ライフサイエンスコーパス: positive inotropic

1 ation of IGF binding protein-3 blocked IGF-1-positive inotropic action in ferret papillary muscles.

2 te sympathetic tone, effects that mirror the positive inotropic action of AM in the heart.

3 est that the same signal responsible for the positive inotropic action of ouabain, i.e. net influx of

4 The positive inotropic actions of IGF-1 were not associated

5 reduction, P=0.005), to receive intravenous positive inotropic agents (31% risk reduction, P<0.001),

6 The positive inotropic agents EMD 57033 or CGP 48506 (1 micr

7 linical guidelines recommend targeted use of positive inotropic agents in highly selected patients, b

8 o determine hospital variation in the use of positive inotropic agents in patients with heart failure

9 -CMs display robust contractile responses to positive inotropic agents, such as myofilament calcium s

10 gery and is generally modified by the use of positive inotropic agents, volume resuscitation, and pac

11 ay become a lead compound for a new class of positive inotropic agents.

12 S100A1ct as a cell-penetrating peptide with positive inotropic and antiarrhythmic properties in norm

13 ought to assess the effects of combined oral positive inotropic and beta-blocker therapy in patients

14 neously beating isolated heart caused marked positive inotropic and chronotropic effects, respectivel

15 inhibitor that acts rapidly and exerts both positive inotropic and direct vasodilator effects in pat

16 Thus, HNO/NO(-) has positive inotropic and lusitropic action, which unlike N

17 Ca2+-dependent binding to troponin C, exerts positive inotropic and lusitropic effects in failing hum

18 (ANG) type 1A receptor (AT(1A)R) results in positive inotropic and lusitropic effects in isolated ad

19 the primate heart, thyroid hormone produces positive inotropic and lusitropic effects in the resting

20 nduced phospholamban phosphorylation and the positive inotropic and lusitropic responses in cardiomyo

21 1A)R-deficient knockout (KO) mice, exhibited positive inotropic and lusitropic responses to both ANG

22 e release from the endothelium and exhibited positive inotropic and negative chronotropic effects in

23 Lipid emulsion exerts rapid, positive inotropic and positive lusitropic effects in bo

24 protein kinase A (PKA) pathway, resulting in positive inotropic and relaxant effects in the heart.

25 iability and are known to be associated with positive inotropic, but not toxic, effects of ouabain in

26 pitalizations that required a vasopressor or positive inotropic drug (hazard ratio, 0.73 [95% CI, 0.5

27 P=0.008) and that required a vasopressor or positive inotropic drug or mechanical or surgical interv

28 r were receiving intravenous vasodilators or positive inotropic drugs were excluded.

29 l/L) markedly inhibited the beta1-AR-induced positive inotropic effect and increase in cAMP but alone

30 Cardiac glycosides exert a positive inotropic effect by inhibiting sodium pump (Na,

31 indings suggest that levosimendan exerts its positive inotropic effect by mechanisms that do not invo

32 ence that diacylglycerol can induce a strong positive inotropic effect in mammalian ventricular muscl

33 Endogenous ET-1 has a tonic positive inotropic effect in normal subjects, independen

34 ol, another beta2-AR agonist, induced a full positive inotropic effect in SHR myocytes even in the ab

35 ffect of sotalol has a reverse use-dependent positive inotropic effect in the intact heart.

36 Endogenous NO has a small baseline positive inotropic effect in the normal human heart, whi

37 yet unproven, mechanism underlying digoxin's positive inotropic effect is as follows: By inhibiting t

38 role of the P2X(4) receptor in mediating the positive inotropic effect of ATP.

39 in a paracrine mechanism whereby the direct positive inotropic effect of beta(1)-adrenergic stimulat

40 These effects were attributed both to the positive inotropic effect of beta-stimulation, which was

41 The widely accepted model to explain the positive inotropic effect of cardiac glycosides invokes

42 activators and "deep" release mimicking the positive inotropic effect of ET-1.

43 , heterologous PKD expression suppressed the positive inotropic effect of ET1 seen in control cells,

44 ed in the absence of an effect of CCh on the positive inotropic effect of ISO in eNOSnull myocytes.

45 LPS treatment significantly reduced the positive inotropic effect of isoproterenol in NTG myocyt

46 esults show that lack of IP3R2 abolishes the positive inotropic effect of neurohumoral stimulation wi

47 and (d) it may be possible to dissociate the positive inotropic effect of ouabain from its growth-rel

48 The increase in net work was due to the positive inotropic effect of phenylephrine, which was si

49 ed by an increase in DeltaGATP, and that the positive inotropic effect of pyruvate can be explained b

50 ostulated cellular mechanisms underlying the positive inotropic effect of pyruvate, however, are cont

51 or APJ constitute a signaling pathway with a positive inotropic effect on cardiac function and a vaso

52 ge-dependent sodium channels, resulting in a positive inotropic effect on the heart.

53 hibits Na+-H+ exchange, ET-1 did not cause a positive inotropic effect or intracellular alkalinizatio

54 iacylglycerol in cardiac tissues, produced a positive inotropic effect that was similar to the respon

55 9) on isolated cardiomyocytes demonstrated a positive inotropic effect via increasing calcium transie

56 gnaling which, in turn, negates cAMP-induced positive inotropic effect via inhibiting sarcolemmal Ca2

57 In contrast, in work-loop contractions, the positive inotropic effect was accompanied by a reduced d

58 This positive inotropic effect was dose dependent, stereospec

59 In vivo SSA78 infusion in mice results in a positive inotropic effect with enhanced contractile func

60 the prediction that allopurinol would have a positive inotropic effect without increasing energy expe

61 s Na(+)-dependent inactivation, to exert its positive inotropic effect, establishing the precise mech

62 After this initial positive inotropic effect, rhTNF-alpha treatment led to

63 CHF, Ang II (10(-6) mol/L) produced a slight positive inotropic effect.

64 ation, which contributes to the NOS1-induced positive inotropic effect.

65 hances atrial Ca(2+) signalling and exerts a positive inotropic effect.

66 ation of APD by sotalol is associated with a positive inotropic effect.

67 =10), allopurinol (200 mg IV) caused a small positive inotropic effect; (dP/dt)(max) increased from 3

68 t study is the first to show that apelin has positive inotropic effects in vivo in both normal rat he

69 -ATPase activity probably contributes to the positive inotropic effects observed at EGCG concentratio

70 Thus, we conclude that the positive inotropic effects of both beta1- and beta2-AR s

71 The positive inotropic effects of IGF-1 were not associated

72 VES preserves the positive inotropic effects of isoproterenol that are oth

73 sarcolemmal Ca2+ fluxes responsible for the positive inotropic effects of solutions with reduced Na+

74 s controversial whether the sympatholytic or positive inotropic effects of these agents is the mechan

75 ular failure, enhanced CaTs during ECC exert positive inotropic effects on atrial contractility which

76 beta-Adrenergic signalling induces positive inotropic effects on the heart that associate w

77 nd 3 both reduce arterial pressure and exert positive inotropic effects on the heart.

78 rgic receptor (beta-AR) stimulation leads to positive inotropic effects, it can also induce arrhythmo

79 gain mechanistic insights into Akt-mediated positive inotropic effects, transcriptional profiles in

80 that lipid emulsion infusion exerts direct, positive inotropic effects.

81 ac output state, suggesting it has important positive inotropic effects.

82 bpm; P < .01) responses and abolition of the positive inotropic (left ventricular dP/dt: first dose,

83 nitroxyl (HNO) donor, Angeli's salt, exerts positive inotropic, lusitropic, and vasodilator effects

84 rdiovascular function, combining concomitant positive inotropic, lusitropic, and vasodilator properti

85 re, we report the cardiac effects of a novel positive inotropic peptide isolated from the toxin of th

86 The myocyte response was biphasic with a positive inotropic phase (39% increase in twitch amplitu

87 ardiac muscle to diacylglycerol, including a positive inotropic phase and a complex responsiveness to

88 depolarize the cell membrane eliminated the positive inotropic phase, but the negative inotropic res

89 rtmannin-sensitive pathway displays distinct positive inotropic properties by sensitizing the myofila

90 g the adenosine A2a receptor (A2aR)-mediated positive inotropic response and to define its contractil

91 left ventricular dP/dt max, the predominant positive inotropic response being due to the concomitant

92 by marked attenuation of beta(1)-AR-mediated positive inotropic response in isolated perfused hearts

93 led beta2- but not beta1-AR to induce a full positive inotropic response in SHR myocytes.

94 bit this activity and consequently produce a positive inotropic response in the heart.

95 cultured in a hypoxic atmosphere elicited a positive inotropic response in unstressed CMs, an effect

96 uxotonically loaded ssTnI hearts whereas the positive inotropic response of isovolumic hearts or unlo

97 indicate that cTnI has a pivotal role in the positive inotropic response of the murine heart to beta-

98 ontractility but does not inhibit the native positive inotropic response of the right ventricle to in

99 ke graded "moderately reduced" or better, or positive inotropic response on dobutamine MRI.

100 uch "detubulated" cardiac myocytes showed no positive inotropic response to 20 nM ET-1, despite retai

101 h response to field stimulation and a robust positive inotropic response to 20 nm isoproterenol.

102 Inhibition of cardiac NO augments the positive inotropic response to beta-adrenergic receptor

103 of PKA-dependent cTnI phosphorylation in the positive inotropic response to beta-adrenergic stimulati

104 PLB expression in hESC/iPSC-vCMs restores a positive inotropic response to beta-adrenergic stimulati

105 hat inhibition of cardiac NO potentiates the positive inotropic response to beta-adrenergic stimulati

106 that cardiac nitric oxide (NO) inhibits the positive inotropic response to beta-adrenergic stimulati

107 WT mice maintained a positive inotropic response to dobutamine 8 weeks after

108 of neuronostatin significantly decreased the positive inotropic response to endothelin-1 (ET-1).

109 In contrast, the positive inotropic response to excitation of the aortic

110 Furthermore, a significantly greater positive inotropic response to high extracellular Ca2+ (

111 However, the positive inotropic response to isoprenaline was also blu

112 S1P inhibits the positive inotropic response to isoproterenol and this re

113 pharmacological features of the ATP-induced positive inotropic response were similar to those of the

114 on (EFS) of the atrial preparations evoked a positive inotropic response which is known to be mediate

115 a(2+) influx into ventricular myocytes and a positive inotropic response.

116 a(2+) influx into ventricular myocytes and a positive inotropic response.

117 tentiating effect on the beta(2)-AR-mediated positive inotropic response.

118 Hyperglycemia diminishes positive inotropic responses to agonists that activate p

119 Mammalian hearts exhibit positive inotropic responses to beta-adrenergic stimulat

120 The positive inotropic responses were mediated via the sympa

121 tion-contraction coupling, and the effect of positive inotropic stimulation on the spatial profile of

122 gnificantly lower in-hospital mortality than positive inotropic therapy in patients hospitalized with

123 The addition of a beta-blocker to positive inotropic therapy might attenuate this adverse

124 nts a short time after starting CPR prompted positive inotropic therapy.