ライフサイエンスコーパス: brachiocephalic

1 rtic arch and its branches, compromising the brachiocephalic and carotid arteries and to the exclusio

2 Coronary, brachiocephalic, and carotid arteries were analyzed for

3 spread advanced atherosclerosis in coronary, brachiocephalic, and carotid arteries with plaque ruptur

4 se regions in response to a 10 min period of brachiocephalic arterial occlusion (BCO).

5 erotic plaque development and composition in brachiocephalic arteries and aortas of p53-/-/ApoE-/- mi

6 cterize plaque extent and composition in the brachiocephalic arteries of ApoE-deficient mice on high-

7 In addition, the brachiocephalic arteries of Il1r1(-)/(-)Apoe(-)/(-) mice

8 y were applied to image carotid arteries and brachiocephalic arteries, allowing for 3D reconstruction

9 newborn pigs by occlusion of subclavian and brachiocephalic arteries, and changes in local cortical

10 ize in aortic sinuses, ascending aortas, and brachiocephalic arteries.

11 nt, surface, and spatial position within the brachiocephalic arteries.

12 liferation and reduced rates of apoptosis in brachiocephalic arteries.

13 Adults undergoing primary radiocephalic or brachiocephalic arteriovenous fistula creation were rand

14 aque necrosis in aortic sinus (35.8%) and in brachiocephalic artery (26%), with reduced expression of

15 In contrast, lesion area at the brachiocephalic artery (BCA) was reduced dramatically by

16 Catheters were inserted in a brachiocephalic artery and sagittal sinus for blood samp

17 mples were drawn from the sagittal sinus and brachiocephalic artery catheters and were analyzed for p

18 were excluded if the left common carotid or brachiocephalic artery had greater than 70% stenosis or

19 olesterol diet, no differences were noted in brachiocephalic artery lesion size, cellularity, or vess

20 Brachiocephalic artery lesions of MPhi-IGF1R-KO mice had

21 Using the mouse brachiocephalic artery model of plaque instability, we c

22 Subclavian or brachiocephalic artery obstruction can be effectively tr

23 nduces regression of advanced plaques in the brachiocephalic artery of LDL receptor-deficient mice.

24 aque hemorrhage and plaque disruption in the brachiocephalic artery of mice fed low-fat or high-fat d

25 ed a fluorescence-quenching PO2 probe in the brachiocephalic artery of six anesthetized rabbits after

26 Analysis of brachiocephalic artery plaques revealed that RAdTIMP-2 b

27 Brachiocephalic artery plaques were significantly larger

28 lesterol and cholesteryl ester levels in the brachiocephalic artery than WT-->LDLr(-/-) mice (33 and

29 an extravascular balloon occluder around the brachiocephalic artery using aseptic techniques.

30 Brachiocephalic artery versus muscle CNR was 524 +/- 55

31 trast enhancement in the abdominal aorta and brachiocephalic artery was quantified by measuring contr

32 etic resonance imaging and T1 mapping of the brachiocephalic artery, 30 minutes after injection of ga

33 ding hypoplastic arterial wall, short/absent brachiocephalic artery, and retroesophageal right subcla

34 ecrotic cores, and cholesterol clefts in the brachiocephalic artery.

35 area was also reduced in the aortic root and brachiocephalic artery.

36 vascular catheters in the sagittal sinus and brachiocephalic artery.

37 ntation of extravascular occluder around the brachiocephalic artery.

38 erebral hypoxia-ischemia by occlusion of the brachiocephalic artery.

39 on size or composition in the aortic root or brachiocephalic artery.

40 D) for up to four-months prior to MRI of the brachiocephalic-artery.

41 patients undergoing primary radiocephalic or brachiocephalic AVF creation to receive regional anesthe

42 e thorax including superior vena cava (SVC), brachiocephalic (BCV), subclavian (SCV) and internal jug

43 s developed interrupted aortic arches, large brachiocephalic/carotid artery aneurysms and cardiac sep

44 tent insertion into a subclavian (n = 11) or brachiocephalic (n = 9) vein were reviewed.

45 e the procedure of choice for subclavian and brachiocephalic obstruction, little work has been done t

46 ered as first line therapy for subclavian or brachiocephalic obstruction.

47 Brachiocephalic occlusion (BCO) stimulated adrenocortico

48 fetuses were subjected to a 10-min period of brachiocephalic occlusion (BCO).

49 Venous obstruction of the subclavian, brachiocephalic, or superior vena cava veins represents

50 c plaque formation and cell proliferation in brachiocephalic plaques, but also markedly reduced apopt

51 t-sided aortic arch with aplasia of the left brachiocephalic trunk in a 64-year-old women, presenting

52 A common brachiocephalic trunk was present in five patients.

53 ifurcation formed by the aortic arch and the brachiocephalic trunk.

54 duced atherosclerosis in the aortic root and brachiocephalic trunk.

55 2-gauge needle was safely passed through the brachiocephalic vein in one patient with a retrotracheal

56 d right subclavian veins and joined the left brachiocephalic vein in order to form the PLSVC, which d

57 ollateral channels (80%) originated from the brachiocephalic vein or its junction with the superior v

58 mal angioplasty, treatment of subclavian and brachiocephalic vein stenoses with a Wallstent can provi

59 e venography revealed occlusion of the right brachiocephalic vein.

60 For the superior vena cava and brachiocephalic veins, the reconstructions at 100 keV en