ライフサイエンスコーパス: multislice

1 to demonstrate the feasibility of ultrafast multislice (13)C MRI after tail vein injection of hyperp

2 scopy, dual-energy x-ray absorptiometry, and multislice abdominal MR imaging to determine the contrib

3 Then SH achieved multislice acquisition during a short breath-hold with s

4 Multislice activation maps were reconstructed and flatte

5 improve downstream expression analyses, but multislice alignment and integration remains a challengi

6 isons of 5-minute five-sequence simultaneous multislice- and parallel imaging (PI)-accelerated and 10

7 cificity, 98.3%) to the minimum value of the multislice approach (for seven contiguous slices; sensit

8 Conclusion Multislice cardiac diffusion-weighted images could be ac

9 However, standard 2D multislice CMR perfusion techniques provide only limited

10 nostic tools within the last decade, such as multislice computed tomographic scanning, has enabled ea

11 lated with atherosclerosis detected by using multislice computed tomography (MSCT) and quantitative c

12 atent hepatic artery, which was confirmed by multislice computed tomography (MSCT) angiography, or co

13 y was to evaluate the diagnostic accuracy of multislice computed tomography (MSCT) coronary angiograp

14 This retrospective study focuses on multislice computed tomography (MSCT) findings and diagn

15 y healthcare settings in developing nations, multislice computed tomography (MSCT) imaging may be the

16 he aortic annulus and adjacent structures by multislice computed tomography (MSCT) or cardiac MRI can

17 Now, with multislice computed tomography (MSCT), information about

18 Multislice computed tomography (MSCT)-based TAV sizing w

19 tic resonance imaging, such as the advent of multislice computed tomography and newer magnetic resona

20 Recent hardware and software advances in multislice computed tomography angiography have achieved

21 THV frame expansion was assessed by multislice computed tomography before and after late dil

22 Post-TAVI multislice computed tomography data sets were available

23 ost commonly used form of reporting doses in multislice computed tomography involves a CT dose index

24 evaluation by history, arterial Doppler, and multislice computed tomography of the lower extremities.

25 in patients with ICAD but contrast-enhanced multislice computed tomography remains the fastest and t

26 etic resonance imaging angiography, coronary multislice computed tomography, and echo-tracking-based

27 Multislice computed tomography-based assessment of aorti

28 Aortic annulus dimensions were quantified by multislice computed tomography-based cross-sectional are

29 All patients underwent multislice computed tomography-examination after applyin

30 AVI) by means of pre- and postinterventional multislice computed tomography.

31 ution noninvasive coronary angiography using multislice computed tomography.

32 f high field magnetic resonance scanners and multislice computerized tomography, and the wider use of

33 utcome was a change in CAC score measured by multislice computerized tomography; main secondary outco

34 icity, often small subtle abnormalities on a multislice cross-sectional (three-dimensional [3D]) imag

35 Recently, a high-quality multislice CT coronary angiography has been advocated in

36 om of a large dog on the basis of whole-body multislice CT data.

37 uted tomography (CT) (all patients underwent multislice CT examination after applying 75 ml iodinated

38 f the colon as a result of reconstruction of multislice CT images.

39 as well as a focused overview of the role of multislice CT in mitral assessment prior to intervention

40 replacing low-end x-ray tubes with high-end multislice CT scanners equipped with iterative reconstru

41 Since introduction of multislice CT scanners into clinical practice, virtual b

42 The increasing use of multislice CT scanners should generate more data for com

43 he extent that it is now possible to utilize multislice CT scanners, ones with multiple, flat panel d

44 obtained with electron-beam CT, but recently multislice CT, which is more versatile, less expensive,

45 ion of PET-derived biologic information with multislice CT-derived morphologic information, and the k

46 nterest in multivariate analysis of large 3D multislice data sets and ongoing improvements in instrum

47 PASTE2 produces accurate alignments of multislice data sets from multiple SRT technologies, ena

48 tion of experimental electron microscopy and multislice diffraction simulations, which suggest that d

49 Multislice diffusion weighted imaging (DWI) and single-s

50 Multislice functional images of the retina flattened ont

51 Multislice gradient echo fMRI experiments were performed

52 was recorded using a sagittal 2-dimensional multislice gradient echo MR sequence.

53 ardiac cycle, using a short echo time (5 ms) multislice gradient-echo imaging sequence.

54 dium-iridium clusters, combined with dynamic multislice image simulations, can identify individual at

55 he very fast acquisition (< 100 ms/image) of multislice images.

56 r-antenna signals individually, simultaneous multislice imaging, and real-time three-dimensional rend

57 both shared and unique information, enabling multislice integration, clustering, and various downstre

58 metry (DXA) with total-body SM quantified by multislice magnetic resonance imaging in healthy adults.

59 re measured by whole-body (40)K counting and multislice magnetic resonance imaging, respectively.

60 SM mass, measured by using whole-body multislice magnetic resonance imaging, was set as the de

61 on of electron ptychography with the inverse multislice method.

62 PhaseT3M uses a multislice model for multiple scattering and Bayesian op

63 sification models: maximum projection (MPM), multislice (MSM), and fused (FM).

64 mor and normal brain were quantified using a multislice multivoxel method, and the maximum Cho:NAA ra

65 o study the community structure of arbitrary multislice networks, which are combinations of individua

66 clusion The axially reformatted simultaneous multislice protocol was rated highest for image quality,

67 Multislice proton magnetic resonance spectroscopic imagi

68 Multislice proton magnetic resonance spectroscopy imagin

69 The CTC was performed by using multislice scanners immediately before standard colonosc

70 ng and axially reformatted (AR)-simultaneous multislice (SMS) imaging.

71 d Rapid knee MRI using combined simultaneous multislice (SMS) technique and parallel imaging (PI) acc

72 ing (MRI) measured muscle fat fraction (FF); multislice spin echo MRI measured transverse relaxation

73 Multiphase, multislice, spin echo (n = 5) and cine (n = 30) magnetic

74 before and during stimulation using a gated multislice, spoiled gradient recalled (SPGR) imaging pro

75 r partial alignment and 3D reconstruction of multislice SRT data sets, allowing only partial overlap

76 an ideal solution for the joint analysis of multislice ST data.

77 esigned for the integration and alignment of multislice ST data.

78 Radiation dose, which is higher with multislice than with electron-beam procedures, needs to

79 We applied multislice, whole-brain diffusion tensor imaging (DTI) t