ライフサイエンスコーパス: collateral circulation

1 ial arterial occlusion, and moderate-to-good collateral circulation.

2 eral extent for use in investigations of the collateral circulation.

3 the best technique to quantify the degree of collateral circulation.

4 ients with extensive versus poorly developed collateral circulation.

5 to unravel the pathways leading to improved collateral circulation.

6 se of the possible interruption of important collateral circulation.

7 of the luminal diameter, and the absence of collateral circulation.

8 w-up, which may be related to development of collateral circulation.

9 bility, especially in patients with coronary collateral circulation.

10 esis in rat hearts, which have little native collateral circulation.

11 tenoses and obstructions and to evaluate the collateral circulation.

12 le in small vessel ischemic disease or brain collateral circulation.

13 n test occlusion (BTO) is used to assess the collateral circulation and cerebrovascular reserve in pa

14 No association between patent collateral circulation and favorable outcome was found.

15 of the final infarct volume are the grade of collateral circulation and the clot burden score, especi

16 score to record the grade of leptomeningeal collateral circulation and the extension of the thrombus

17 uding organogenesis, wound healing, ischemic collateral circulation, and solid tumor growth.

18 gated the relationship between ischemia, the collateral circulation, and symptoms in stable coronary

19 ctors, including the grade of leptomeningeal collateral circulation, as well as the length, density,

20 icrovessels resulting in the re-formation of collateral circulation associated with enhanced neuronal

21 eatment remains undefined, and the status of collateral circulation at presentation may be a key feat

22 ns vascular remodeling, a key determinant of collateral circulation (CC) in ischemic disease, yet the

23 tion of the palmar arch and forearm arterial collateral circulation during transradial access.

24 l hypertension and the dynamic physiology of collateral circulation, gastric variceal classification

25 of neovascularization in the development of collateral circulation in coronary artery disease.

26 We compared the native collateral circulation in healthy tissue and collateral

27 mechanisms responsible for formation of the collateral circulation in healthy tissues.

28 infarct core, salvageable brain tissue, and collateral circulation in patients suspected of acute st

29 underlines the importance of being aware of collateral circulation in patients with chronic aortoili

30 ostatin) related to the presence of coronary collateral circulation in patients with significant coro

31 Collateral circulation is a potent determinant of stroke

32 ed adult coarctations, particularly when the collateral circulation is in doubt.

33 Although the coronary collateral circulation is known to react to several vaso

34 The collateral circulation is tissue- and life-saving in obs

35 ng cardiomyocytes, suggesting that increased collateral circulation may provide an important source o

36 Coronary collateral circulation may sustain ischemic, dysfunction

37 n of brain perfusion because, theoretically, collateral circulations may restore it.

38 In an unusual situation of bleeding from collateral circulation near the pseudocyst wall during p

39 Patients with a large infarct core or poor collateral circulation on computed tomography (CT) and C

40 ts with BAO and to evaluate the influence of collateral circulation on outcome.

41 he level of the subclavian vein and abnormal collateral circulation over the chest wall consistent wi

42 correlated with the grade of leptomeningeal collateral circulation (p=0.03) and with the clot burden

43 The development of collateral circulation plays an important role in protec

44 A well-developed coronary collateral circulation provides a potential source of bl

45 , a small infarct core, and moderate-to-good collateral circulation, rapid endovascular treatment imp

46 ew microvessels and leads to re-formation of collateral circulation, reperfusion and better recovery.

47 In this review, we define the collateral circulation, review methods of its measuremen

48 enous imaging-based biomarkers with grade of collateral circulation, the ischaemic penumbra and clini

49 the brain is sufficiently reperfused through collateral circulation to allow reemergence of conscious

50 The capacity of the collateral circulation to lessen injury in occlusive vas

51 s ischemic brain injury in SHR by increasing collateral circulation to the ischemic region and allowi

52 tenotic plaques are more likely to stimulate collateral circulation to the post-stenotic segment, pla

53 The growth of the collateral circulation was functional in the RI group be

54 lumped parameter model of the human coronary collateral circulation was used to simulate normal and a

55 who received nitroglycerin and had coronary collateral circulation were more likely to exhibit impro

56 he vexing dilemma that an effective coronary collateral circulation, which is determined primarily by

57 In humans, suboptimal cerebral collateral circulation within the circle of Willis (CW)