ライフサイエンスコーパス: interventricular

1 nical dyssynchrony at left atrioventricular, interventricular, and left intraventricular levels.

2 in non-chamber myocardium (outflow tract and interventricular canal) and has been shown to block cham

3 amural ventricular septal defects (VSDs) are interventricular communications through right ventricula

4 ranch pulmonary artery stenosis and residual interventricular communications.

5 tricular pacing in a subset of patients with interventricular conduction delay.

6 During BiV, interventricular contractile synchrony improved overall

7 system was easily delivered to the anterior interventricular coronary vein.

8 ents of heart rate, and atrioventricular and interventricular delay.

9 Mechanical interventricular dyssynchrony (MIVD) was determined as t

10 The VAQRS reflects electric interventricular dyssynchrony and accurately predicts op

11 The degree of interventricular dyssynchrony present in normal sinus rh

12 The degree of interventricular dyssynchrony present in sinus rhythm co

13 Mechanical interventricular dyssynchrony was determined as the time

14 the vectorcardiogram (VCG) reflects electric interventricular dyssynchrony, and that the QRS vector a

15 n the largest decrease in TAT and mechanical interventricular dyssynchrony, whereas LV EDV hardly cha

16 duction delay is associated with significant interventricular dyssynchrony.

17 ge points, suggesting a mechanism of adverse interventricular interaction.

18 block hearts, CRTopt exclusively depended on interventricular-interval and not on AV-interval.

19 delay >/=130 milliseconds, or pulsed Doppler interventricular mechanical delay >/=40 milliseconds.

20 ; p < 0.0001 and p = 0.0020), or having less interventricular mechanical delay (chi-square test: 29.8

21 peckle tracking radial strain (P=0.003), and interventricular mechanical delay (P=0.019).

22 erapy, cardiac resynchronization reduced the interventricular mechanical delay, the end-systolic volu

23 (septal systolic rebound stretch [SRSsept], interventricular mechanical dyssynchrony [IVMD], septal-

24 ive fashion to promote right ventricular and interventricular myocardial expansion.

25 of SHF precursors into right ventricular and interventricular myocardium.

26 those with interatrial (pretricuspid) versus interventricular or great arterial (posttricuspid) commu

27 fferentiation, right ventricular growth, and interventricular, outflow tract and aortico-pulmonary se

28 and the incidence of wavebreak in the LV and interventricular regions.

29 Phase measures of interventricular (RV/LV) synchrony were computed in sinu

30 se of human patients, demonstrating enlarged interventricular septa and papillary muscles.

31 uction of cardiomyocyte DNA synthesis in the interventricular septa of infarcted hearts.

32 (APD) in isolated arterially perfused rabbit interventricular septa.

33 n situ pig hearts and Tyrode-perfused rabbit interventricular septa.

34 ght and left ventricles, and interatrial and interventricular septa.

35 RV lateral wall longitudinal strain (LS) and interventricular septal (IVS) LS were reduced in the pul

36 pressure responses to the Valsalva maneuver, interventricular septal 6-[18F]fluorodopamine-derived ra

37 in left atrial and ventricular diameters and interventricular septal and posterior wall thicknesses.

38 ncreased left ventricular posterior wall and interventricular septal and relative wall thicknesses (a

39 gists should be aware of imaging findings of interventricular septal aneurysm, because of its rarity

40 gists should be aware of imaging findings of interventricular septal aneurysm, because of its rarity

41 n of Smad7 in post-migratory NCC resulted in interventricular septal chamber septation defects, sugge

42 Interventricular septal curvature (C(IVS)) and left vent

43 diac apex and heart chambers, interatrial or interventricular septal defects, pericardium, and site a

44 , 40% [14%] vs 57% [14%], P < .001), whereas interventricular septal diameter was higher (mean [SD],

45 P4, TTR, left ventricular ejection fraction, interventricular septal diameter, mean limb lead QRS vol

46 h shorter sleep duration (</=7 h) had larger interventricular septal diastolic thickness, left ventri

47 LV unloading not only altered interventricular septal geometry but also reduced septal

48 and that atrial volume, pulmonic outflow and interventricular septal motion may provide valuable insi

49 LS, the combined average LS of basal and mid interventricular septal segments, correlated strongly wi

50 ltiple myeloma, age < or = 70 years, cardiac interventricular septal thickness < or = 15 mm, cardiac

51 In patients with FRDA, interventricular septal thickness (1.17+/-0.26 versus 0.

52 We assessed the influence of interventricular septal thickness (IVSd) on the clinical

53 Simvastatin reduced LV mass by 37%, interventricular septal thickness by 21%, and posterior

54 Baseline mean LV mass and interventricular septal thickness in nontransgenic, plac

55 Additionally, there was a reduction in interventricular septal thickness in the intervention an

56 showed that if a low voltage was present and interventricular septal thickness is >1.98 cm, the diagn

57 analysis, postoperative sepsis and increased interventricular septal thickness predicted risk (P<0.00

58 Interventricular septal thickness was significantly redu

59 disease, postoperative sepsis, and increased interventricular septal thickness were markers of advers

60 of LV mass revealed that posterior wall and interventricular septal thickness, but not LV chamber si

61 ssessed with linear regression, adjusted for interventricular septal thickness, family history of sud

62 ter, echocardiographic left atrial area, and interventricular septal thickness.

63 peripheral nerve involvement (17%), cardiac interventricular septal wall thickness (12 mm), serum cr

64 Echocardiography demonstrated increased interventricular septal wall thickness (interventricular

65 dial hypertrophy in FA-CM, the end-diastolic interventricular septal wall thickness (IVSTd) was found

66 r, rs1571099 in PPAPDC1A (P=2.57x10(-8)) for interventricular septal wall thickness, and rs9530176 in

67 netic loci related to left ventricular mass, interventricular septal wall thickness, left ventricular

68 septation of the outflow tract of the heart, interventricular septation, and conal alignment.

69 Little is known about the formation of the interventricular septum (IVS), a central event during ca

70 the lateral wall occurred compared with the interventricular septum (IVS; P = .001); at 21 to 28 day

71 wall 973 +/- 42 vs 923 +/- 12 ms; P < 0.005; interventricular septum 1003 +/- 31 vs 974 +/- 21 ms, P

72 es were incomplete formation of the muscular interventricular septum and an abnormal and novel positi

73 asia of the right ventricular myocardium and interventricular septum and display profound ventricular

74 creased from 10 to 14 mm (p < 0.001) for the interventricular septum and from 10 to 13 mm for the pos

75 1 in cardiomyocytes reduces the thickness of interventricular septum and interstitial fibrosis and in

76 The magnitude of CV-IB was analyzed at the interventricular septum and left ventricular (LV) poster

77 hic finding of an increased thickness of the interventricular septum and posterior wall.

78 7), P=0.005), due to a reduction in both the interventricular septum and the left ventricular posteri

79 patients had scarring at the junction of the interventricular septum and the right ventricular (RV) f

80 activities in the muscular component of the interventricular septum at embryonic day 12.5, when fusi

81 t became quite strong along the crest of the interventricular septum by E16.5.

82 Post-infarction VT involving the interventricular septum can involve the endocardial musc

83 .50; 95% confidence interval, 1.22 to 5.11), interventricular septum diameter (odds ratio, 1.18; 95%

84 f the larger CoreValve prosthesis, increased interventricular septum diameter and prolonged QRS durat

85 ising from the mid and apical portion of the interventricular septum dissecting into the basal part.

86 ions, resulting in the failure of membranous interventricular septum formation.

87 ased interventricular septal wall thickness (interventricular septum in diastole Z value, +0.45 +/- 0

88 nd abnormal vasculature in the myocardium of interventricular septum in E15.5 Cited2(-/-) hearts were

89 revalence of the re-entry circuit within the interventricular septum in post-infarction patients refe

90 Aneurysm of the muscular interventricular septum is a rare entity as compared to

91 ing lead by transvenous approach through the interventricular septum is feasible in patients.

92 g from within a perforator branch within the interventricular septum is helpful in identifying the si

93 The hypoxia of the outflow tract and interventricular septum peaked at E13.5 and dissipated b

94 S developed more regularly in vessels of the interventricular septum than in the right or left ventri

95 analysis a significant direct association of interventricular septum thickness (odds ratio for 1 SD i

96 h time point), RD significantly reduced mean interventricular septum thickness from 14.1 +/- 1.9 mm t

97 ficantly positive correlation with diastolic interventricular septum thickness in those athletes.

98 he correlation between J-point elevation and interventricular septum thickness suggests a possible me

99 between linoleic acid (18:2n6) and diastolic interventricular septum thickness.

100 hways from the great cardiac vein across the interventricular septum to create cerclage.

101 eshaped guiding catheter, driven through the interventricular septum to the LVS.

102 93 patients (8%), an intramural focus in the interventricular septum was identified.

103 , the myocardium was remarkably thinner, and interventricular septum was incompletely formed.

104 mapping and local EGM assessment of the left interventricular septum was performed during RV basal se

105 All VTs mapped to the interventricular septum were acutely successfully ablate

106 TDE color M-mode images of the interventricular septum were recorded from the apical 4-

107 Cardiac hypertrophy (interventricular septum, 12+/-4 [7-23] mm; left ventricu

108 transgene expression in the right ventricle, interventricular septum, and atrial ventricular canal; U

109 pment of the trabeculae, compact myocardium, interventricular septum, and endocardial cushion.

110 on right ventricular size, curvature of the interventricular septum, and maximal tricuspid regurgita

111 rise to the majority of the right ventricle, interventricular septum, and outflow tract in mammals an

112 ng of ventricular myocardium, especially the interventricular septum, and reduction of both ventricul

113 lular volume at the RV insertion points, the interventricular septum, and the left ventricular latera

114 ntricular and semilunar valves, the muscular interventricular septum, and the ventricular myocardium.

115 cardiac neural crest in the formation of the interventricular septum, and therefore could play a role

116 bryos and that defects of the outflow tract, interventricular septum, cardiac vasculature, and hyposp

117 ncomitant with increases in the thickness of interventricular septum, interstitial fibrosis, and phos

118 0.2 mmol/kg gadopentetate dimeglumine in the interventricular septum, left ventricular (LV) free wall

119 rdiac phenotype, including thickening of the interventricular septum, left ventricular volume reducti

120 ance between the anterior mitral leaflet and interventricular septum, septal base function and the an

121 etected in the myocardium, especially in the interventricular septum, ventricular wall, and outflow t

122 1 expression was also high in the developing interventricular septum, where expression of the BMP-1 g

123 profiling of the four heart chambers and the interventricular septum.

124 attern of Ito expression was observed in the interventricular septum.

125 nts using a transvenous approach through the interventricular septum.

126 the heart, the left ventricle free wall and interventricular septum.

127 heart and is essential for formation of the interventricular septum.

128 An additional transducer was placed in the interventricular septum.

129 most severe hypertrophy involving the basal interventricular septum.

130 1.1 mL, lesions extended anteriorly into the interventricular septum.

131 ference toward the lateral wall, but not the interventricular septum.

132 lation, sharing a common pericardial sac and interventricular septum.

133 tions on the right ventricular aspect of the interventricular septum.

134 hom the critical part of the VT involved the interventricular septum.

135 , a critical component was identified in the interventricular septum.

136 those obtained in the left ventricle and the interventricular septum.

137 ythrocytes in the subepicardium and muscular interventricular septum.

138 pressed in the left ventricular apex and the interventricular septum.

139 improvement in clinical status and decreased interventricular shunting.

140 comes after placement of intraventricular or interventricular stents for this indication.

141 f intraventricular contraction disorder, and interventricular synchrony (IVS), a measure of synchrono

142 Improvements in interventricular synchrony during biventricular pacing c

143 synchrony of the left and right ventricles (interventricular synchrony) and of the LV myocardial seg

144 aorta (AO), coronary sinus (CS) and anterior interventricular vein (AIV), there was a significant ste

145 ethanol into a septal branch of the anterior interventricular vein in 5 patients with left ventricula

146 g coronary artery into the parallel anterior interventricular vein.