonography for detection of recurrent portal hypertensio

73 work has demonstrated that dynamic abdominal sonography for hernia (DASH) is accurate for the diagnos

74 esized that extended focused assessment with sonography for human immunodeficiency virus (HIV) and tu

75 tomography ((18)F-FDG PET)/MRI and axillary sonography for the detection of axillary lymph node meta

76 Venous doppler sonography for the evaluation of calf DVT may be limited

77 The extended Focused Assessment With Sonography for Trauma (E-FAST) has become a cornerstone

78 d reliability of the Focused Assessment With Sonography for Trauma (FAST) and the extended FAST (E-FA

79 The utility of the focused assessment with sonography for trauma (FAST) examination in children is

80 Focused Assessment with Sonography for Trauma (FAST) has modest sensitivity for

81 mine the ability of Focused Assessment Using Sonography for Trauma (FAST) to discriminate between sur

82 equired and for results of focused abdominal sonography for trauma (FAST).

83 ed investigations, such as focused abdominal sonography for trauma, diagnostic peritoneal lavage, spi

84 At sonography, four masses were thought to arise outside th

85 fabricated to detect cancer tumors under the sonography guide without the need for any sample dissect

86 through December 1996 in which preoperative sonography had also been performed.

87 ts with undetectable mRNA and benign thyroid sonography had benign disease.

88 36/44) (95%-CI: 67.29-91.81%) while axillary sonography had the highest specificity (98.5%, 65/66), 9

89 Hip sonography has been developed, refined, and critiqued fo

90 ultrasonography (optic nerve sheath diameter sonography) has been proposed as a noninvasive, quick me

91 High-resolution endoluminal sonography (HRES) was used to image and measure esophage

92 Enhanced transrectal sonography improves sensitivity for the detection of mal

93 reatinine clearance in all patients and with sonography in 17 patients.

94 th those of bilateral lower-extremity venous sonography in 308 patients.

95 between computed tomography and transcranial sonography in assessing volumes of hyperdense lesions (i

96 minary data suggest a role for power Doppler sonography in assessment of serial changes in synovial i

97 thoracal MRI, thoracal PET/MRI and axillary sonography in detecting nodal positive patients was test

98 tients underwent coronary angiography and/or sonography in order to assess the grade of atheroscleros

99 l vascular resistance measured using Doppler sonography in stable kidney transplant recipients.

100 clefts can be observed in utero at prenatal sonography in the coronal and axial planes.

101 is to assess the application of whole-breast sonography in the evaluation of breast lesions in women

102 Focused assessment with sonography in trauma (FAST) has been extensively utilize

103 modal imaging study aiming to offer clinical sonography insights and transform the process of obstetr

104 Sonography is a reliable technique that detects more ero

105 variceal size by high resolution endoluminal sonography is an accurate, reproducible method of determ

106 Sonography is as sensitive but more specific than plain

107 These results suggest that duplex sonography is not a sensitive test in predicting the pre

108 sospasm prophylaxis nor transcranial doppler sonography is performed in 11 centers (34.4%) which decr

109 Transvaginal sonography is the single best diagnostic modality for ev

110 Sonography is useful for identifying the extratesticular

111 of an intrauterine pregnancy on transvaginal sonography (LR+ 111; 95% CI, 12-1028; n = 6885), and the

112 l patterns in the basal ganglia transcranial sonography, magnetic resonance diffusion-weighted imagin

113 fistulography, anal endosonography, perineal sonography, magnetic resonance imaging (MRI), and comput

114 ombination of (18)F-FDG PET/MRI and axillary sonography might be considered to provide even more accu

115 For infiltrative breast lesions; sonography might not always be as helpful as mammography

116 The main difference between CT, sonography, MRI, and PET or SPECT is not technologic but

117 ack of adnexal abnormalities on transvaginal sonography (negative LR [LR-] 0.12; 95% CI, 0.03-0.55; n

118 At power Doppler sonography, none of 16 patients with transient synovitis

119 Before hospital discharge, duplex sonography of the access site was performed in 4231 (94%

120 Initial experience with the use of dynamic sonography of the elbow for diagnosing ulnar nerve dislo

121 Dynamic sonography of the elbow was used to aid in the accurate

122 e) underwent posteroanterior radiography and sonography of the MCP joints of the dominant hand.

123 d in 6 patients through transcranial Doppler sonography of the middle cerebral artery.

124 iography, or dedicated CT and abdominopelvic sonography or contrast-enhanced CT.

125 rporeal membrane oxygenation weaning, duplex sonography or CT was conducted to detect cannula-related

126 n structural abnormalities with transcranial sonography or diffusion-weighted MRI or showing striatal

127 Neonatal cranial sonography or head computed tomography was performed in

128 ed with the results of anatomic imaging (CT, sonography, or MRI) and (131)I imaging when performed.

129 contrast-enhanced CT, contrast-enhanced MRI, sonography, or PET/CT follow-up); or clinical follow-up.

130 gnostic accuracy during enhanced transrectal sonography (P =.027).

131 tistically significant (PET/MRI vs. axillary sonography, P = 0.01; PET/MRI vs. thoracal MRI, P = 0.02

132 Intraobserver reliability of sonography readings was assessed using video recordings

133 Urinary biomarkers and renal Doppler sonography remain considered as promising tools to disti

134 rements were made by angiography and Doppler sonography, respectively.

135 rared spectroscopy and trans-cranial Doppler sonography, respectively.

136 cases were diagnosed with a lesion in their sonography result, although 81.0% of them were benign le

137 In 102 pregnant patients, transvaginal sonography revealed an intrauterine fluid collection wit

138 Sonography revealed bilaterally enlarged echogenic kidne

139 Sonography revealed that the region of color level detec

140 Real-time virtual sonography (RVS) is a diagnostic imaging support system

141 Overall breast sonography should always be correlated with mammography

142 using coarse functional transcranial Doppler sonography should be interpreted with more caution.

143 rounding the issue of when and how often hip sonography should be performed.

144 Sonography showed solid, hypoechoic masses in 28 cases.

145 search using functional transcranial Doppler sonography showed that blood flow velocity in the anteri

146 Twenty-eight days after treatment, Doppler sonography showed that blood flow velocity was preserved

147 patients treated contemporaneously with the sonography study.

148 However, diligent use of abdomino-scrotal sonography, supported by relevant laboratory data can cl

149 of NVC were measured by transcranial Doppler sonography (TCD) during cognitive stimulation, dynamic r

150 At sonography, they appeared as unique echogenic casts with

151 rences between thoracal PET/MRI and axillary sonography, thoracal MRI and breast MRI were statistical

152 tumor size was determined by mammography and sonography; tumor size at surgery was determined from pa

153 ancer antigen (CA)-125 prompted transvaginal sonography (TVS) and abnormal TVS prompted surgery to de

154 an cancer algorithm (ROCA), and transvaginal sonography (TVS) for women at high risk of ovarian cance

155 omen (aged 29-55 years) in whom transvaginal sonography (TVS) suggested an abnormal endometrial echo

156 all nodules were analyzed prospectively with sonography, using the TIRADS model referenced in Kwak et

157 d with a significant increase in the risk of sonography-verified DDH in infants younger than 3 months

158 Sonography was performed at the proximal, mid-, and dist

159 ery stenosis was suspected, baseline Doppler sonography was performed followed by two studies perform

160 Targeted sonography was performed with high-frequency (10-MHz cen

161 d with only 6% of cases in which second-look sonography was predicted not to be of value.

162 Duplex sonography was routinely performed on the first postoper

163 Power Doppler sonography was used in eight symptomatic knees in seven

164 for intra- and interobserver reliability of sonography were 0.75 and 0.76, respectively.

165 The AUC for breast MRI, thoracal MRI and sonography were 0.782, 0.814 and 0.834, respectively.

166 ho were fasting to undergo routine abdominal sonography were examined.

167 unenhanced abdominal CT within 2 weeks after sonography were excluded.

168 elected imaging techniques (eg, transvaginal sonography with color Doppler and MR imaging) to the pre