ライフサイエンスコーパス: diastolic filling

1 ere increased post-repair, especially during diastolic filling.

2 in RV systolic function and RV and LV early-diastolic filling.

3 tion, delayed untwisting, and impaired early diastolic filling.

4 , critically linking systolic contraction to diastolic filling.

5 uscle stiffness; an important determinant of diastolic filling.

6 f myocardial oxygen consumption and impaired diastolic filling.

7 consequence of left heart anatomy and aid LV diastolic filling.

8 ad in patients with CTEPH causes abnormal LV diastolic filling.

9 systolic ejection time, which may compromise diastolic filling.

10 ay be an increase in stretch due to enhanced diastolic filling.

11 r valve disease, due to impaired ventricular diastolic filling.

12 implantable ventricular assist device on LV diastolic filling.

13 ents stored energy that may facilitate early diastolic filling.

14 oppler echocardiography in the assessment of diastolic filling.

15 after transplantation with respect to RV/LV diastolic filling.

16 < 0.0001), increased atrial contribution to diastolic filling (0.47 +/- 0.09 vs. 0.30 +/- 0.08 m/s,

17 LV systolic function (S' z score) and late-diastolic filling (A' z score) improved to normal in 11

18 rast, captopril almost completely normalized diastolic filling abnormalities (E velocity 82 +/- 5 cm/

19 Diastolic filling abnormalities after pericardiectomy co

20 e of subclinical contractile dysfunction and diastolic filling abnormalities are both predictive of s

21 l systolic function, elevated BNP levels and diastolic filling abnormalities might help to reinforce

22 nction but markedly improves the restrictive diastolic filling abnormalities that are seen in untreat

23 ed in left ventricular systolic function and diastolic filling after exercise in the control groups.

24 pairs left ventricular systolic function and diastolic filling after exercise.

25 duced ischemia impairs systolic function and diastolic filling after exercise.

26 nce, but the viscoelastic forces that resist diastolic filling and become elevated in human HF are po

27 w, which should improve the understanding of diastolic filling and function of the heart.

28 arked by the hemodynamic pattern of impaired diastolic filling and restrictive cardiomyopathy.

29 on-invasive MRI of early, chronic changes in diastolic filling and systolic ejection in both the left

30 the passive elastance of the RV walls during diastolic filling and the active elastance produced by t

31 ties during early (E wave) and late (A wave) diastolic filling, and myocardial performance index.

32 ties during early (E-wave) and late (A-wave) diastolic filling, and the myocardial performance index.

33 s with MI showed progressively restricted LV diastolic filling as assessed by transmitral Doppler rec

34 s in RT-CMR left ventricular total and early diastolic filling at rest and during exercise stress (P

35 sional transmural strains during systole and diastolic filling, at 1 and 12 weeks postoperatively.

36 rly diastolic filling rate [E wave] and late diastolic filling [atrial contraction] rate [A wave]) ti

37 arametrized diastolic filling-based E-wave analysis (k, c or DTs and

38 likely to impact functional transitions and diastolic filling behavior during development of the hea

39 Noninvasive assessment of diastolic filling by Doppler echocardiography provides i

40 dilated cardiomyopathy significantly impact diastolic filling by lowering myocardial stiffness.

41 during beta-adrenergic stimulation to defend diastolic filling by means of an increased cardiomyocyte

42 se of abnormal left ventricular (LV) Doppler diastolic filling characteristics in chronic thromboembo

43 pressure overload and left ventricular (LV) diastolic filling characteristics in patients with chron

44 Diastolic filling characteristics remain abnormal in a s

45 s, preserved ejection fraction, and impaired diastolic filling, characterized by reduced deceleration

46 dance of dTyr-MT in the myocardium, improved diastolic filling, compliance, cardiac output, and strok

47 Early diastolic filling decreased after four days of pacing fr

48 r hypertension, E/A, a diagnostic measure of diastolic filling, decreases, and isovolumic relaxation

49 3 mm Hg; P=0.0007), suggesting inadequate LV diastolic filling, despite high pulmonary capillary wedg

50 ults provide a standard reference concerning diastolic filling dynamics by trimester.

51 d to identify abnormal left ventricular (LV) diastolic filling dynamics, inherent limitations suggest

52 c function (S' z score -2.7+/-0.8), RV early-diastolic filling (E' z score -2.3+/-1.1), and LV early-

53 illing (E' z score -2.3+/-1.1), and LV early-diastolic filling (E' z score -2.3+/-1.1).

54 mproved to normal in 11 to 30 days, LV early-diastolic filling (E' z score) in 4 to 6 months, and RV

55 The peak rate of left ventricular (LV) early diastolic filling (E) and velocity of the mitral annulus

56 ales, but abnormal fractional shortening and diastolic filling (E/A ratio) patterns were more common

57 IHH (P > 0.236), whereas the passive/active diastolic filling (E/A) ratio was reduced (P = 0.022), p

58 Isovolumic relaxation time (IVRT), early diastolic filling (E/A), myocardial performance index (M

59 an energy-saving/efficient mode: it improves diastolic filling (enhanced lusitropy - lowering HRT), m

60 It is associated with impaired diastolic filling, even in seemingly asymptomatic obese

61 function was quantified via the parametrized diastolic filling formalism that yields relaxation/visco

62 r) by analyzing E-waves via the parametrized diastolic filling formalism.

63 ection fraction, cardiac output, heart rate, diastolic filling function, and ventricular mass.

64 tic resonance spectroscopy, left ventricular diastolic filling (heart rate normalized time to peak fi

65 (E' z score) in 4 to 6 months, and RV early-diastolic filling in 6 to 9 months (P<0.001 for all on l

66 lated work was associated with greater early diastolic filling in men only.

67 me (ACE) inhibition on left ventricular (LV) diastolic filling in postinfarction heart failure.

68 bnormalities after the race included altered diastolic filling, increased pulmonary pressures and rig

69 These results suggest that RV diastolic filling is altered in young adults who were bo

70 This impairment in diastolic filling is related to both abnormalities of th

71 Peak velocities of early diastolic filling, late diastolic filling, late to early

72 velocities of early diastolic filling, late diastolic filling, late to early filling ratio, decelera

73 cs of the cardiac left ventricle (LV) during diastolic filling may play a critical role in dictating

74 ansmural gradients of oxygen consumption and diastolic filling, may play a role in the cycle of the f

75 ion, we hypothesized that improvements in LV diastolic filling might contribute to the overall benefi

76 le of echocardiography in the "Evaluation of Diastolic Filling of Left Ventricle in Health and Diseas

77 Diastolic filling of the left ventricle (E/A ratio) was

78 ied approach to understanding the process of diastolic filling of the left ventricle and interpreting

79 multiple interrelated factors that determine diastolic filling of the left ventricle, these flow velo

80 d augmentation in lusitropy, indicating that diastolic filling of the right heart is not passive.

81 s a comprehensive, noninvasive evaluation of diastolic filling of the ventricle, myocardial relaxatio

82 Patients with persistent abnormal diastolic filling on Doppler echocardiography had had sy

83 Diastolic filling pattern at late follow-up was normal i

84 Diastolic filling pattern itself influences chamber pres

85 There was a significant relationship between diastolic filling patterns and symptomatic status (chi2

86 Diastolic filling patterns at rest were assessed by Dopp

87 raphy has been used to examine the different diastolic filling patterns of the left ventricle in heal

88 Diastolic filling patterns were also similar.

89 s with symptoms had higher BNP levels in all diastolic filling patterns.

90 ex >33 ml/m(2), ratio of mitral inflow early diastolic filling peak velocity to early diastolic mitra

91 g ratio, deceleration time of early filling, diastolic filling period and atrial filling fraction wer

92 At similar declines in the diastolic filling period, end-diastolic volume index (ED

93 delity catheters to compare left ventricular diastolic filling pressures (pre-A wave left ventricular

94 Elevated left ventricular (LV) diastolic filling pressures represent a key therapeutic

95 blood pressure (-1 vs. +7 mm Hg), and early diastolic filling rate (+1.7 vs. +2.4 end-diastolic volu

96 V ejection fraction (p = 0.006) and LV early diastolic filling rate (p = 0.001), which decreased over

97 articipants at systolic and diastolic (early diastolic filling rate [E wave] and late diastolic filli

98 The only gender difference was in diastolic filling rate, which was similar in the young m

99 a, LV longitudinal strain rate, and LV early diastolic filling rate.

100 ongitudinal strain, diastolic-strain rate or diastolic-filling rate.

101 During 20-W exercise, lower left ventricular diastolic filling rates (r=0.58; P<0.001), lower left ve

102 cardiac parameters, including reduced early diastolic filling rates as well as a higher prevalence o

103 al relaxation, pseudonormal, and restrictive diastolic filling, respectively.

104 Heart rate, BP, systolic function, and diastolic filling responses to parasympathetic withdrawa

105 ved for measures of LV systolic function and diastolic filling (RHO from 0.71 to 0.57).

106 ventional echocardiographic and parametrized diastolic filling stiffness (k) and relaxation (c) param

107 The changes in longitudinal diastolic filling strains between 1 and 12 weeks, howeve

108 ns beat by beat in each patient, but overall diastolic filling tended to normalize with an increase o

109 gnose and treat the various abnormalities of diastolic filling that occur in patients with heart dise

110 1), together with a significant reduction in diastolic filling time (377 +/- 138 ms to 300 +/- 118 ms

111 locities, E/A ratio, deceleration time [DT], diastolic filling time [DFT], and isovolumic relaxation

112 n in relation to right ventricular ejection, diastolic filling time as a ratio of cycle length, and s

113 EF are typically exertional, optimization of diastolic filling time by controlling heart rate may del

114 7), isovolumic relaxation time increased and diastolic filling time was shortened.

115 Diastolic filling variables obtained with the SPECT soft

116 ucing the mitral ratio of peak early to late diastolic filling velocity (E/A).

117 dices reflective of atrial pressures and the diastolic filling volume.

118 Diastolic filling was determined by a simulated atrial p

119 ntly, the atrial contribution to ventricular diastolic filling was substantially higher in the YG whe

120 Prolongation of transmitral early diastolic filling wave deceleration time was associated

121 eudonormal, and restrictive left ventricular diastolic filling were associated with hazard ratios of