1 CT is superior to single-detector row CT for
multiplanar and 3D imaging of the central airways.
2 pendently evaluated the CT images, including
multiplanar and minimum intensity reformations, for bili
3 rotactile, variable intensity, simultaneous,
multiplanar and operator agnostic stimuli.
4 or's institution, multi-detector row CT with
multiplanar and three-dimensional reconstruction has bec
5 be how to perform multi-detector row CT with
multiplanar and three-dimensional reconstruction in youn
6 Although multi-detector row CT with
multiplanar and three-dimensional reconstruction is expa
7 bility in image reconstruction, and improved
multiplanar and three-dimensional reformations.
8 zed 144 randomly ordered colonic segments in
multiplanar and volume-rendered endoscopic views.
9 Multiplanar and volume-rendered US images were evaluated
10 Axial,
multiplanar,
and three-dimensional images were evaluated
11 ere visible after scrolling +/- 15 mm in any
multiplanar axis compared with 16 (24%) for NDACC (P < .
12 xcellent soft-tissue contrast resolution and
multiplanar capabilities.
13 estigating painful hip conditions due to its
multiplanar capability and high contrast resolution.
14 ealth, we acquired diffusion tensor imaging,
multiplanar chemical shift imaging, and cognitive measur
15 nderwent CMR at baseline, which consisted of
multiplanar cine imaging.
16 l-time reconstruction of previously acquired
multiplanar computed tomography images.
17 Thin contrast- enhanced sections and
multiplanar CT and MR scan reformations helped to the fi
18 Study results suggest that multiphase,
multiplanar CT enterography may have a role in the evalu
19 f bronchi (up to third order) measureable on
multiplanar CT reformations were also measurable at VB.
20 We demonstrate here that
multiplanar excitation of fluorescence by a standing wav
21 All MR examinations consisted of
multiplanar fast spin-echo sequences with similar tissue
22 nguish uniplanar protonematal tip cells from
multiplanar gametophore bud cells in the moss Physcomitr
23 ere acquired without breath holding by using
multiplanar half-Fourier single-shot T2-weighted imaging
24 Here, we introduce the Bioinspired Adaptable
Multiplanar Haptic system, offering mechanotactile/stead
25 shoulder joint considering a possibility of
multiplanar image acquisition and non-invasive nature of
26 ng superior soft-tissue contrast resolution,
multiplanar image acquisition, and functional imaging ca
27 ne size measurements are most accurate using
multiplanar image reformatation with a bone window setti
28 Two-dimensional
multiplanar images were assessed by using a five-point s
29 ne on transverse images and in both zones on
multiplanar images.
30 The advent of cross-sectional and
multiplanar imaging and the profound effects they had an
31 Magnetic resonance imaging provides
multiplanar imaging to the same degree, without the use
32 the role of high-resolution T2-weighted fast
multiplanar inversion-recovery (FMPIR) magnetic resonanc
33 trast material-enhanced T1-weighted and fast
multiplanar inversion-recovery (IR) and fast spinecho T2
34 Contrast-enhanced fast
multiplanar IR imaging is a sensitive and specific test
35 Coronal gadolinium-enhanced fast
multiplanar IR imaging was the only sequence that was se
36 Findings at gadolinium-enhanced fast
multiplanar IR imaging were not statistically different
37 producibility for the contrast-enhanced fast
multiplanar IR sequence was excellent (kappa statistic =
38 Among the existing imaging modalities,
multiplanar magnetic resonance is the best at detecting
39 images were analyzed using a landmark-based
multiplanar measurement protocol and compiled into a mas
40 ed with a synchrotron X-ray broad beam and a
multiplanar microbeam radiotherapy beam.
41 Through the use of
multiplanar MRI, identification of diffuse and focal cha
42 Multiplanar multisequence MRI of the brain without and w
43 Multiplanar multisequence MRI of the brain without and w
44 Multiplanar navigation with a new MARC catheter with rea
45 le neuroimaging modality, including prenatal
multiplanar neuro sonography, anatomical MRI and advance
46 Multiplanar probes with improved pre- and intraoperative
47 Source, maximum intensity projection, and
multiplanar reconstruction images were evaluated.
48 Maximum intensity projection and
multiplanar reconstruction images were used to categoriz
49 s) with the use of CT (both with and without
multiplanar reconstruction).
50 Helical CT, both with and without the use of
multiplanar reconstruction, enabled highly accurate diff
51 the aneurysm sac was measured using a curved
multiplanar reconstruction.
52 exclusively transverse images, free oblique
multiplanar reconstructions (MPRs), free oblique maximum
53 The incremental yield of
multiplanar reconstructions compared with that of axial
54 In
multiplanar reconstructions orthogonal to the coronary a
55 Pneumo-computed tomography, combined with
multiplanar reconstructions, three-dimensional reconstru
56 of its ability to resolve calcium and create
multiplanar reconstructions.
57 ing transverse source images complemented by
multiplanar reconstructions.
58 ents underwent pre-operative helical CT with
multiplanar reconstructions.
59 lar system after contrast injection, and the
multiplanar reconstructions.
60 CT measurements using
multiplanar reformatation with a bone window setting sho
61 stone diameter on axial (2 mm and 5 mm) and
multiplanar reformatations (based upon 0.67 mm reconstru
62 rmance in polyp detection was found among 2D
multiplanar reformation and 3D display techniques, altho
63 Multiplanar reformation and 3D reconstruction images wer
64 spatial resolution, and enhanced quality of
multiplanar reformation and three-dimensional reconstruc
65 abdominal radiologists using two-dimensional
multiplanar reformation followed by selective use of thr
66 Curved
multiplanar reformation is used to straighten the segmen
67 00); however, interobserver agreement for 2D
multiplanar reformation was lower (kappa, 0.53-0.80).
68 interpretation usually combines transverse,
multiplanar reformation, and three-dimensional endolumin
69 During the second review, FSE-Cube with
multiplanar reformations was used to detect these joint
70 stration and motion artifact while improving
multiplanar reformations.
71 With the use of
multiplanar reformats of axial CT data, CT 4-chamber (4-
72 ary tract can be evaluated more precisely in
multiplanar reformatted (MPR) and volume rendered (VR) i
73 ion by using the consensus interpretation of
multiplanar reformatted (MPR) images as the reference st
74 rnel acetabular fracture classification with
multiplanar reformatted and 3D multidetector CT images.
75 Multiplanar reformatted and three-dimensional (3D) CT im
76 ary tract can be evaluated more precisely in
multiplanar reformatted and volume rendered images.
77 of the literature, Frederiksen suggests that
multiplanar reformatted computed tomography (CT) is the
78 aques are generally assessed on 2D axial and
multiplanar reformatted images.
79 Multiplanar reformatting in 3D-UBS provides optimal plan
80 he specificity of 3D sequences improved when
multiplanar reformatting was performed (P = .02).
81 The
multiplanar scanning also permits immediate B-scan OCT c
82 layed gadolinium-enhanced, breath-hold, fast
multiplanar sequences with fat saturation.
83 Rotated apical six-plane method with
multiplanar Simpson's rule and apical biplane Simpson's
84 Dynamic gadolinium-enhanced fast
multiplanar spoiled gradient-recalled acquisition in the
85 ed and characterized with contrast-enhanced,
multiplanar,
surface-coil MR imaging.
86 y evaluated with contrast material-enhanced,
multiplanar,
surface-coil MR imaging.
87 cal sites, standardized dynamic pelvic 1.5-T
multiplanar T2-weighted MR imaging was performed in thre
88 At the present time, the development of
multiplanar,
three-dimensional imaging shows great promi
89 l axial CT images and CT colographic images (
multiplanar two- and three-dimensional endoluminal image
90 le three-dimensional (3D) endoluminal and 2D
multiplanar views were available for problem solving.
91 By using
multiplanar visualization, 48 (70%) polyps were visible
92 Multiplanar volume reconstruction images were retrospect
93 Multiplanar,
volume-rendered, and stereoscopic three-dim
94 errelationships between adjacent in-plane or
multiplanar voxels or regions, respectively.