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1  provide a means to assess inflammation with ultrasound imaging.
2 ery disease (CAD) using serial intravascular ultrasound imaging.
3  neurogenesis, using a retroviral vector and ultrasound imaging.
4 were not clearly visible during conventional ultrasound imaging.
5 combined hyperlipidemia, using intravascular ultrasound imaging.
6                    One of such techniques is ultrasound imaging.
7 st of optical methods with the resolution of ultrasound imaging.
8 shed as highly effective contrast agents for ultrasound imaging.
9 uation of atheroma burden with intravascular ultrasound imaging.
10 h an adrenal lesion discovered on diagnostic ultrasound imaging.
11 patic fibrosis in patients was examined with ultrasound imaging.
12 al trials that employed serial intravascular ultrasound imaging.
13 cedure was guided and monitored by real-time ultrasound imaging.
14 he immediacy and accuracy of intra-operative ultrasound imaging.
15 h fine-needle aspiration and staging through ultrasound imaging.
16 ere monitored by bioluminescence imaging and ultrasound imaging.
17 es of the brachial artery by high-resolution ultrasound imaging.
18                                     In mice, ultrasound imaging accurately detected human Thy1-positi
19                              High-resolution ultrasound imaging accurately detected lower blood veloc
20  with that produced by conventional harmonic ultrasound imaging after injections of low doses (0.0025
21 bles could therefore be used for noninvasive ultrasound imaging after laser activation without induci
22 , after thrombolysis with urokinase, LIBS-MB ultrasound imaging allows monitoring of the reduction of
23                                Specifically, ultrasound imaging allows the operator to see neural str
24 ransducer elements to provide both 2D B-mode ultrasound imaging and 3D ultrasonic needle tracking.
25  chart review, preintervention intravascular ultrasound imaging and coronary angiography were used to
26 ipid-coated microbubbles are used to enhance ultrasound imaging and drug delivery.
27      In this study, we used a combination of ultrasound imaging and motion analysis to examine how me
28 rse applications such as loudspeaker design, ultrasound imaging and therapy or acoustic particle mani
29 The former was borrowed from developments in ultrasound imaging and was proven suitable with either t
30 onse imaging than with conventional harmonic ultrasound imaging (anterior: 37 +/- 20 U transient resp
31 n tomography, X-ray computed tomography, and ultrasound imaging) are described as well as the possibi
32                                              Ultrasound imaging at a low mechanical index and frame r
33                                Intravascular ultrasound imaging before stenting may be helpful to str
34 ry to measure coronary flow velocity, and an ultrasound imaging catheter was introduced over the Dopp
35                          Contrast agent free ultrasound imaging, computed tomography (CT) and/or magn
36                 A targeted contrast-enhanced ultrasound imaging contrast agent was created by attachi
37                  Real-time in vivo molecular ultrasound imaging demonstrates significant therapeutic
38                                              Ultrasound imaging enables detection of bilateral subdel
39 HCCs within the livers were determined using ultrasound imaging followed by open surgery.
40 0.9 for peripheral artery disease (PAD), and ultrasound imaging for carotid artery stenosis (CAS) >50
41 TS technique, newer TS devices, and advanced ultrasound imaging for guidance of the procedure.
42                            The recent use of ultrasound imaging for nerve localization is an innovati
43 r algorithms employing biomarkers to trigger ultrasound imaging for screening also show promise.
44                                Intravascular ultrasound imaging has been recognized as a sensitive to
45                                              Ultrasound imaging has been shown to be more sensitive t
46                                              Ultrasound imaging has begun to demonstrate its ability
47                  High-frequency intraluminal ultrasound imaging has provided a number of important in
48 ageal electrical impedance and intra-luminal ultrasound imaging - have improved our understanding of
49                   We performed intravascular ultrasound imaging in 132 (106 men, 50 +/- 10 years) pat
50 who underwent repeated B-mode carotid artery ultrasound imaging in 2004-2013.
51 who underwent repeated B-mode carotid artery ultrasound imaging in 2004-2013.
52 oronary artery with the use of intracoronary ultrasound imaging in 22 heart-lung transplant recipient
53  artery with high resolution two-dimensional ultrasound imaging in 48 patients with chronic heart fai
54 % apparently symptomatic carotid stenosis on ultrasound imaging in consecutive patients with carotid
55 ta were available with respect to the use of ultrasound imaging in patients with spondyloarthropathy.
56 oundwork for the implementation of molecular ultrasound imaging in vessels with high shear stress and
57                          Here we use dynamic ultrasound imaging in vivo with novel automated tracking
58 dy clinically approved for contrast enhanced ultrasound imaging, in tissue engineering.
59   Catheter-based high-frequency intraluminal ultrasound imaging is a powerful tool to study esophagea
60 minal aortic aneurysm (AAA) rupture is poor, ultrasound imaging is an accurate and reliable test for
61                                              Ultrasound imaging is an effective aid to the detection
62                                              Ultrasound imaging is clinically established for routine
63                   Targeted contrast-enhanced ultrasound imaging is increasingly being recognized as a
64                                Intravascular ultrasound imaging is the most sensitive tool to seriall
65         Finally, high-frequency intraluminal ultrasound imaging is the only technique that can detect
66 eening policies, including universal primary ultrasound imaging, is needed.
67                                      In PMR, ultrasound imaging may improve diagnostic accuracy.
68 erwent angioscopy (n = 40) and intravascular ultrasound imaging (n = 46) during interventional proced
69 through progress in the areas of endoluminal ultrasound imaging of esophageal varices and noninvasive
70 lectin produces strong signal enhancement on ultrasound imaging of inflamed tissue.
71 ying complement activation and thereby allow ultrasound imaging of inflammation.
72 ve assessment of inflammation is possible by ultrasound imaging of microbubbles targeted to activated
73  combination of blood flow and permeability, ultrasound imaging of microvascular flow rate is sensiti
74 herapy was performed by serial power Doppler ultrasound imaging of murine tumors treated with recombi
75                                              Ultrasound imaging of the bladder aided by contrast agen
76 rate-induced dilation (NTG) were assessed by ultrasound imaging of the brachial artery.
77       Intravital microscopy and simultaneous ultrasound imaging of the cremaster muscle was performed
78 umin microbubbles with intermittent harmonic ultrasound imaging of the forearm deep flexor muscles.
79  scientific basis for the clinical use of 3D ultrasound imaging of the heart and discuss its potentia
80 ssue was assessed by contrast-enhanced renal ultrasound imaging of the kidneys of mice undergoing isc
81 bined hyperlipidemia underwent intravascular ultrasound imaging of the left anterior descending coron
82 eting ligands for targeted contrast-enhanced ultrasound imaging of tumor angiogenesis with small, con
83  used for in vivo targeted contrast-enhanced ultrasound imaging of tumor angiogenesis.
84                            On high-frequency ultrasound imaging, of the 42 tumors (84%) with low to m
85 current data on remodeling, based on in vivo ultrasound imaging or postmortem histologic analysis of
86 riables present on angioscopy, intravascular ultrasound imaging or quantitative coronary arteriograph
87 cardial markers in a plane approximating the ultrasound imaging plane.
88                                Intravascular ultrasound imaging provides cross-sectional tomographic
89 t of 47 patients with baseline intracoronary ultrasound imaging recordings, were analyzed (mean 3.8 y
90 foreign material, usually in extremities, by ultrasound imaging remains controversial.
91                   Simultaneous manometry and ultrasound imaging reveal that, during peristalsis, the
92                                     Baseline ultrasound imaging revealed substantial disease in 7 of
93                                         Live ultrasound imaging revealed that acetylcholine-mediated
94 mor-specific targeting of the nanoworms, and ultrasound imaging showed reduced blood flow in tumor ve
95                                              Ultrasound imaging showed that partial right atrial clip
96 er biopsy specimens were detected (2/8), and ultrasound imaging showed the development of splenomegal
97 ic mouse model of cancer, the B7-H3-targeted ultrasound imaging signal was increased significantly in
98 cificity studies (n = 26 tumors) showed that ultrasound imaging signal was significantly higher (P <
99                                  The in vivo ultrasound imaging signal was significantly higher after
100                               Histologic and ultrasound imaging studies of arteries with atherosclero
101 d paths is critical for applications such as ultrasound imaging, surgery and acoustic cloaking.
102 and Drug Administration (FDA) to approve one ultrasound imaging system for use in making breast biops
103    We report the first use of a novel 40-MHz ultrasound imaging system in the study of mouse cardiac
104           The customizable photoacoustic and ultrasound imaging system is intended to meet the divers
105                      A miniature all-optical ultrasound imaging system is presented that generates th
106    A composite catheter system (phased-array ultrasound imaging system mounted on a catheter with ext
107 esent a real-time clinical photoacoustic and ultrasound imaging system which consists of an FDA-appro
108  murine models of FNAIT and a high-frequency ultrasound imaging system, we found that ICH only occurr
109 e development of automated three-dimensional ultrasound imaging systems that promise to revolutionize
110 ed microbubbles may thus offer a noninvasive ultrasound imaging technique for the detection of acute
111 y thus offer a noninvasive contrast-enhanced ultrasound imaging technique for the functional imaging
112 ture cardiovascular events, but conventional ultrasound imaging techniques cannot distinguish between
113 sound has also led to the development of new ultrasound imaging techniques that result in excellent m
114                                      We used ultrasound imaging techniques to track tumor response to
115 red vascular tissue and can be detected with ultrasound imaging techniques.
116  advances in microbubble contrast agents and ultrasound imaging technology have allowed new clinical
117                                From the time ultrasound imaging technology provided the first insight
118                                 With current ultrasound imaging technology, epididymal flow was demon
119                                        Using ultrasound imaging technology, we verified that the teet
120 beams have potential applications in medical ultrasound imaging, therapeutic ultrasound, as well as a
121 scopy systems are inherently compatible with ultrasound imaging, thereby enabling multimodality imagi
122 l-contrast agents for both photoacoustic and ultrasound imaging through optically triggered vaporizat
123 xperiments include PET and contrast-enhanced ultrasound imaging to assess morphology, vascularization
124                                   The use of ultrasound imaging to detect pleural fluid is being inve
125                         We used small-animal ultrasound imaging to monitor autochthonous tumors and s
126 d applications in various areas ranging from ultrasound imaging to nondestructive testing.
127                       Here we use high-speed ultrasound imaging to probe non-invasively how the inter
128 dy were to determine whether a new method of ultrasound imaging (transient response imaging) could im
129                                Intravascular ultrasound imaging using automatic transducer pullback a
130                                              Ultrasound imaging was initiated 15 min after injection.
131                       Baseline intravascular ultrasound imaging was performed 0.9 +/- 0.5 months afte
132                         Repeat intravascular ultrasound imaging was performed after consecutive 5-min
133                                Intravascular ultrasound imaging was performed at 1 month, immediately
134                                              Ultrasound imaging was performed before and after the su
135                                   Continuous ultrasound imaging was performed during stepwise balloon
136 ostintervention and follow-up) intravascular ultrasound imaging was used to study 212 native coronary
137                                Using in vivo ultrasound imaging, we quantified the expansion of the e
138 raft tumors measured by microbubble-enhanced ultrasound imaging were substantially increased after tr
139  to the use of magnetic resonance imaging or ultrasound imaging when diagnostic uncertainty remains,
140 ed noninvasive microbubble contrast-enhanced ultrasound imaging, which revealed that sunitinib reduce
141                         Serial intravascular ultrasound imaging with early baseline examination is ne
142    This review examines the current state of ultrasound imaging with respect to spondyloarthritis and
143 condition, we propose to perform a follow-up ultrasound imaging within 1-2 days, and not to extend di

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