ライフサイエンスコーパス: normal sinus rhythm

1 nt atrial fibrillation (AF) in patients with normal sinus rhythm.

2 d aspirin in patients with heart failure and normal sinus rhythm.

3 atients developed AF, whereas 36 remained in normal sinus rhythm.

4 re either NYHA class I or II and 87% were in normal sinus rhythm.

5 re enrolled and studied, the majority during normal sinus rhythm.

6 s for ablations to eliminate AF and maintain normal sinus rhythm.

7 ating memory to return dysrhythmic hearts to normal sinus rhythm.

8 ectrical remodeling within days of return to normal sinus rhythm.

9 rsion of recent-onset atrial fibrillation to normal sinus rhythm.

10 cal patients with a first stroke who were in normal sinus rhythm.

11 slightly prolonged QT and QTc intervals and normal sinus rhythm.

12 sities in myocytes isolated from patients in normal sinus rhythm.

13 e optimal AV delay compared with that during normal sinus rhythm.

14 xation (p < 0.05), compared with that during normal sinus rhythm.

15 ar systolic dysfunction after restoration of normal sinus rhythm.

16 zation in patients presenting for surgery in normal sinus rhythm.

17 -BC, respectively) by measuring: % return to normal sinus rhythm (0/100%), % of baseline+dP/dt (33.7+

18 Of the 40 study patients, 14 (35%) had normal sinus rhythm, 15 (37.5%) had sinus tachycardia, a

19 s higher in patients who developed AF versus normal sinus rhythm (6.13 +/- 2.9% vs. 2.03 +/- 1.9%, p

20 ory interventions may help in maintenance of normal sinus rhythm after CV.

21 s in ion channels and calcium handling under normal sinus rhythm and AF conditions.

22 ons demonstrate the role of the bundles in a normal sinus rhythm and also reveal the patterns of acti

23 model to simulate electrical activity during normal sinus rhythm and ectopic pacing.

24 hronic heart failure patients (n = 988) with normal sinus rhythm and ejection fraction > 45% (median,

25 al and arterial pressure fluctuations during normal sinus rhythm and fixed-rate atrial pacing at 17.2

26 n and Doppler echocardiographic study during normal sinus rhythm and P-synchronous pacing at various

27 d cardiac transplantation and conserves both normal sinus rhythm and synchronized beating of the atri

28 ere left ventricular systolic dysfunction in normal sinus rhythm and to study the association between

29 cedure and from control patients who were in normal sinus rhythm and undergoing cardiac surgery.

30 endage function, have been characterized for normal sinus rhythm and various abnormal cardiac rhythms

31 fibrillation from a tracing recorded during normal sinus rhythm, and other structural and valvular d

32 posure was discontinued, and she reverted to normal sinus rhythm approximately 2 hr later.

33 Her echocardiography demonstrated normal sinus rhythm at 73 beats per minute.

34 stimates, left atrium volume >165 mL, absent normal sinus rhythm at admission for EAM, and inducibili

35 substantial structural heart disease, and in normal sinus rhythm at baseline were recruited from Nove

36 Only 76% of patients were in normal sinus rhythm at the beginning of EAM.

37 atrial myocytes isolated from 42 patients in normal sinus rhythm at the time of cardiac surgery with

38 of these pathways explains why, even during normal sinus rhythm, atrial breakthroughs could arise fr

39 At normal sinus rhythm, AZD1305 increased QT and RR interva

40 quently used to predict filling pressures in normal sinus rhythm, but it is unknown whether it can be

41 Restoration of normal sinus rhythm by RFA in patients with chronic AFI

42 of interventricular dyssynchrony present in normal sinus rhythm correlated with LV ejection fraction

43 s were applied to 53 AF data segments and 18 normal sinus rhythm data segments.

44 had verified atrial fibrillation before the normal sinus rhythm ECG tested by the model.

45 We included 180 922 patients with 649 931 normal sinus rhythm ECGs for analysis: 454 789 ECGs reco

46 Artefact-free 60-second strips of normal sinus-rhythm ECGs were converted to binary string

47 ectable by complexity analysis of apparently normal sinus-rhythm ECGs.

48 s aspirin for patients with heart failure in normal sinus rhythm has not been definitively establishe

49 nce interval, 3.03-35.0) or AH(SVT)<AH(NSR) (normal sinus rhythm) His-refractory ventricular prematur

50 The Maze procedure restores normal sinus rhythm in the majority of patients.

51 y CT angiograms obtained in 65 patients with normal sinus rhythm (normal group) and seven with atrial

52 Maintenance of normal sinus rhythm (NSR) after conversion in many patie

53 heart rate were recorded during 3 minutes of normal sinus rhythm (NSR) and 3 minutes of induced AF.

54 m 17 patients in the SMURF study during both normal sinus rhythm (NSR) and AF.

55 ysiology and calcium (Ca(2+)) handling under normal sinus rhythm (nSR) and chronic AF (cAF) condition

56 d and compared with those of 379 patients in normal sinus rhythm (NSR).

57 normal sinus rhythm) patients and connections based on e

58 An AI-enabled ECG acquired during normal sinus rhythm permits identification at point of c

59 and PIIINP levels were highest in AF versus normal sinus rhythm (PICP: 451.7 +/- 200 ng/ml vs. 293.3

60 mild to moderate diastolic heart failure and normal sinus rhythm receiving angiotensin-converting enz

61 cardio-pathology from segments annotated as normal sinus rhythm recorded in patients with an intermi

62 ting patients with chronic heart failure and normal sinus rhythm remains controversial.

63 findings on the admission electrocardiogram (normal sinus rhythm, sinus tachycardia, and right ventri

64 18 years or older with at least one digital, normal sinus rhythm, standard 10-second, 12-lead ECG acq

65 raphic T wave vector change, recorded during normal sinus rhythm that reflects the QRS complex vector

66 During normal sinus rhythm, the canine SAN is functionally insu

67 es is thought to mediate the transition from normal sinus rhythm to ventricular fibrillation.

68 nature of atrial fibrillation present during normal sinus rhythm using standard 10-second, 12-lead EC

69 es, and the specificity for detecting AF and normal sinus rhythm was 100%.

70 resting sinus heart rate of patients with a normal sinus rhythm was also significantly higher in the

71 The increase in AH interval in normal sinus rhythm was longer after fibroblast (23+/-4

72 Data under normal sinus rhythm were compared with ventricular pacin

73 The remaining 3 remained in normal sinus rhythm while taking AADs.

74 meta-analysis was conducted on patients with normal sinus rhythm who underwent cardiac surgery, with

75 We studied 14 cardiomyopathy patients in normal sinus rhythm with no arteriographic evidence of c

76 converted 90% (28 of 31) of PSVT patients to normal sinus rhythm with no significant adverse effects.

77 rdiographic (ECG) PR interval changes during normal sinus rhythm with recent observations regarding t

78 atrial appendages from patients (n = 28) in normal sinus rhythm with those from patients (n = 15) in