ライフサイエンスコーパス: contractile performance

1 ts in relaxation (diastole) while preserving contractile performance.

2 gy metabolism, neurotransmitter release, and contractile performance.

3 does not impair the normal left ventricular contractile performance.

4 s harbored a spontaneous capacity to improve contractile performance.

5 siological approach to study skeletal muscle contractile performance.

6 y thin filament length regulation and muscle contractile performance.

7 myocardial apoptosis and resultant decreased contractile performance.

8 hosphate content and failure to sustain high contractile performance.

9 tinct pathways of ventricular remodeling and contractile performance.

10 increase blood pressure and left ventricular contractile performance.

11 f pathologic hypertrophy and improvements in contractile performance.

12 als exhibited hypertrophy without diminished contractile performance.

13 odeling, and (3) enhance in vivo and ex vivo contractile performance.

14 eurohormonal system activity, and myocardial contractile performance.

15 es and produced a relative improvement in LV contractile performance.

16 vasodilation and improves LV relaxation and contractile performance.

17 ing as dominant negative alleles that impair contractile performance.

18 y relative to its demands can impair cardiac contractile performance.

19 showed a 73% decrease in baseline isovolumic contractile performance.

20 electrical pacing rate increased isovolumic contractile performance.

21 hemically injured heart enhances ventricular contractile performance.

22 s (STG-MI), however, showed preserved global contractile performance, abrogated apoptosis, and preven

23 Left ventricular (LV) contractile performance after MI is an important predict

24 in missense mutations, like TTNtvs, diminish contractile performance and are pathogenic.

25 In this study, contractile performance and calcium transients were meas

26 , endothelin enhanced both adult rat myocyte contractile performance and cardiac troponin-I phosphory

27 orbide dinitrate restores Ca(2+) cycling and contractile performance and controls superoxide producti

28 re CHF, allopurinol produced no change in LV contractile performance and did not alter the response t

29 ical hypertrophy by contributing to enhanced contractile performance and efficiency.

30 y examined left ventricular (LV) and myocyte contractile performance and electrophysiologic variables

31 Contractile performance and energetics were measured usi

32 frank DCM, defined as LV dilation, impaired contractile performance and LVEDD > or = 112% plus FS <

33 LV pump function, enhanced isolated myocyte contractile performance and normalized myocyte action po

34 rat hearts exhibiting physiologic values for contractile performance and oxygen consumption.

35 may potentially account for the compromised contractile performance and reduced functional reserve i

36 skeletal muscle weight, fiber size, in vivo contractile performance, and expression of mRNAs and pro

37 pMultistem improved BZ energetics, regional contractile performance, and global left ventricular eje

38 arction increased survival, enhanced cardiac contractile performance, and halted ventricular remodeli

39 reduced cardiomyocyte hypertrophy, improved contractile performance, and prevented early lethality.

40 e defects in both whole heart energetics and contractile performance, and that the magnitude of these

41 the ATPase would be consistent with reduced contractile performance, and the results suggest reduced

42 ndent (type 1) diabetes results in depressed contractile performance associated with diminished sarco

43 spectroscopy while simultaneously measuring contractile performance at four work states.

44 al adaptations to muscle disuse, we compared contractile performance at the molecular, cellular and w

45 This new method allows quantification of contractile performance at the single-cell level, which

46 o determine if heart failure further impairs contractile performance by altering myofibrillar protein

47 ies indicating that low levels of NO augment contractile performance by inhibition of a cGMP-dependen

48 Contractile performance, carbohydrate oxidation, and oxy

49 transgenic mice showed improved recovery of contractile performance during reperfusion after ischemi

50 nsic mechanical and neural factors in muscle contractile performance during running, which has been l

51 TNF-alpha induced a 7% to 40% increase in LV contractile performance during the 60-minute infusion.

52 ATP synthesis and ATP consumption, improving contractile performance following ischemia-reperfusion i

53 y, segmental ejection fraction (a measure of contractile performance) improved in injected scar segme

54 e favorably influences left ventricular (LV) contractile performance in heart failure remains uncerta

55 haracteristic, contributing to the decreased contractile performance in human and experimental failin

56 unction, ocular motility in intact mice, and contractile performance in isolated muscle preparations

57 We measured isovolumic contractile performance in isolated perfused hearts from

58 entifies TnI as a potential target to modify contractile performance in normal and diseased myocardiu

59 ety of ways to adjust flight muscle size and contractile performance in order to meet demands imposed

60 normal basal cardiac function but depressed contractile performance in postinfarct and pressure over

61 (1) the thin filament is a key modulator of contractile performance in the failing human heart, (2)

62 (101) myofibrillar degeneration, to evaluate contractile performance in the mutant cardiomyocytes, an

63 The thin filament is a key modulator of contractile performance in the transition to failure in

64 s been shown to lead to increased myocardial contractile performance in vitro and in vivo.

65 LV contractile performance measured by the slopes of pressu

66 likely contributes to the improved cellular contractile performance observed after sustained LVAD su

67 lead to adverse effects on cell viability or contractile performance of EHMs (n=3, P=0.83, P=0.87).

68 Similar results were obtained for the contractile performance of myocytes isolated from a sepa

69 t that cell shape is critical in determining contractile performance of single cardiomyocytes by regu

70 The contractile performance of the heart is linked to the en

71 n early response of myofilaments to increase contractile performance of the heart.

72 n early response of myofilaments to increase contractile performance of the heart.

73 onstitution resulted in a marked recovery of contractile performance of the infarcted heart.

74 ac energetics using 31P NMR spectroscopy and contractile performance of the intact beating heart reve

75 s saline treatment completely diminished the contractile performance of the ischemic/reperfused myoca

76 ordinately maintain the hyperdynamic cardiac contractile performance of the PLN-KO mouse in the long

77 sgenic hearts exhibited improved recovery of contractile performance over the reperfusion period.

78 TG hearts exhibited improved recovery of contractile performance over the whole reperfusion perio

79 e (CHF, n = 4) as determined by clinical and contractile performance parameters.

80 is often abrogated by progressively abnormal contractile performance per unit mass of myocardium, eve

81 BS2, a selective inhibitor of NOS2, improves contractile performance, preserves myocardial ATP, and r

82 itions, SERCA2a overexpressors show improved contractile performance relative to wild-type (WT) mice

83 ction of NO on myocardial O2 consumption and contractile performance remain unclear.

84 ated cardiac troponin-I in the adult myocyte contractile performance response to activated protein ki

85 myocytes expressing cTnI A164H maintained a contractile performance similar to that observed for the

86 ex plays a greater role in modulating muscle contractile performance than was recognized previously.

87 in both skeletal muscle strength and cardiac contractile performance that is not achievable with conv

88 tile work and a marked inability to increase contractile performance upon acute inotropic challenge i

89 oblasts, iPS treatment restored postischemic contractile performance, ventricular wall thickness, and

90 Local contractile performance was decreased in infarcted myoca

91 and time constant tau were much greater, and contractile performance was depressed.

92 Muscle contractile performance was determined in skinned muscle

93 Left ventricular (LV) contractile performance was measured by the slopes of th

94 asal and isoproterenol-stimulated isovolumic contractile performance was preserved.

95 reperfusion, however, cardiac relaxation and contractile performance were greatly impaired in G6PD(de

96 responded promptly to the abrupt increase in contractile performance with epinephrine, during the lag

97 e in vivo translation of this improvement in contractile performance with PCO pretreatment was confou