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1 ortic dissections (which are confined to the descending aorta).
2 a and underestimation (<12%) in the arch and descending aorta.
3 ntricular apex to the SMV and the SMV to the descending aorta.
4 ) is a congenital tightening of the proximal descending aorta.
5 h a tortuous feeding artery arising from the descending aorta.
6 0.27 cm for both the ascending aorta and the descending aorta.
7 olesterolemia-induced atherosclerosis in the descending aorta.
8 er acute AD with persistent patent FL in the descending aorta.
9 omography images over a 10 cm portion of the descending aorta.
10 om the left ventricular outflow tract to the descending aorta.
11 by dilation of the aortic root or ascending/descending aorta.
12 delayed' position of the tracking ROI in the descending aorta.
13 lood pressure gradients in the ascending and descending aorta.
14 ex) at the aortic root, ascending aorta, and descending aorta.
15 d with lower rates of re-intervention on the descending aorta.
16 carotid arteries and to the exclusion of the descending aorta.
17 iation of the ductus arteriosus and adjacent descending aorta.
18 r wall of the ductus arteriosus and adjacent descending aorta.
19 ense FDG uptake tended to be observed in the descending aorta.
20 , and in 7 replacement included the proximal descending aorta.
21 Ten-day-old rabbits underwent banding of the descending aorta.
22 stomosed to the apex of the heart and to the descending aorta.
23 , nidogen, and perlecan in the adventitia of descending aortas.
24 > 0.1) and its ratio to that of the adjacent descending aorta (0.5 +/- 0.1 vs 0.4 +/- 0.1, p > 0.1) w
25 77, 197); ductus arteriosus, 187 (109, 265); descending aorta, 252 (160, 344); pulmonary blood flow,
26 orta, most pronounced distally (e.g., distal descending aorta 5.1 +/- 1.8 mm Hg(-1) x 10(-3) before w
27 29 (15, 43); ductus arteriosus, 41 (25, 57); descending aorta, 55 (35, 75); pulmonary blood flow, 16
28 ction area of 156514+/-57408 microm(2)), and descending aorta (7.0+/-1.2% of the total aortic surface
29 le (narrowest point of arch, 70 vs 53 mm(2); descending aorta, 71 vs 58 mm(2); transverse arch, 293 v
32 e first, a valved stent was implanted in the descending aorta after creation of an aortic insufficien
34 r(-/-) mice was much larger than that in the descending aorta, also suggesting a crucial role of the
36 Patients with a short distance between the descending aorta and LA wall (defined as a distance(shor
38 g techniques that simultaneously occlude the descending aorta and open the aortic arch vessels to atm
39 ed plaque area and plaque cholesterol in the descending aorta and plaque area in the innominate arter
40 pheral organ distribution volume ratios, the descending aorta and proximal-extremity muscle (biceps/t
41 pulmonary arteries (0.15 L/min +/- 0.10) and descending aorta and superior vena cava (0.14 L/min +/-
42 rtest distance (distance(short)) between the descending aorta and the LA wall were measured on three-
44 spinal malperfusion, a primary entry in the descending aorta, and pre-operative comatose state were
45 ing, the proximal descending, and the distal descending aorta, and the common carotid artery and the
46 ta and equal to or greater than 0.70 for the descending aorta, and the ICCs between readers were 0.91
51 rrogate tumors were blood-pool images of the descending aorta as well as mesenteric and iliac arterie
52 s tested responded to brief occlusion of the descending aorta at the level of the coeliac arteries, a
53 ess was assessed at the ascending (Ao-A) and descending aorta at the pulmonary artery bifurcation (Ao
54 tal aorta (ascending aorta by -22%, proximal descending aorta by -25%, and abdominal aorta by -35%; P
55 1 000 murine genes in the nonatherosclerotic descending aorta by Affymetrix gene chips suggested that
56 ties of the right and left heart and for the descending aorta by comparing them against the time-acti
57 calcifications, mitral valve calcifications, descending aorta calcifications, and cardiac diameter.
58 ia was induced by transient occlusion of the descending aorta combined with systemic hypotension.
59 e region spanning the ascending and proximal descending aorta compared with the mid-thoracic or abdom
60 mic perfusion pressure (SPP) measured in the descending aorta (constant flow) provided an index of sy
61 nt in the main pulmonary artery (PAenh), the descending aorta (DAenh), and whole-lung PBV (WLenh) was
62 bility was lowest at the level of the distal descending aorta (DDA) with median COVs of 1.6% for intr
63 erval: 1.2 to 3.8; p = 0.010) and a proximal descending aorta diameter >/=27 mm (hazard ratio: 2.2; 9
64 cending aorta were associated with a greater descending aorta diameter (0.18 +/- 0.08-mm increase in
66 variate analysis identified baseline maximum descending aorta diameter (hazard ratio [HR]: 1.32 [1.10
67 mortality was predicted by baseline maximum descending aorta diameter (HR: 1.36 [1.08-1.70]; P=0.008
68 diabetes were each associated with a greater descending aorta diameter (p < 0.05); 2) atherosclerotic
70 resection: 43% with resection including the descending aorta died versus 14% with only ascending aor
71 There were significant treatment effects for descending aorta distensibility (P=0.008) and strain (P=
76 In CTA, delayed acquisition by using the descending aorta for bolus triggering can improve the en
78 Patients with advanced age (p = 0.01) and descending aorta grafting (p = 0.004) had significant po
79 tions originating in the ascending aorta and descending aorta have been classified as type A and type
80 partment model and the Patlak method using a descending aorta image-derived input function, and mean
81 es in the carotid sinus, or occlusion of the descending aorta in 14 Dial-urethane anaesthetized, vago
82 repair included arch in 218 patients, total descending aorta in 193 patients, and thoracoabdominal a
85 ality noted was a uniformly narrowing of the descending aorta in fibulin-4-/- embryos at embryonic da
86 differentiation of the VSMC component of the descending aorta in stage 12 to stage 20 quail embryos.
87 nd ductal Z scores (measured just before the descending aorta in the 3-vessel and tracheal view) and
88 es in the carotid sinus, or occlusion of the descending aorta in thirty-six Dial-urethane-anaesthetiz
89 d (81 of 116) responded to retraction of the descending aorta into a polyethylene tube (the snare sti
91 solated hindlimb preparation perfused in the descending aorta (Krebs-Henseleit bicarbonate, 5% albumi
92 were made in the ascending aorta (aAo), mid-descending aorta, main pulmonary artery, and superior ve
93 rate-corrected mean flow deceleration in the descending aorta measured by phase-velocity cine MRI (OR
97 ring formed by a left-sided ductus from the descending aorta (n = 5); right aortic arch with mirror-
98 ical management for uncomplicated AAS in the descending aorta (n = 61) revealed no dissection-related
99 erformed using the pulmonary trunk (n=70) or descending aorta (n=73) after application of 70 to 120 m
100 AI-1-plasminogen complex in protein from the descending aorta of rPAI-1(23)- and saline-treated mice,
103 aorta identifies inadequate occlusion of the descending aorta or any collateral flow and diverts flow
105 In abdominal NRP, complete occlusion of the descending aorta prevents brain perfusion in most cases.
106 coronary artery, aortic root, ascending and descending aorta, pulmonary arteries) were evaluated.
107 dy (Southampton Women's Survey), the child's descending aorta PWV was measured at the age of 9 years
108 iR-145 micelles reduced plaque growth in the descending aorta, reduced weight gain, lowered circulati
115 nts of flow in the ascending, transverse and descending aorta, the ductus arteriosus, and across the
116 with resternotomy was 24% (18 of 74) and of descending aorta (thoracic+abdominal) intervention was 3
119 wo (12%) of 17 patients with hematoma of the descending aorta (type B) were significantly different (
120 ically, MAPCAs primarily originated from the descending aorta (type II) in 85% of cases, and their si
121 After imaging with the CIRPI system, the descending aorta was flushed with contrast agent, and OC
122 Among those with predissection imaging, the descending aorta was normal or minimally dilated (<4.0 c
124 Rates of freedom from re-intervention on the descending aorta were 96.7%, 92.2%, and 89.4% at 10, 20,
125 extent of fibrosis and the proximity of the descending aorta were analyzed by using correlative and
126 p < 0.05); 2) atherosclerotic plaques in the descending aorta were associated with a greater descendi
127 -derived radioactivity concentrations in the descending aorta were compared with blood samples counte
128 -derived radioactivity concentrations in the descending aorta were compared with blood samples counte
129 nd neointimal lesions at the aortic root and descending aorta were markedly decreased (by 40% and 80%
130 ts; in mice on Western diets, lesions in the descending aorta were reduced by 30% in females and 33%
133 endothelium in the lesser curvature and the descending aorta, whereas SCD1 overexpression via adenov
134 oes not involve catheter manipulation in the descending aorta, whereas transfemoral PCI (TFI) does.
135 of TSC is the formation of aneurysms of the descending aorta, which are characterized on pathologic