ライフサイエンスコーパス: extracardiac

1 Significant extracardiac abnormalities were noted.

2 complication of heterogeneous background and extracardiac activity adjacent to the heart, which cause

3 Corrections for extracardiac activity and partial-volume errors were per

4 n correction, which depends on the amount of extracardiac activity and pattern of attenuation.

5 of attenuation correction in the presence of extracardiac activity can have complex effects on ML rec

6 Increased extracardiac activity confounds conventional cardiac SPE

7 improvement of correlation was observed with extracardiac activity correction (R(2) = 0.85, y = 1.54x

8 uce a heuristic method for the correction of extracardiac activity into SPECT quantification and vali

9 also result in reconstruction artifacts when extracardiac activity is present.

10 orrections for the myocardial tissue weight, extracardiac activity, and partial-volume errors are cru

11 improved uniformity only in the presence of extracardiac activity.

12 s diminished with the addition of increasing extracardiac activity.

13 d less likely be affected by the presence of extracardiac activity.

14 l approaches, in the absence and presence of extracardiac activity.

15 and not for increased myocardial counts from extracardiac activity.

16 ere well without evidence of intracardiac or extracardiac amyloid accumulation, and median overall su

17 ains difficult because of the high number of extracardiac anomalies and chromosome defects in this gr

18 t, gestational age, maternal race/ethnicity, extracardiac anomalies, sex, and maternal age and educat

19 es without a documented chromosomal or major extracardiac anomaly, 13 (48%) died.

20 e an atrial septal defect through the use of extracardiac application of histotripsy in an open-chest

21 o, or more vs. none, odds ratio 1.75, 7.98), extracardiac arteriopathy (odds ratio 2.63), preoperativ

22 data indicate significant remodeling of the extracardiac autonomic nerve activity and structures aft

23 Infants with extracardiac birth defects or genetic disorders were exc

24 Compared with those with extracardiac cancers of similar histopathology, patients

25 vide evidence for the involvement of another extracardiac cell population, the proepicardial cells.

26 l new model system for examining the role of extracardiac cell populations in cardiac morphogenesis a

27 is independent of the further recruitment of extracardiac cells from the secondary heart field and pe

28 The contribution of extracardiac cells to atrial septation has recently been

29 However, the contribution of extracardiac cells to CoE is thought to be minor and non

30 In HFpEF, extracardiac comorbidities such as metabolic risk, arter

31 FALD is an extracardiac complication that may lead to substantial c

32 essment of this complex scenario to rule out extracardiac complications and possible neoplasms.

33 nifestations had a higher rate of IE-related extracardiac complications than patients without skin ma

34 s and should alert physicians to examine for extracardiac complications, notably with cerebral imagin

35 potent neural crest cells (NCCs) are a major extracardiac component of cardiovascular development.

36 eral tunnel (LT) was performed in 92% and an extracardiac conduit (EC) in 8%.

37 during this period, only 6 (33%) required an extracardiac conduit as part of their complete repair.

38 The use of an extracardiac conduit can be avoided in the majority of p

39 the need for, and use of, fenestration of an extracardiac conduit Fontan.

40 , should not be performed routinely with the extracardiac conduit Fontan.

41 ith minimal intervention in patients with an extracardiac conduit Fontan.

42 ot necessary in most Fontan patients when an extracardiac conduit technique is performed as described

43 5), 271 lateral tunnels (1988-2006), and 532 extracardiac conduits (1997-2010).

44 Transcatheter procedures for those with extracardiac conduits (extracardiac-total cavopulmonary

45 ently predicted worse survival compared with extracardiac conduits (hazard ratio, 6.2; P<0.001; 95% C

46 opulmonary connections, 7 lateral tunnels, 2 extracardiac conduits).

47 th, transplantation, takedown, conversion to extracardiac conduits, New York Heart Association III/IV

48 erval [CI], 94%-99%) for lateral tunnels and extracardiac conduits.

49 HD) patients have an increased prevalence of extracardiac congenital anomalies (CAs) and risk of neur

50 There is a functional, ischemia-reducing extracardiac coronary artery supply via ipsilateral but

51 The presence of extracardiac defects increased the adjusted risk of deat

52 y CCHD type and study site, and infants with extracardiac defects were significantly less likely to h

53 e the functions of Csx/Nkx2.5 in cardiac and extracardiac development in the vertebrate, we have gene

54 ee consecutive patients with a biopsy-proven extracardiac diagnosis of systemic sarcoidosis (21 men;

55 r and have worse survival than patients with extracardiac disease of similar histopathology (P<0.001)

56 zed sham-controlled study to investigate the extracardiac effects of EECP on peripheral artery flow-m

57 pmental abnormalities may be attributable to extracardiac effects of GRK2 ablation.

58 oth conferred an increased risk for nonfatal extracardiac events (hazard ratio of 1.52 per 1 SD [P <

59 al transgene expression and pose the risk of extracardiac expression.

60 Extracardiac factors (e.g., obesity and diabetes) influe

61 y present, increasing evidence suggests that extracardiac factors such as renal dysfunction and enhan

62 These data suggest that extracardiac factors, via volume overload, may contribut

63 t in a similar cardiac phenotype but lack in extracardiac features of the syndrome, suggesting that a

64 None of the 3 patients presented with extracardiac features suggestive of AFC.

65 nd of operation, intracardiac Fontan (IF) or extracardiac Fontan (EF), days with chest tube output pe

66 innovations, such as the lateral tunnel and extracardiac Fontan modifications, and fenestration, as

67 The utility of fenestration with extracardiac Fontan operation has not been determined.

68 connection to a total cavopulmonary artery, extracardiac Fontan; arrhythmia surgery, typically with

69 eptal defects were successfully created with extracardiac histotripsy in a live canine model.

70 Extracardiac imaging is highlighted as an increasingly i

71 fication of the Fontan procedure in which an extracardiac inferior cavopulmonary conduit is used in c

72 cardiac performance, cardiac pathology, and extracardiac intrathoracic abnormalities.

73 mmary artery device closure seems to augment extracardiac ipsilateral coronary supply to the effect o

74 There were 1 early death (1%) and 4 extracardiac late deaths.

75 surgical procedures were required to correct extracardiac lesions in 18 patients (75%).

76 Detection of extracardiac lesions is an essential component of the ma

77 42 pregnancies that continued, 15 had major extracardiac malformations and/or chromosomal abnormalit

78 f these patients with those of patients with extracardiac malignancies of similar histopathology.

79 lly not be discerned from the cardiac and/or extracardiac manifestations and requires molecular genet

80 With some genetic mutations, extracardiac manifestations are likely to be present.

81 Such extracardiac manifestations, in addition to other late c

82 um, which influences its relationship to the extracardiac mediastinal mesoderm.

83 dge (the spina vestibuli) did not accumulate extracardiac mesoderm, nor did it undergo the pronounced

84 of the coronary vessels arise from a unique extracardiac mesothelial cell population, the proepicard

85 indings demonstrate multiphasic responses in extracardiac metabolism to pathogenic cardiac stress, wi

86 ar mortality and non-SCD but neither SCD nor extracardiac mortality in heart failure across the conti

87 plasia syndrome characterized by cardiac and extracardiac myxomas in the setting of spotty skin pigme

88 associated with cutaneous hyperpigmentation, extracardiac myxomas, and nonmyxomatous tumors.

89 Whether MI results in remodeling of extracardiac nerve activity remains unclear.

90 An extracardiac nerve trunk innervated the bulbus arteriosu

91 ine the electrophysiological consequences of extracardiac neuronal remodeling in humans.

92 h PD+OH or PAF have neuroimaging evidence of extracardiac noradrenergic denervation.

93 Aortic homograft type and extracardiac operative technique predicted homograft fai

94 f aortic homograft in the older patient, and extracardiac operative technique.

95 ated; and whether there may be intracardiac, extracardiac, or intracranial neuropathological conditio

96 n circulatory properties are associated with extracardiac organ dysfunction, numerous gaps in our und

97 rophic cardiomyopathy because of the lack of extracardiac organ involvement.

98 However, the AAV genomes can be found in extracardiac organs after intramyocardial injection.

99 ine can visualize sympathetic innervation in extracardiac organs and, if so, whether patients with PD

100 inent in the heart but is also detectable in extracardiac organs.

101 nt studies have identified cardiomyocytes of extracardiac origin in transplanted human hearts, but th

102 tic areas containing fibroblasts of putative extracardiac origin.

103 uses multiple acknowledged SCD substrates of extracardiac origin: diabetes mellitus, hypercholesterol

104 ings highlight the importance of considering extracardiac pathogenesis when investigating arrhythmoge

105 The presence of cardiac and extracardiac pathologic indicators was also determined.

106 It helps detect extracardiac pathology leading to hypoxemia and may be u

107 y calcification were found to have important extracardiac pathology requiring additional work-up.

108 Of 1326 patients, 103 (7.8%) had significant extracardiac pathology requiring clinical or imaging fol

109 Extracardiac progenitor cells are capable of repopulatin

110 Extracardiac progenitor cells are capable of repopulatin

111 first time human bone marrow as a source of extracardiac progenitor cells capable of de novo cardiom

112 1-mm(2) "hot spots." Thus, adult humans have extracardiac progenitor cells capable of migrating to an

113 and further degradation of cardiac SPECT by extracardiac radioactivity and partial-volume effect.

114 ntified simultaneously with incorporation of extracardiac radioactivity correction, gaussian fitting,

115 xical embolization then may link cardiac and extracardiac right-to-left shunts to migraine aura.

116 oronary vessels and epicardium arise from an extracardiac rudiment called the proepicardium.

117 vascular magnetic resonance in patients with extracardiac sarcoidosis and preserved left ventricular

118 -one consecutive patients with biopsy-proven extracardiac sarcoidosis were prospectively recruited fo

119 left ventricular ejection fraction >50% and extracardiac sarcoidosis who underwent cardiovascular ma

120 coronary vascular development, we show that extracardiac septum transversum/proepicardium (ST/PE)-de

121 ization defects that appear to be induced by extracardiac signals.

122 r anomalous migration of epicardial cells to extracardiac sites.

123 her derived intracardially or immigrate from extracardiac sources.

124 ree of chimerism, averaging 24.3+/-8.2% from extracardiac sources.

125 , however, have suggested the presence of an extracardiac stem cell population, perhaps in bone marro

126 ic conditions, with little contribution from extracardiac stem cell sources.

127 ired reoperation to treat lead dislodgement, extracardiac stimulation, or infection during follow-up.

128 te and the common coexistence of cardiac and extracardiac stroke risk factors suggest benefits from g

129 CMRI allows clear delineation of cardiac and extracardiac structures as well as accurate and reproduc

130 detail its relationship to other cardiac and extracardiac structures.

131 A patient-specific, extracardiac TCPC with 85% DS was studied in its origina

132 monstrated the formation of intracardiac and extracardiac teratomas.

133 and rAAV2/8 demonstrate similar behavior in extracardiac tissue.

134 exerts proinflammatory effects, at least in extracardiac tissues.

135 al databases were explored for patients with extracardiac-total cavopulmonary connection and postoper

136 ubstantial proportion of patients undergoing extracardiac-total cavopulmonary connection in childhood

137 edures for those with extracardiac conduits (extracardiac-total cavopulmonary connection) are perhaps

138 In addition, extracardiac tumor manifestations were detected in 4 pat

139 (+/-) mice exhibited a marked propensity for extracardiac tumorigenesis.

140 Algorithm failure was caused by extracardiac uptake (10/24, or 41.7%) or inaccurate iden

141 In 24 of 51 patients with IE, we also found extracardiac uptake, indicating septic embolism in 21 of

142 r prevalence of congestive heart failure and extracardiac vascular disease.

143 death, nonfatal cardiac events, and nonfatal extracardiac vascular events over a mean period of 7.8 y

144 expression in non pro-valve endocardium and extracardiac vasculature.