ライフサイエンスコーパス: atrial septum

1 heart syndrome and an intact or restrictive atrial septum.

2 ling caused inappropriate enlargement of the atrial septum.

3 pulated the atrial free wall rather than the atrial septum.

4 ntial to exert focal pressure upon the intra-atrial septum.

5 h hypoplastic left heart syndrome and intact atrial septum.

6 equency ablated lesions applied to the right atrial septum.

7 over a 6.5-year period, 18 (5.7%) had intact atrial septum.

8 minent on the mesenchymal cap of the primary atrial septum.

9 he spatial relationship of the device to the atrial septum.

10 all of these patients had restriction at the atrial septum.

11 Fifteen patients had an intact atrial septum.

12 re frames designed for anchoring through the atrial septum.

13 g patients, most commonly involving the left atrial septum (32/43; 74.4%).

14 he atrial septum, including both the primary atrial septum and dorsal mesenchymal protrusion (DMP).

15 on of the normal physiologic flow across the atrial septum and ductus arteriosus in the human fetus.

16 a compact node of fibers at the base of the atrial septum and forward where it connected with the bu

17 ith: 1) caudocranial activation of the right atrial septum and proximal-to-distal coronary sinus acti

18 mean, 111 +/- 8 ms) present primarily in the atrial septum and right atrium were responsible for main

19 also found in mesenchymal structures of the atrial septum and the atrioventricular cushions.

20 ubset of cardiac progenitors specific to the atrial septum and the pulmonary trunk in the mouse.

21 corin mRNA was most abundant in the primary atrial septum and the trabecular ventricular compartment

22 h hypoplastic left heart syndrome and intact atrial septum and to evaluate the relationship of atrial

23 be originating from the left inferoposterior atrial septum and two from the left midseptum.

24 ardial lineages of the distal outflow tract, atrial septum, and in sinoatrial and atrioventricular no

25 restricted, to the sinus-node region, caudal atrial septum, and proximal conducting system.

26 of RA involvement: the lower lateral RA, the atrial septum, and the inferomedial RA.

27 acemaker-conduction system, heart valves and atrial septum, and uncover unexpected diversity among ca

28 short cycle length principally involving the atrial septum appear to be critical for maintenance of A

29 malous pulmonary and systemic veins, and the atrial septum are prerequisites for surgical correction

30 Catheter ablation of the right atrial septum attenuated interatrial conduction without

31 lls, along with 10 to 24 electrodes from the atrial septum, by use of a multiplexing system.

32 Intact or highly restricted intra-atrial septum can be reliably diagnosed in the human fet

33 Restriction of the atrial septum (conducted in 19 of 34 patients) was the o

34 hocardiography, Interarterial Shunts, Intact Atrial Septum, Congenital Heart Disease, Unroofing Defec

35 0.5, a previously established model to study atrial septum defects, displayed polydactyly or hypodact

36 0.5, a previously established model to study atrial septum defects, which displayed polydactyly or hy

37 on patterns of known key regulatory genes of atrial septum development, including Nkx2.5, Pitx2, and

38 to other transcription factors implicated in atrial septum development, Odd 1 mRNA expression is rest

39 Odd 1(-/-) mutant mouse embryos fail to form atrial septum, display dilated atria with hypoplastic ve

40 Slowing of electric conduction in the left atrial septum due to antiarrhythmic drugs and/or atrial

41 4 to 396 electrodes) from both atria and the atrial septum during six induced AF episodes in six dogs

42 syndrome and an intact or highly restrictive atrial septum face a neonatal mortality of at least 48%

43 Fetal interventions targeting the atrial septum have used a direct approach through the at

44 ariants with an intact or highly restrictive atrial septum (HLH-IAS) require immediate postnatal inte

45 addition of a third electrode traversing the atrial septum in a previous study.

46 gic shunting across the ductus arteriosus or atrial septum in utero (i.e., left to right) can be read

47 d through the dorsal mesocardium to form the atrial septum, including both the primary atrial septum

48 of interatrial communications with an intact atrial septum, including their embryology, pathophysiolo

49 drome (HLHS) with intact or very restrictive atrial septum is a highly lethal combination.

50 h hypoplastic left heart syndrome and intact atrial septum is poor.

51 Infants with intact atrial septum may be at high risk for mortality after No

52 ul ablation of the slow pathway in the right atrial septum near the coronary sinus ostium prevented t

53 In 2 patients, pacing the high right atrial septum near the presumed site of Bachmann's bundl

54 ng (age, weight, intact/severely restrictive atrial septum or left ventricle to coronary fistulae), t

55 p = 0.07) and in those with resection of the atrial septum (p = 0.06).

56 from one atrium to the other and/or from the atrial septum play an important role in re-formation of

57 Tbx5 SHF knockout embryos lacked atrial septum progenitors.

58 syndrome with severely restrictive or intact atrial septum (R/IAS) have low survival.

59 trictive interatrial communication or intact atrial septum (RAS) postnatally; however, the ability of

60 S patients with intact or highly restrictive atrial septum remains high despite successful urgent sep

61 athway at the posterior aspects of the right atrial septum resulted in a cure in these patients.

62 normal MV inflow pattern, restrictive/intact atrial septum, retrograde flow in the transverse aortic

63 to additional ablation lines along the left atrial septum, roof, and/or anterior wall where there we

64 pulmonary vein in 46% of patients; the left atrial septum, roof, or anterior wall in all; and the co

65 ectrode placed in the right atrium along the atrial septum (RSP).

66 d with use of an additional electrode at the atrial septum (SP).

67 e and after sequential ablation of the right atrial septum, targeting interatrial conduction zones.

68 e.g., outflow tract, ventricular septum, and atrial septum) that are malformed by CHD.

69 esenchyme on the leading edge of the primary atrial septum, the atrioventricular endocardial cushions

70 ); 2) small left atrium with thick, muscular atrial septum (type B, n = 4), and 3) giant left atrium,

71 rt syndrome and intact or highly restrictive atrial septum underwent attempted prenatal intervention.

72 dable, open-cell design stent into the fetal atrial septum via a percutaneous access route through th

73 d by a wave front most often coming from the atrial septum via BB (right atrium, 62%; left atrium, 67

74 GAP43-positive and TH-positive nerves in the atrial septum was 317+/-36 and 155+/-85 per mm(2), respe

75 Under ultrasound guidance, the atrial septum was approached with a needle introduced pe

76 In 10 canines, the atrial septum was exposed to histotripsy by an ultrasoun

77 In 6 of 7 fetuses, the atrial septum was successfully perforated, with balloon

78 defect was produced, and shunting across the atrial septum was visualized.

79 Anesthetized pigs (n=7) with defects of the atrial septum were catheterized using venous and arteria

80 engendered by the clamp and resection of the atrial septum with possible injury to the internodal con

81 pe B, n = 4), and 3) giant left atrium, thin atrial septum with severe mitral regurgitation (type C,

82 MYH6 homolog eliminates the formation of the atrial septum without overtly affecting atrial chamber f