ライフサイエンスコーパス: myocardial contraction

1 n coupling, and disrupts the coordination of myocardial contraction.

2 dium to extract a metric that reflects local myocardial contraction.

3 signal generated in the atria and ends with myocardial contraction.

4 propagates electrical impulses to coordinate myocardial contraction.

5 index (SWI) and MRI radial strain quantified myocardial contraction.

6 the regulation of basal and beta-adrenergic myocardial contraction.

7 ties in the heart that would directly affect myocardial contraction.

8 lial cells release substances that influence myocardial contraction.

9 es acutely, indicating diminished economy of myocardial contraction.

10 s in genes coding for proteins essential for myocardial contraction.

11 enes coding for proteins essential in normal myocardial contraction.

12 gnitude of Ca(2+)-induced Ca(2+) release and myocardial contraction.

13 echanism of anesthetic-induced depression of myocardial contraction.

14 ssential chemical energy source that governs myocardial contraction.

15 Sarcomere assembly and myocardial contraction abnormalities occurred in the con

16 the cushions expanding in a wave during peak myocardial contraction and becoming undetectable during

17 vely spliced cTnT variants may desynchronize myocardial contraction and contribute to the pathogenesi

18 myocardial perfusion are related to delayed myocardial contraction and greater extent of dyssynchron

19 tive gating method, to simultaneously access myocardial contraction and intracardiac blood flow at 20

20 e found that overexpressing SERCA2a enhances myocardial contraction and relaxation in normal mouse he

21 Myocardial contraction and relaxation velocities, detect

22 Myocardial contraction and relaxation were reduced in th

23 patients who died during SE had identifiable myocardial contraction bands compared with 5 of 22 contr

24 Regulation of myocardial contraction by diacylglycerol was investigate

25 Normal regional myocardial contraction by gated myocardial perfusion SPE

26 t muscle cells associated with activation of myocardial contraction by the N-terminal region of cMyBP

27 An improvement in myocardial contraction during dobutamine stress echocard

28 The speed and force of myocardial contraction during systolic ejection is large

29 ncentric hypertrophy associated with altered myocardial contraction dynamics.

30 as despite significantly improved indexes of myocardial contraction (end-systolic pressure volume rel

31 This study sought to evaluate myocardial contraction fraction (MCF) as an index of myo

32 Myocardial contraction fraction (MCF) is a volumetric me

33 Myocardial contraction fraction (MCF) was calculated by

34 indexed to body surface area (LVmassi, BSA), myocardial contraction fraction indexed to BSA (MCF(i))

35 itivities and high specificities (among them myocardial contraction fraction ratio had the highest ar

36 e area; systolic: ejection fraction, S', and myocardial contraction fraction) was investigated using

37 associated with lower ejection fraction and myocardial contraction fraction, respectively, but not i

38 ar system, particularly in the regulation of myocardial contraction, hypertrophy and remodeling.

39 ression alters the energy cost of increasing myocardial contraction in mouse hearts with pressure-ove

40 Worsening of intrinsic myocardial contraction in the transition from obesity to

41 he heart rate (chronotropy), the strength of myocardial contraction (inotropy), and the rate of myoca

42 Myocardial contraction is initiated when Ca2+ binds to s

43 of the myofibrillar proteins, activation of myocardial contraction is thought to involve switch-like

44 However, whether such is the case during the myocardial contraction is unknown.

45 To quantify ventricular size/shape, regional myocardial contraction, lateral shortening of the IPMD,

46 However, the initial proposal that depressed myocardial contraction leads to a 'compensatory' hypertr

47 re is associated with decreased longitudinal myocardial contraction measured by pulsed tissue Doppler

48 erformance beginning shortly after the first myocardial contractions occur in developing vertebrate e

49 ene blue to examine cGMP-mediated effects on myocardial contraction-relaxation, while other experimen

50 Achieving meaningful myocardial contraction remains a complex task, as well a

51 Although resting indices of myocardial contraction were similar, beta-adrenergic-sti

52 implications for the role of this protein in myocardial contraction, with particular relevance to bet