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1 rticipants or treating clinicians (universal ultrasonography).
2 se results were reported as usual (selective ultrasonography).
3 nation, laboratory testing, and transvaginal ultrasonography.
4 hemoglobin A1c and lipid levels and carotid ultrasonography.
5 umes were measured with the use of real-time ultrasonography.
6 Tumor size was monitored with ultrasonography.
7 ptical coherence tomography (OCT) and B-scan ultrasonography.
8 in vivo soleus muscle-tendon mechanics using ultrasonography.
9 allosum was noted at screening prenatal head ultrasonography.
10 elocity and aortic strain by high-resolution ultrasonography.
11 eks' gestation and monitored fetal growth by ultrasonography.
12 on after a viable pregnancy was confirmed by ultrasonography.
13 a pancreatic macrocystic mass detected with ultrasonography.
14 ng and mild atherosclerosis noted on carotid ultrasonography.
15 NAFLD was identified by liver ultrasonography.
16 , magnetic resonance imaging, and endoscopic ultrasonography.
17 Clinical response was assessed by ultrasonography.
18 croscopy, optic nerve evaluation, and A-scan ultrasonography.
19 linical decision score, d-dimer testing, and ultrasonography.
20 hiasis should be computed tomography (CT) or ultrasonography.
21 cal therapy, multiparametric MRI (mpMRI) and ultrasonography.
22 eatosis patients were examined using Doppler ultrasonography.
23 te white matter lesions that are not seen on ultrasonography.
24 ificity of imaging studies, and particularly ultrasonography.
25 s, but it should be used in conjunction with ultrasonography.
26 re evaluated by gray-scale and color Doppler ultrasonography.
27 gnosis of testicular adrenal rest tissues on ultrasonography.
28 ve the use of ionizing radiation but not for ultrasonography.
29 r morphology and size can be monitored using ultrasonography.
30 aphy prompted by abnormal results on carotid ultrasonography.
31 cle and absence of the blood flow in Doppler ultrasonography.
32 prehensive skin examination and transvaginal ultrasonography.
34 lower rates of acoustic hollowness on B-scan ultrasonography (63% vs. 84%), subretinal fluid (58% vs.
36 urveillance with computed tomography (CT) or ultrasonography after endovascular aortic aneurysm repai
38 % CI 15-24; 69 of 352 fetuses) for selective ultrasonography and 57% (51-62; 199 of 352 fetuses) for
41 and pulmonary embolism, confirmed by duplex ultrasonography and chest computed tomographic angiograp
42 ty of kidney involvement with some clinical, ultrasonography and color Doppler measurements in patien
46 within 5 days, as determined by both in vivo ultrasonography and ex vivo sequential acquisition of ti
47 thodologies, such as hands-on intraoperative ultrasonography and interpretation of multiple imaging m
48 modern day treatment of rheumatic diseases, ultrasonography and magnetic resonance are more commonly
49 tantial brain abnormalities were detected on ultrasonography and magnetic resonance imaging (MRI) wit
51 maging techniques are widely available, with ultrasonography and magnetic resonance imaging currently
52 eal vein) is frequently detected with duplex ultrasonography and may result in proximal thrombosis or
58 ubsequently experienced PVD, as confirmed by ultrasonography and optical coherence tomography; 8 fell
59 omplete ophthalmological examination, B-scan ultrasonography and spectral domain OCT were performed i
61 n evidence of portal venous gas on abdominal ultrasonography and then confirmed by abdominal computed
62 inter-adventitial diameter were measured by ultrasonography and used as markers of preclinical ather
64 in damage was confirmed through intrauterine ultrasonography and was complemented by magnetic resonan
65 log scales), gastric emptying (3-dimensional ultrasonography), and blood glucose and plasma gut-hormo
66 ization by indirect ophthalmoscopy, A-B mode ultrasonography, and computed orbital tomography were pe
67 i septicaemia, identified by transfontanelle ultrasonography, and confirmed on magnetic resonance ima
69 ty, tumor basal diameter, tumor thickness by ultrasonography, and enhanced depth imaging optical cohe
70 aphics and ARDS risk factors, performed lung ultrasonography, and evaluated chest radiography when av
71 ancreas angiography, laparoscopy, endoscopic ultrasonography, and fine-needle aspiration cytology to
72 as assessed by endoscopy, biopsy, endoscopic ultrasonography, and high-resolution impedance manometry
73 d quality of life score (Skindex-29), 20-MHz ultrasonography, and histopathological analysis before a
74 lmologic examination, gray-scale and Doppler ultrasonography, and nuclear magnetic resonance imaging.
77 The principal screening test was carotid ultrasonography, and the intervention in the 3 trials wa
78 Indirect ophthalmoscopy, fundus photography, ultrasonography, and ultrasonic biomicroscopy were used
79 Indirect ophthalmoscopy, fundus photography, ultrasonography, and ultrasonic biomicroscopy were used
80 le with absence of the blood flow in Doppler ultrasonography appear as very specific but late ultraso
82 Together, our results validate diaphragm ultrasonography as a reliable technique for assessing ti
84 All eyes also underwent conventional B-scan ultrasonography as part of their comprehensive ocular ex
85 ificant increase in dermal density in 20-MHz ultrasonography as well as significant histopathological
86 aseline in carotid intima-media thickness on ultrasonography at 6 and 12 months was evaluated as supp
87 n and 15 days after infusion by using 40-MHz ultrasonography at 8000 frames per second (with electroc
91 (CBF) was measured using colour-coded duplex ultrasonography at the internal carotid (ICA) and verteb
94 ria on IUGR, using data from a longitudinal, ultrasonography-based follow-up study of Beninese women.
96 t-enhanced spectral mammography and targeted ultrasonography because they had additional suspicious l
97 NAFLD screening was performed by abdominal ultrasonography before coronary angiogram in 612 consecu
99 olled for measuring mean CCA-IMT with B-mode ultrasonography, body mass index, metabolic syndrome, 10
100 e, clinical examination, mammography, and/or ultrasonography) but ineligible after MR imaging was a s
101 y available supplemental screening method is ultrasonography, but little is known about its effective
102 ell infiltration by means of high-resolution ultrasonography, caliper measurements, flow cytometry, h
103 d apoptosis were analyzed by high-resolution ultrasonography, caliper measurements, histology, and im
104 l as structures that cannot be examined with ultrasonography can be non-invasively evaluated with MRI
105 linical decision score, d-dimer testing, and ultrasonography can safely and effectively exclude UEDVT
106 carotid, femoral, and brachial arteries (by ultrasonography), carotid-femoral pulse wave velocity (c
107 l fluid crystal analysis and radiographic or ultrasonography changes); clinical decision making (addi
109 , reliable and valid assessment of trainees' ultrasonography competence is needed to ensure patient s
110 ssion by the MAL including mesenteric duplex ultrasonography, computed tomography angiography, magnet
111 hip imaging modalities such as radiography, ultrasonography, computed tomography, and magnetic reson
112 mphasis on the advantages and limitations of ultrasonography, computed tomography, and magnetic reson
113 tanding of this is critical for imaging with ultrasonography, computed tomography, or magnetic resona
114 ipants had an intake interview, transvaginal ultrasonography, computer-assisted telephone interview,
115 oninvasively by bedside transcranial Doppler ultrasonography, correlates with risk of subsequent stro
119 e study was the composite of symptomatic and ultrasonography-detected VTE at day 28 +/- 2 after surge
122 nd evaluation by magnetic resonance imaging, ultrasonography, electrodiagnostic studies, and muscle b
125 sis of pyloric stenosis underwent additional ultrasonography evaluation to determine the size of the
126 1990 (when annual surveillance with carotid ultrasonography first began), through December 31, 1995,
128 y strong recommendations included the use of ultrasonography for ruling-in pleural effusion and assis
129 ealthy children who underwent transabdominal ultrasonography for strain elastography of the pancreas.
130 quality studies reported that sensitivity of ultrasonography for women with negative mammography resu
132 All subjects underwent imaging with B-scan ultrasonography, fundus photography, autofluorescence, f
133 >/=7 tumor was assessed by using MR imaging-ultrasonography fusion-targeted biopsy as the reference.
134 ng/mL (4 mug/L) and at least one transrectal ultrasonography-guided biopsy session with negative find
135 Endoscopic ultrasonography and endoscopic ultrasonography-guided fine-needle aspiration offer high
137 phers can be successfully trained to perform ultrasonography-guided thyroid biopsies safely under the
139 linical decision score, d-dimer testing, and ultrasonography has not been evaluated for suspected upp
142 s, including baseline blood tests, abdominal ultrasonography in children, mammography, and colonoscop
144 manuscript, we review multitudinous roles of ultrasonography in examination of peripheral nerves in l
145 STF recommends 1-time screening for AAA with ultrasonography in men aged 65 to 75 years who have ever
146 -2 was negatively associated with changes on ultrasonography in the placebo group but not in the MABp
147 Women participating had clinically indicated ultrasonography in the third trimester as per routine cl
148 epth through the follicle and transabdominal ultrasonography in vivo showed that decreased blood flow
149 onal imaging (digital mammography and breast ultrasonography) in the identification of ductal carcino
150 abscesses can be detected on transfontanelle ultrasonography, in which they appear as hyperechogenic
151 Additionally, all participants had research ultrasonography, including fetal biometry at 28 and 36 w
160 whether carotid stiffness (as determined by ultrasonography) is associated with incident stroke and
162 culatory resistance (IMR); and intravascular ultrasonography (IVUS) of the left anterior descending c
163 f diagnostic imaging (computed tomography or ultrasonography), laboratory tests, parenteral nutrition
165 pressures,as well as judicious use of duplex ultrasonography, magnetic resonance angiography, compute
166 ive screening for breast cancer using breast ultrasonography, magnetic resonance imaging (MRI), DBT,
167 ost effectiveness and better tolerability of ultrasonography make it a modality of first choice for e
168 stigation of portal venous gas using bedside ultrasonography may help the clinician to identify patie
170 rence, -0.5 (95% CI: -2.2, 1.2)], growth, or ultrasonography measures at any time point in the adjust
174 carotid artery, derived from carotid artery ultrasonography (n = 6,531 and 6,528); and aortic disten
177 ta as well as right upper abdominal quadrant ultrasonography of 50 consecutive sickle cell anaemia pa
178 tabilized nanoemulsions was monitored by the ultrasonography of nanodroplets injected directly into t
180 Hemiplegic stroke patients should undergo ultrasonography of the hemiplegic shoulder to define the
186 cycloplegic autorefraction and AL by A-scan ultrasonography, participants underwent optical coherenc
190 Only the codes for infrequently used B-scan ultrasonography (PPV, 69.6%) and subtenon injection (PPV
192 7% (51-62; 199 of 352 fetuses) for universal ultrasonography (relative sensitivity 2.9, 95% CI 2.4-3.
193 iopsy recommendations after a false-positive ultrasonography result (range, 345 to 421) per 1000 wome
203 (defined as severe brain injury on postnatal ultrasonography, severe retinopathy of prematurity, necr
208 pecificities of 68% to 97%, depending on the ultrasonography signs assessed (pooled sensitivity and s
211 risk for HCC, surveillance usually involves ultrasonography (there is controversy over use of biomar
212 pressure <11 cm H2O defined dysfunction) and ultrasonography (thickening fraction [TFdi] and excursio
213 ted by category, included the use of cardiac ultrasonography to assess preload responsiveness in mech
214 rimary care antenatal services and underwent ultrasonography to determine femur (FLZ) and humerus (HL
217 ymptoms of infection and may require focused ultrasonography to recognize more complex physiologic ma
221 lation of the results of conventional B-mode ultrasonography (US) and compression sonoelastography wi
224 to describe the gray-scale and color Doppler ultrasonography (US) and magnetic resonance (MR) imaging
225 Investigation of cuff tears is based on ultrasonography (US) and magnetic resonance imaging (MRI
226 The authors will also review optimization of ultrasonography (US) and magnetic resonance imaging of t
227 and to compare this assessment with that of ultrasonography (US) and other magnetic resonance (MR) i
228 who have negative or inconclusive results at ultrasonography (US) and technetium 99m ((99m)Tc) sestam
229 three-dimensional (3D) molecularly targeted ultrasonography (US) by using clinical-grade vascular en
230 To assess whether contrast material-enhanced ultrasonography (US) can be used to differentiate respon
231 e the diagnostic accuracy of multiparametric ultrasonography (US) consisting of gray-scale US, color
232 ng-guided focused ultrasound and microbubble ultrasonography (US) contrast agents for the disruption
233 As with other musculoskeletal joints, elbow ultrasonography (US) depends on the examination techniqu
234 performance of a staged algorithm involving ultrasonography (US) followed by conditional unenhanced
235 ively evaluate the diagnostic performance of ultrasonography (US) for differentiating perforated from
237 adjuvant therapy for breast cancer underwent ultrasonography (US) immediately before therapy and at c
238 imaging, and biannual automated breast (AB) ultrasonography (US) in women with BRCA1 and BRCA2 mutat
240 Despite its inferior diagnostic performance, ultrasonography (US) is now preferred to computed tomogr
241 obubbles (MBs) have previously been used for ultrasonography (US) of acute inflammatory bowel disease
248 for ITCs that were first detected at either ultrasonography (US) or a different imaging modality and
249 ndices were visualized at graded compression ultrasonography (US) performed for suspected appendiciti
250 ERIAL/METHODS: The relationships between the ultrasonography (US) results of thyroiditis and characte
251 es laser optical imaging (OA) with grayscale ultrasonography (US) to grayscale US alone in differenti
252 (GBM) with intraoperative contrast-enhanced ultrasonography (US) versus that with preoperative gadol
253 ed as BI-RADS category 3, 4, and 5 on B-mode ultrasonography (US) were further prospectively evaluate
254 ormed, including adnexal cysts detected with ultrasonography (US) with surgical diagnosis or at least
258 crobubbles can boost the diagnostic value of ultrasonography (US), they are not routinely applied in
259 cific antigen (PSA) and negative transrectal ultrasonography (US)-guided biopsy findings; to determin
262 ies were evaluated: (a) standard transrectal ultrasonography (US)-guided biopsy; (b) diagnostic MR im
266 ocedure performance and patient outcomes for ultrasonography (US)-guided percutaneous irrigation of c
267 g of the prostate and subsequent transrectal ultrasonography (US)-MR imaging fusion-guided biopsy, su
274 aluate a combined imaging approach with both ultrasonography (US; conventional US and valgus stress U
275 GR (IBR <5th percentile and abnormal Doppler ultrasonography [US] studies) underwent MR imaging.
276 eening mammography with or without screening ultrasonography [US]) were invited to undergo supplement
285 ent and control groups, color duplex Doppler ultrasonography was used to examine portal vein peak vel
286 Rates of additional cancer detection with ultrasonography were 4.4 per 1000 examinations (89% to 9
287 cians with basic training in focused cardiac ultrasonography were able to detect a difference in righ
289 erfusion imaging and lower extremity Doppler ultrasonography were performed (images not shown) and re
290 ires invasive procedures, such as endoscopic ultrasonography, which has inherent risks and accuracy t
291 es, 562 (14.1%) were identified by universal ultrasonography with an estimated fetal weight of less t
292 of focal liver lesions, the sensitivities of ultrasonography with contrast, CT, and MRI for HCC are s
297 total of 105 participants completed carotid ultrasonography, with a median completion time of 7 year
298 n carotid intima-media thickness measured by ultrasonography within the CHARGE Consortium (Cohorts fo
299 are associated with higher sensitivity than ultrasonography without contrast for detection of HCC; s
300 y for detection of HCC lesions was lower for ultrasonography without contrast than for CT or MRI (poo
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