ライフサイエンスコーパス: right ventricular function

1 s of pulmonary vascular disease but not with right ventricular function.

2 to patients with a subsequent evaluation of right ventricular function.

3 proving pulmonary hemodynamic parameters and right ventricular function.

4 ange in right atrial pressure or measures of right ventricular function.

5 ar free wall, and has a protective effect on right ventricular function.

6 ided a comparable measure of TR severity and right ventricular function.

7 ncountered, its severity, and its effects on right ventricular function.

8 hy, measuring annulus diameter and valve and right ventricular function.

9 Twenty-two (65%) had a preserved left and right ventricular function.

10 surgery, is quite high and is influenced by right ventricular function.

11 t ventricular size or volumetric measures of right ventricular function.

12 d pulmonary arterial compliance, and reduced right ventricular function.

13 ncern about the effect of such operations on right ventricular function.

14 success rate and is associated with improved right ventricular function.

15 n of septal geometry but variable changes in right ventricular function.

16 les of transpulmonary vascular mechanics and right ventricular function.

17 ystemic elevation of IL6 and correlated with right ventricular function.

18 entricle/left ventricle ratio reduction, and right ventricular function.

19 wed improvements from baseline at week 24 in right ventricular function.

20 ic resonance imaging was performed to assess right ventricular function.

21 rapeutic effects in the PH model for the (1) right ventricular function, (2) vascular remodeling, (3)

22 tricular size (94% versus 80%; P=0.001), and right ventricular function (87% versus 73%; P=0.006).

23 hypertension who had continued depression of right ventricular function after transplantation died in

24 ut affecting systemic pressure, and improves right ventricular function and autonomic indices.

25 ing signs of abnormal diastolic and systolic right ventricular function and compression of the atriov

26 reliable noninvasive assessment of left and right ventricular function and filling pressures.

27 cardiographic parameters of right atrial and right ventricular function and inferior vena cava improv

28 s by thoracic epidural anesthesia may affect right ventricular function and interfere with the coupli

29 ances in the management of PAH will focus on right ventricular function and involve deep phenotyping

30 In 10 patients scheduled for lung resection, right ventricular function and its response to increased

31 Parameters of left and right ventricular function and LGE burden were measured

32 ting pulmonary hypertension directly affects right ventricular function and may affect exercise capac

33 ucosal acidosis, had less adverse effects on right ventricular function and MPAP, and may have improv

34 ns might lead to a more rapid improvement in right ventricular function and pulmonary and/or systemic

35 ocated different imaging methods to describe right ventricular function and pulmonary artery pressure

36 Despite comparable right ventricular function and pulmonary regurgitant fra

37 Echocardiographic parameters of right ventricular function and RA area predict mortality

38 tion and interfere with the coupling between right ventricular function and right ventricular afterlo

39 left ventricular longitudinal strain (LVLS), right ventricular function and right ventricular systoli

40 termine whether primary angioplasty improves right ventricular function and the clinical outcome in p

41 e effects of thoracic epidural anesthesia on right ventricular function and ventricular-pulmonary cou

42 3) developing standard methods for assessing right ventricular function and, hopefully, its coupling

43 es, universal myocardial fibrosis, preserved right ventricular function, and elevated creatinine.

44 Mdivi-1 improves exercise capacity, right ventricular function, and hemodynamics in experime

45 noted with the use of right atrial volumes, right ventricular function, and inferior vena caval diam

46 Valve morphology, right ventricular function, and left atrial and inferior

47 unction, lower left atrial volumes, superior right ventricular function, and less mitral/tricuspid re

48 Ejection fraction, infarct segment length, right ventricular function, and mitral deceleration time

49 (velocity time integral; VTI), evaluation of right ventricular function, and right atrial pressure.

50 proved right ventricular systolic pressures, right ventricular function, and survival.

51 omes were age, albumin, blood urea nitrogen, right ventricular function, and systolic blood pressure

52 mber and outflow tract dilation, and reduced right ventricular function as features of ARVC.

53 Only L-NAME had detrimental effects on right ventricular function as indicated by an increase i

54 l next steps for incorporating parameters of right ventricular function as surrogate end points in mu

55 ulmonary hemodynamics, acute vasoreactivity, right ventricular function, as well as brain natriuretic

56 ar ejection fraction less than 25%, impaired right ventricular function (assessed by any of four meth

57 unction at discharge and 1 month with normal right ventricular function at 1 year.

58 There was no significant difference in right ventricular function at 12 and 24 months.

59 for assessment of pulmonary circulation and right ventricular function, but limits of normal and dis

60 Diastolic dysfunction and impaired right ventricular function can develop.

61 Serial imaging of right ventricular function can help physicians monitor t

62 Changes in right ventricular function can occur acutely during lung

63 Right ventricular function correlated only weakly with t

64 Measure of right-ventricular function could improve the risk strati

65 hile LA compliance, LA reservoir strain, and right ventricular function decreased with increasing AF

66 nal pro-B-type natriuretic peptide, left and right ventricular function) differed between both groups

67 study highlights the interest of monitoring right ventricular function during high-frequency oscilla

68 Right ventricular function from the apical four-chamber

69 Impaired right ventricular function has been implicated as a caus

70 Right ventricular function has been shown to predict exe

71 hazard ratio: 1.655; p < 0.001) and impaired right ventricular function (hazard ratio: 2.360; p = 0.0

72 he provision of volumes, diastolic function, right ventricular function, hemodynamics, and valvular r

73 c and Doppler parameters of right atrial and right ventricular function, hepatic venous flow dynamics

74 imitations of TAPSE at accurately estimating right ventricular function in children, we hypothesized

75 The importance of accurate assessment of right ventricular function in following up the clinical

76 TEA does not compromise right ventricular function in infarcted hearts.

77 r systolic time intervals accurately reflect right ventricular function in patients with acute respir

78 n exercise tolerance, exercise capacity, and right ventricular function in pulmonary arterial hyperte

79 ggested utilizing these molecules to enhance right ventricular function in pulmonary hypertension.

80 Assessment of the pulmonary circulation and right ventricular function is a cornerstone in the evalu

81 Right ventricular function is an independent predictor o

82 ses, the thorough and accurate assessment of right ventricular function is essential for both diagnos

83 We demonstrate that systemic right ventricular function is preserved (and may be impr

84 Although right-ventricular function is an important determinant o

85 follow-up, with emphasis on arrhythmias and right ventricular function, is required to define the lo

86 , leading to prompt and striking recovery of right ventricular function (mean [+/-SE] score for free-

87 paucity of data regarding characteristics of right ventricular function - namely contractile and lusi

88 The consequences of isolated improvements in right ventricular function on CRT-related prognosis dese

89 ing combined clinical scores and measures of right-ventricular function or strain.

90 was an independent predictor of recovery of right ventricular function (p=0.02).

91 sion is associated with impaired recovery of right ventricular function, persistent hemodynamic compr

92 aluation with functional characterization of right ventricular function plays a critical role.

93 is associated with progressive impairment of right ventricular function, reduced exercise capacity an

94 Right ventricular function, renal function, pulmonary ar

95 tory ventilation+10 and +15 further worsened right ventricular function, resulting in about a 40% inc

96 ved in patients who presented a worsening of right ventricular function (right ventricular end-diasto

97 f MBG were associated with measures of worse right ventricular function (RV s', r=-0.39, P<0.0001) an

98 Right ventricular function (RVF) is an important determi

99 sion was associated with lack of recovery of right ventricular function (score for free-wall motion,

100 16 648 participants with available data for right ventricular function/size and troponin (0.78 vs. 0

101 that accurately and noninvasively determine right ventricular function, such as cardiac magnetic res

102 or RVAC using echocardiographic estimates of right ventricular function, such as tricuspid annular pl

103 Right ventricular function, synchrony and remodeling are

104 sions on electrocardiogram, cardiac syncope, right ventricular function, therapeutic medication use,

105 ignificantly compromise left ventricular and right ventricular function through different mechanisms

106 tricuspid regurgitation velocity; and worse right ventricular function (tricuspid annular plane syst

107 ) at 32 weeks at multivariable analysis: (1) right ventricular function (tricuspid annular plane syst

108 and milrinone on pulmonary hemodynamics and right ventricular function using a newly established mod

109 In seven of eight (87%) patients, right ventricular function was assessed as fair before t

110 Right ventricular function was assessed using transesoph

111 tion was noted in 40 subjects (74.1%), while right ventricular function was depressed in 32 (59.3%).

112 Right ventricular function was maintained in MGCD0103-tr

113 The greatest improvement in the right ventricular function was observed in the UCB-MSCs

114 ery pressure (PAP) and AF in these patients, right ventricular function was reduced in AF, indicating

115 degree of tricuspid valve regurgitation, and right ventricular function were assessed before and afte

116 Several established indices of poor right ventricular function were associated with a signif

117 Global left and right ventricular function were preserved, with no regio

118 s, and positive correlations between BNP and right ventricular function were seen.

119 frequency oscillatory ventilation can worsen right ventricular function when compared with protective

120 n, and hemodynamics showing normalization of right ventricular function with right atrial pressure <8