ライフサイエンスコーパス: abdominal aorta

1 y, and the input function was image-derived (abdominal aorta).

2 (jugular vein, peritoneal cavity, and distal abdominal aorta).

3 gression within the ascending, thoracic, and abdominal aorta.

4 to the infrarenal portion of the recipient's abdominal aorta.

5 d withdrawal, followed by a 5-mm tear in the abdominal aorta.

6 th transverse and longitudinal planes of the abdominal aorta.

7 and C(a) is the tracer concentration in the abdominal aorta.

8 roduction in vascular tissue remote from the abdominal aorta.

9 orta was transplanted to recipient C3H (H2k) abdominal aorta.

10 defined involvement of both the thoracic and abdominal aorta.

11 (constant flow conditions) to the descending abdominal aorta.

12 dilatable stenosis was created at the upper abdominal aorta.

13 was devised to create a stenosis in the rat abdominal aorta.

14 f the aortic arch, branch points, and in the abdominal aorta.

15 equential balloon injury model of the rabbit abdominal aorta.

16 pecially around the aortic arch and proximal abdominal aorta.

17 ss steel clip over a 12-mm region of the rat abdominal aorta.

18 were placed in the external jugular vein and abdominal aorta.

19 udation via balloon injury of the infrarenal abdominal aorta.

20 rtery, mesenteric artery, and the descending abdominal aorta.

21 c blood flow was observed at the site of the abdominal aorta.

22 a, the infrarenal abdominal aorta, and lower abdominal aorta.

23 oup of 18 dogs with aneurysms created in the abdominal aorta.

24 ortic morphologic findings of the contiguous abdominal aorta.

25 rable plaque structure and biology in rabbit abdominal aorta.

26 e retrospectively included after EVAR of the abdominal aorta.

27 tin and collagen present in the walls of the abdominal aorta.

28 e to aortic rupture, and inflammation in the abdominal aorta.

29 3 months after interposition grafting in rat abdominal aorta.

30 urysms that involve the thoracoabdominal and abdominal aorta.

31 DNA microarrays were performed on abdominal aortas.

32 of angiotensin type 1A receptors (AT1aR) in abdominal aortas.

33 lesions in aortic roots, aortic arches, and abdominal aortas.

34 jury of the iliac artery (9 rabbits) and the abdominal aorta (1 rabbit).

35 scending thoracic aorta (53.9%), followed by abdominal aorta (41.4%) and aortic arch (4.8%).

36 17.6%, P < .001), especially located in the abdominal aorta (69.7% vs 23.1%, P < .001).

37 rts were heterotopically transplanted to the abdominal aorta A third group of BUF (group 3) were give

38 endothelium-denuded thoracic aorta (TA) and abdominal aorta (AA) segments, 1-oleoyl-LPA and the LPA1

39 y expressed in the aneurysmal segment of the abdominal aorta (AAA) in apolipoprotein E-deficient (apo

40 orphologic findings and the condition of the abdominal aorta after TEVAR is limited.

41 52] mL to 88.08 [41.07] mL, P = .001) in the abdominal aorta after TEVAR, with no change in total abd

42 Lewis male rats received orthotopic abdominal aorta allografts from male Brown-Norway rats.

43 Atherosclerosis of the abdominal aorta also was associated positively with smok

44 f the 926 patients, with 15 occurring in the abdominal aorta and 1 in the internal jugular vein.

45 abbits by balloon de-endotheliazation of the abdominal aorta and a high-cholesterol diet.

46 tic soft tissue thickening in the infrarenal abdominal aorta and bilateral ostio--proximal common ili

47 Intravascular contrast enhancement in the abdominal aorta and brachiocephalic artery was quantifie

48 ropriate for CVD risk prediction in both the abdominal aorta and coronary arteries.

49 k locus associated with calcification of the abdominal aorta and describes a previously unknown role

50 smooth muscle alpha-actin expression in the abdominal aorta and did not reduce expression of markers

51 The Ang II concentration response curves in abdominal aorta and femoral artery were comparable betwe

52 unts for most of the total AT1 mRNA in mouse abdominal aorta and femoral artery.

53 ntractile response in mouse vessels, such as abdominal aorta and femoral artery.

54 The lumen and wall of the abdominal aorta and iliac arteries were identified on al

55 d for presence of confounding artifacts, the abdominal aorta and iliac arteries were scored as fair.

56 l arteries while maintaining coverage of the abdominal aorta and iliac arteries.

57 aneurysmal and nonaneurysmal segments of the abdominal aorta and in subcutaneous and visceral adipose

58 The donor bladder with abdominal aorta and inferior vena cava was isolated and

59 orta and portal vein were anastomosed to the abdominal aorta and inferior vena cava, respectively, of

60 ery are sutured end-to-side to the recipient abdominal aorta and inferior vena cava, respectively.

61 l fistula was surgically created between the abdominal aorta and inferior vena cava.

62 In addition, advanced atherosclerosis of the abdominal aorta and its major branches was noted.

63 gin developing in youth, first in the distal abdominal aorta and later in the carotid arteries.

64 ly free of clinical CVD, enlarged infrarenal abdominal aorta and lower abdominal aorta, on noncontras

65 pheral artery disease-atherosclerosis of the abdominal aorta and lower extremity vascular bed-is a co

66 Region-of-interest measurements of the abdominal aorta and of the region of the endoleaks were

67 sional magnetic resonance angiography of the abdominal aorta and renal arteries.

68 oup had a higher frequency of male subjects, abdominal aorta and renal artery involvement, and hypert

69 from paired blood samples collected from the abdominal aorta and renal vein in 17 participants underg

70 MR imaging in atherosclerotic plaques of the abdominal aorta and right carotid artery as compared wit

71 MR imaging in atherosclerotic plaques of the abdominal aorta and right carotid artery as compared wit

72 nflammatory disease that develops around the abdominal aorta and the iliac arteries, and spreads into

73 tions of the branches and bifurcation of the abdominal aorta and their relations with other abdominal

74 es were acquired by selectively exciting the abdominal aorta and visualizing temporal blood flow into

75 asured over the thoracic and upper and lower abdominal aortas and correlated with thrombosis and macr

76 ation at the subsequent stage in both rabbit abdominal aortas and human coronary arteries, where comp

77 and mesenteric arteries, and the descending abdominal aorta) and catheters (jugular vein, peritoneal

78 in the coronary artery, carotid artery, and abdominal aorta) and mortality in individuals affected b

79 aneurysm and/or dissection (thoracic and/or abdominal aorta) and the group with GCA without large-ar

80 ClppA accumulated rapidly in atherosclerotic abdominal aorta, and lesions were clearly visible within

81 a, descending thoracic aorta, the infrarenal abdominal aorta, and lower abdominal aorta.

82 or right artery), and local diameter of the abdominal aorta are important factors to consider.

83 bare metal stent was implanted in the dorsal abdominal aorta as a landmark, followed by the 7 French

84 Increased uPA protein was detected in the abdominal aorta as early as 10 days after Ang II infusio

85 ically significant case of variations of the abdominal aorta as related to the location and type of b

86 se strains, lipid deposition in thoracic and abdominal aorta as well as area and composition of ather

87 ortic arch and particularly the thoracic and abdominal aorta, as compared with control treatment (app

88 more atherosclerosis in the aortic root and abdominal aorta at all time points compared with BALB/c

89 resent a high -positioned bifurcation of the abdominal aorta at the level of the L3 vertebral body an

90 f the diameter of the femoral to that of the abdominal aorta (beta = -0.12, p < 0.001).

91 (SMA), vena cava inferior confluence (CVC), abdominal aorta bifurcation (AB), and iliolumbar ligamen

92 LEAP2 concentration in the hepatic vein and abdominal aorta but not in the portal vein.

93 -22%, proximal descending aorta by -25%, and abdominal aorta by -35%; P<0.001).

94 empted percutaneous transcaval access to the abdominal aorta by electrifying a caval guidewire and ad

95 tudy suggests that a 1-time screening of the abdominal aorta can acceptably identify individuals with

96 2-dimensional vascular ultrasound (2DVUS) of abdominal aorta, carotid, iliac, and femoral territories

97 greater atherosclerosis in the thoracic and abdominal aorta compared to vitamin D-sufficient mice.

98 l thickening from aortic arch throughout the abdominal aorta compared with LDLr-/- mice.

99 In isolated endothelium-denuded abdominal aortas, contractions to the selective ETA rece

100 e calcification of the coronary arteries and abdominal aorta (coronary: median increases of 18.1% ver

101 rta (SC), infrarenal aorta (IFR), and distal abdominal aorta (dAA).

102 on extension to the supra-aortic vessels and abdominal aorta decreased with age (P < 0.0001 and P = 0

103 On days 3, 7, and 14 after perfusion, abdominal aorta diameter was measured by video micrometr

104 r coronary artery calcium levels, and larger abdominal aorta diameters and no evidence for associatio

105 acterized by the progressive dilation of the abdominal aorta, due to chronic inflammation and extrace

106 t analysis revealed that endothelium-denuded abdominal aortas express COX-2, but not COX-1, and that

107 Heart, breast and abdominal aorta expressed predominantly ErbB4 CYT-1 wher

108 Single-cell RNA-sequencing of the aneurysmal abdominal aorta from AngII-infused Apoe(-/-) mice reveal

109 esponses that are critical in protecting the abdominal aorta from injury.

110 access refers to percutaneous entry into the abdominal aorta from the femoral vein through the adjoin

111 Abdominal aortas from female XY mice selectively express

112 c aneurysm is defined as a dilatation of the abdominal aorta greater than 3cm.

113 n was in the following order: hepatic vein > abdominal aorta > portal vein.

114 t gadolinium (10 mm; 1 ml) injected into the abdominal aorta had no significant effect (P > 0.05) on

115 , P<0.01), whereas those with calcium in the abdominal aorta had the highest odds for mitral annular

116 lagen to the area surrounding the infrarenal abdominal aorta halfway between the right renal artery a

117 confidence interval=1.06 to 2.32) and lower abdominal aorta (hazard ratio=1.53; 95% confidence inter

118 tional CVD risk factors, enlarged infrarenal abdominal aorta (hazard ratio=1.57; 95% confidence inter

119 r vessel signal intensity and sharpness, the abdominal aorta, iliac arteries, distal plantar arteries

120 Artery patch grafts were implanted in the abdominal aorta in 3-month-old baboons using A/B-incompa

121 or medium were injected into the wall of the abdominal aorta in female Fischer rats (n=22 in each gro

122 of area changes in five locations along the abdominal aorta in four patients was 2.97%-37.16%.

123 by heterotopic heart transplantation to the abdominal aorta in isogenic rats.

124 th a 4-mm inner diameter was deployed in the abdominal aorta in nine rabbits.

125 examinations of the experimentally stenosed abdominal aorta in rats show high levels of phospho-Smad

126 ed neonatal cardiac cells in the wall of the abdominal aorta in rats was investigated.

127 o groups, lesion size in the aortic arch and abdominal aorta increased linearly with age (r=0.87-0.98

128 olve the ascending as well as the descending abdominal aorta indicates the need for a change in the w

129 patients awaiting endovascular repair of the abdominal aorta is little evaluated.

130 The awareness of the variations of the abdominal aorta is of great importance for surgeons in o

131 which should include the bifurcation of the abdominal aorta, is key in the use of pelvic radiotherap

132 MIF-/-LDLr-/- mice had significantly reduced abdominal aorta lipid deposition and intimal thickening

133 y U46,619 (2-10 micrograms injected into the abdominal aorta; mean baseline impulse frequency increas

134 dian increases of 18.1% versus 0.6%, P=0.05; abdominal aorta: median increases of 15.4% versus 3.4%,

135 et to the diaphragm (n = 10) and supraceliac abdominal aorta (n = 19) or thoracic inlet (n = 19) to t

136 Rabbit abdominal aortas (n = 12) were treated in separate zones

137 ortoiliac occlusive disease (AOD), or normal abdominal aorta (NAA).

138 -sections through the entire aortic arch and abdominal aorta of 156 normocholesterolaemic children ag

139 ng advanced lesions replaced segments of the abdominal aorta of 4-month-old EKO syngeneic mice not ex

140 ns rats and grafted heterotopically into the abdominal aorta of 4-week-old (80-100 g) rats with an op

141 ial abrasion of the right carotid artery and abdominal aorta of 7 rabbits fed an atherogenic diet.

142 ial abrasion of the right carotid artery and abdominal aorta of 7 rabbits fed an atherogenic diet.

143 one) sheath as an interposition graft in the abdominal aorta of a severe combined immunodeficient Bei

144 uPA activity, and aneurysm formation in the abdominal aorta of apoE-KO mice.

145 roval and patient consent were obtained, the abdominal aorta of four patients was scanned with an ele

146 in which human artery is interposed into the abdominal aorta of immunodeficient mice, followed by ado

147 125I-IGF-I uptake by the abdominal aorta of male Brown Norway rats occurred withi

148 alogs showed significant accumulation in the abdominal aorta of normal (control) rabbits.

149 that exosome-eluting stents implanted in the abdominal aorta of rats with unilateral hindlimb ischaem

150 er concentrations of alpha-tocopherol in the abdominal aorta of unsupplemented rabbits.

151 s were transplanted heterotopically into the abdominal aorta of Wistar-Furth rats.

152 c lesion area in the descending thoracic and abdominal aortas of animals on a standard chow diet was

153 ity in lesion-free areas of the thoracic and abdominal aortas of chow-fed C57BL/6 control and atheros

154 ucible model of dissection in the suprarenal abdominal aorta, often with a false lumen and intramural

155 B10 aortic grafts were transplanted in the abdominal aorta on day 0.

156 In vivo MRI visualized thickened abdominal aortas on both T1- and T2-weighted spin-echo i

157 nlarged infrarenal abdominal aorta and lower abdominal aorta, on noncontrast multidetector computed t

158 out and wild-type mice by constricting their abdominal aorta or by infusion of angiotensin II.

159 Standardized increases in calcium in the abdominal aorta (OR=2.0, P<0.01) and iliacs (OR=1.8, P=0

160 ions (P < 0.0097) and surface lesions of the abdominal aorta (P < 0.006).

161 was most strongly correlated with CAP in the abdominal aorta (p<0.005).

162 ommonly affect the infrarenal portion of the abdominal aorta, patients with the inflammatory variant

163 Coronary arteries and abdominal aorta PDAY scores were calculated for 165 peri

164 lanted grafts closely approximate the native abdominal aorta properties after just 1 week in vivo.

165 ansplanted with human arteries replacing the abdominal aorta; reconstituted with allogeneic human PBM

166 ntrol mice, led to adverse remodeling of the abdominal aorta, reduced collagen and elastin proteins b

167 aortic arch, descending thoracic aorta, and abdominal aorta, respectively (P<0.025 to P<0.0003 by AN

168 n IEL permeability of the thoracic aorta and abdominal aorta, respectively, were observed between 3 t

169 rat aortic arch and experimentally stenosed abdominal aorta revealed high HDAC-2/3/5 levels in ECs i

170 Sequential sectioning of aneurysmal abdominal aorta revealed two major characteristics: an i

171 sis was measured in right and left carotids, abdominal aorta, right and left iliofemoral arteries, an

172 significant changes in coronary arteries and abdominal aorta risk scores were observed over the 4-yea

173 erosis in Youth (PDAY) coronary arteries and abdominal aorta risk scores, as a result of prolonged ex

174 Significant predictors of abdominal aorta scores >/=1 included suppressed viral lo

175 fected adolescents had coronary arteries and abdominal aorta scores >/=1, representing increased card

176 In the abdominal aorta, smokers had more extensive fatty streak

177 value of 130 HU or greater were recorded for abdominal aorta (suprarenal, infrarenal, and aortic bifu

178 alysis of the thoracic and upper part of the abdominal aorta, susceptible to respiratory motion artif

179 er efficacy of antioxidant treatments in the abdominal aorta than aortic arch may relate to the lower

180 a measure of aortic lipids was lower in the abdominal aorta than in the aortic arch of rabbits not g

181 opherol and increased relatively more in the abdominal aorta than in the aortic arch with alpha-tocop

182 protocol consisted of bolus tracking in the abdominal aorta (threshold, 150 HU; scan delay, 9 second

183 and assessed their implantability in the rat abdominal aorta through post-mortem experiments and one

184 l multi-detector row CT from the supraceliac abdominal aorta through the feet.

185 Consequently, we exposed the donor abdominal aorta to 0, 200, or 500 ng/ml IGF-I at 37 degr

186 Allograft transplantation of wild-type abdominal aortas to ADAR1+/- recipient mice significantl

187 Thoracic and abdominal aorta ultrasound revealed a reduction in the r

188 ooth muscle cells (VSM) cultured from rabbit abdominal aorta, using 2',7'-biscarboxyethyl-5(6)carboxy

189 ons) in the right coronary artery and in the abdominal aorta was associated positively with non-HDL-c

190 sitive en face lesional area in thoracic and abdominal aorta was greater in C3-deficient mice than in

191 The abdominal aorta was harvested from male Brown Norway rat

192 The abdominal aorta was imaged in vivo in both atherosclerot

193 Radiotracer uptake of the abdominal aorta was measured using standardized uptake v

194 pressure gradient between the ascending and abdominal aorta was not different between the cyclospori

195 CT angiography of the abdominal aorta was performed in 46 subjects by using an

196 tage increase in maximal luminal diameter of abdominal aortas was significantly smaller in GV DKO mic

197 ry, distal aortic size (descending thoracic, abdominal aorta) was larger among patients with AoD vers

198 reas at the aortic arch, thoracic aorta, and abdominal aorta were less in PPARalpha-null animals of b

199 Sagittal images of the upper abdominal aorta were obtained for arterial input functio

200 Next, donor rat abdominal aortas were either untreated or transduced wit

201 Rat abdominal aortas were perfused with saline (control) or

202 C57Bl/6 mouse abdominal aortas were simultaneously perfused intralumin

203 neously developed aortitis in the infrarenal abdominal aorta, which extended to the thoracic area ove

204 duced by balloon deendothelialization of the abdominal aorta, which was followed by a 0.5% cholestero

205 as smoking expedite ASCVD progression in the abdominal aorta, while diabetes accelerates plaque devel

206 s underwent in vivo micro-PET imaging of the abdominal aorta with (68)Ga-DOTATATE, (18)F-NaF, and (18

207 vascular grafts were implanted into the rat abdominal aorta with a 1-month monitoring period.

208 anchnic circulation was perfused through the abdominal aorta with a tie on the aorta separating it fr

209 ent 1.5-T MRI of the descending thoracic and abdominal aorta with electrocardiogram-gated axial T2-we

210 rt-term periadventitial treatment of the rat abdominal aorta with low concentrations of calcium chlor

211 m arising from the right lateral wall of the abdominal aorta with the neck of the pseudoaneurysm at j

212 s radiopharmaceutical in the atherosclerotic abdominal aorta, with lesions clearly visible 30 min aft

213 e advanced through the femoral artery to the abdominal aorta without fracturing.