ライフサイエンスコーパス: tissue Doppler imaging

1 children and young adults using pulsed-wave tissue Doppler imaging.

2 ere studied using echocardiography including tissue Doppler imaging.

3 and Brain Lesions) study by traditional and tissue Doppler imaging.

4 tween baseline and 38 weeks as determined by tissue doppler imaging.

5 adjusted diastolic impairment as measured by tissue Doppler imaging.

6 7.6+/-1.2 versus 8.5+/-1.2 cm/s, P=0.003) by tissue Doppler imaging.

7 al myocardial contraction measured by pulsed tissue Doppler imaging.

8 tinely measured left atrial volume index and tissue-doppler-imaging a' allowed LACI calculation as (l

9 I calculation as (left atrial volume index)/(tissue-doppler-imaging a').

10 emental to that of left atrial volume index, tissue-doppler-imaging a', or any other characteristic i

11 nsive cardiac function assessment, including tissue Doppler imaging and 2-dimensional (2D) strain ech

12 In addition, tissue Doppler imaging and 2D strain were able to identi

13 In contrast, tissue Doppler imaging and other more recent techniques

14 New modalities such as tissue Doppler imaging and speckle tracking echocardiogr

15 e technical features of strain imaging using tissue Doppler imaging and speckle tracking, their stren

16 exercise testing, echocardiography including tissue-Doppler imaging and speckle tracking, and cardiov

17 es obtained from ventricular time intervals, tissue Doppler imaging, and color M-mode echocardiograph

18 her mitral annular velocities as assessed by tissue Doppler imaging are associated with invasive meas

19 We identified all diabetic patients with a tissue Doppler imaging assessment of diastolic function

20 erformed 2D and Doppler echocardiography and tissue Doppler imaging before and after treatment.

21 on during sepsis, as demonstrated by in vivo tissue Doppler imaging, better-preserved left ventricle

22 Tissue Doppler imaging can now be usefully incorporated

23 imary abnormalities in HCM, we reasoned that tissue Doppler imaging could identify contraction and re

24 echocardiographic techniques (predominantly tissue Doppler imaging) currently in the process of stan

25 Tissue Doppler imaging-derived modalities including TDI

26 tolic pressure correlated significantly with tissue Doppler imaging-derived systolic:diastolic durati

27 were independent predictors of tau, whereas tissue Doppler imaging-derived systolic:diastolic durati

28 e diastolic tricuspid annular velocity (A'), tissue Doppler imaging-derived systolic:diastolic durati

29 relates of the change in the transmitral and tissue Doppler imaging diastolic indexes included sex, a

30 mitral annulus velocity wave recorded using tissue Doppler imaging (E').

31 biventricular dysfunction using pulsed-wave tissue Doppler imaging early after HT with most signific

32 onal (2D) imaging echocardiography, Doppler, tissue Doppler imaging echocardiography, and speckle-tra

33 To discuss the role of tissue Doppler imaging for assessing regional myocardial

34 c (A') velocities obtained using pulsed-wave tissue Doppler imaging in 380 healthy children were used

35 the mitral annular velocities (e' and a') by tissue Doppler imaging in 650 participants (mean age, 50

36 ons and the resultant S:D ratio using pulsed tissue Doppler imaging in children with idiopathic or fa

37 scores for normalized pulse wave Doppler and tissue Doppler imaging in pediatric echocardiography.

38 ssed by two-dimensional echocardiography and tissue Doppler imaging, including the load-independent s

39 sion, and systolic and diastolic pulsed-wave tissue Doppler imaging indices were similar to controls

40 Tissue Doppler imaging is a novel echocardiographic tech

41 In addition, tissue Doppler imaging is more sensitive than convention

42 y affect long-axis ventricular function, and tissue Doppler imaging is the most sensitive test to ide

43 MPI assessed by tissue Doppler imaging M-mode is a simple and reproducib

44 time intervals and the MPI assessed by color tissue Doppler imaging M-mode through the mitral leaflet

45 Color tissue Doppler imaging M-mode through the mitral leaflet

46 a complete echocardiographic study including tissue Doppler imaging, magnetic resonance imaging (MRI)

47 ic dysfunction was defined using Doppler and tissue Doppler imaging markers.

48 Thirteen pulse wave Doppler and 14 tissue Doppler imaging measurements were recorded.

49 most left ventricular pulse wave Doppler and tissue Doppler imaging measurements.

50 In study 1, we examined 6 pigs by use of tissue Doppler imaging of LV free wall and simultaneous

51 ed with exercise intolerance and (2) whether tissue Doppler imaging of the early diastolic mitral ann

52 The combination of tissue Doppler imaging of the mitral annulus and mitral

53 Tissue Doppler imaging of the mitral annulus provides us

54 Regional function was evaluated with tissue Doppler imaging of the RV and left ventricular (L

55 We examined 8 pigs by using tissue Doppler imaging of the RV free wall and simultane

56 went dobutamine stress echocardiography with tissue Doppler imaging on 2 separate occasions: the firs

57 Change in tissue-Doppler imaging parameters was similar in the exe

58 Newer echocardiographic modalities like tissue Doppler imaging provide measures of elevated left

59 etermined by Doppler echocardiography and by tissue Doppler imaging, respectively.

60 ent echocardiographic examination, including tissue Doppler imaging, simultaneously with left heart c

61 ement of transthoracic echocardiography with tissue Doppler imaging, speckle tracking, and three-dime

62 Pulsed-wave tissue Doppler imaging studies </=10 days post-HT demons

63 Recently, tissue Doppler imaging (TDI) and myocardial strain rate

64 c assessment of longitudinal dyssynchrony by tissue Doppler imaging (TDI) and radial dyssynchrony by

65 Tissue Doppler imaging (TDI) by depicting local myocardi

66 Tissue Doppler imaging (TDI) can record the mitral annul

67 Tissue Doppler imaging (TDI) is a novel echocardiographi

68 Tissue Doppler imaging (TDI) is a novel method of color-

69 Rationale: Tissue Doppler imaging (TDI) is an echocardiographic met

70 chocardiography-derived variables, including tissue Doppler imaging (TDI) parameters and strain rate

71 eveloped echocardiographic modality based on tissue Doppler imaging (TDI) that allows quantitative as

72 using 2-dimensional echocardiography (2DE), tissue Doppler imaging (TDI), and 3-dimensional echocard

73 c function, including color M-mode (CMM) and tissue Doppler imaging (TDI), and of right ventricular (

74 echocardiography, Doppler echocardiography, tissue Doppler imaging (TDI), and strain rate imaging.

75 and annular early diastolic velocity (Ea) by tissue Doppler imaging (TDI), T(E-Ea), which is well rel

76 l longitudinal strain, and showed elevated E/tissue Doppler imaging (TDI)-e', markedly diminished pea

77 left ventricular (LV) diastolic function via tissue-Doppler imaging (TDI) as well as Doppler flow var

78 ontinuous association of diastolic measures (tissue Doppler imaging [TDI] e', E/e', and left atrial s

79 cardiac parameters by echocardiography (eg, Tissue Doppler Imaging [TDI] S-wave R=0.52, P<0.001) and

80 time as a ratio of cycle length, and several tissue Doppler imaging techniques to assess intraventric

81 The echocardiographic tissue Doppler imaging variables of RV isovolumic accele

82 ic echocardiography, pulse wave Doppler, and tissue Doppler imaging velocities are widely used to ass

83 First introduced as post-processing of tissue Doppler imaging velocity converted to strain and

84 ral left ventricular (LV) inflow velocity to tissue Doppler imaging velocity of the medial mitral ann

85 he passive transmitral LV inflow velocity to tissue Doppler imaging velocity of the medial mitral ann

86 he passive transmitral LV inflow velocity to tissue Doppler imaging velocity of the medial mitral ann

87 With tissue Doppler imaging, viable segments show increases i

88 Tissue Doppler imaging was performed in 120 subjects div

89 Diastolic function assessment using tissue Doppler imaging was performed in a group of 141 S

90 Tissue Doppler imaging was used for measurements of syst

91 M-mode, 2D, Doppler echocardiography and tissue Doppler imaging were performed in nontransgenic (

92 Shortening fraction and myocardial strain by tissue doppler imaging were quantified by echocardiograp

93 tests, MRI, and echocardiography, including tissue-Doppler imaging, were performed.