ライフサイエンスコーパス: intramural hematoma

1 oronary artery is narrowed or occluded by an intramural hematoma.

2 valuated included lesion and aortic size and intramural hematoma.

3 horacic aortic disease but is insensitive to intramural hematoma.

4 with suspected aortic dissection, including intramural hematoma.

5 d as the cleavage of the arterial wall by an intramural hematoma.

6 orphology, and clinical features of post-PCI intramural hematomas.

7 23 acute aortic dissections, 14 acute aortic intramural hematomas, 20 acute penetrating aortic ulcers

8 a separate location; 2.6% had an associated intramural hematoma; 23.6% had at least 1 other PAU.

9 ion was present in 49 (44%); 10 of these had intramural hematoma (5 with and 5 without involvement of

10 Intravascular ultrasound identified intramural hematomas after 6.7% of PCIs.

11 to the 'variant forms' of aortic dissection: intramural hematoma and penetrating aortic ulcer.

12 expansion, and apposition, but also residual intramural hematoma at the stented site (abluminal) and

13 Intramural hematoma carries a high complication rate and

14 ulcer, while the principal controversy over intramural hematoma concerns its management when the asc

15 ce in favor of surgical management of type A intramural hematoma continues to mount, although it is a

16 Intramural hematomas during percutaneous coronary interv

17 sonographic findings: intimal flap, tear, or intramural hematoma; enlargement of aortic root or widen

18 A double-lumen or intramural hematoma image was visualized in all cases.

19 Acute aortic intramural hematoma (IMH) is an important subgroup of ao

20 Management of acute type A intramural hematoma (IMH) remains controversial, varying

21 n (FID) has been described in >20% of type B intramural hematomas (IMH), with unclear prognosis and m

22 ues have increased the recognition of aortic intramural hematomas (IMHs) and penetrating atherosclero

23 ophageal echocardiography for dissection and intramural hematoma is less well defined.

24 dissection (approximately 90% of cases) and intramural hematoma, may be complicated by poor perfusio

25 ding to the type of injury: complex lesions (intramural hematoma, mucosal laceration) and minor lesio

26 m (n = 4), penetrating aortic ulcer (n = 6), intramural hematoma (n = 2), and mycotic aneurysm (n = 2

27 se lumen (5.9 +/- 2.1 mm(2)), the associated intramural hematoma (n = 9), and thrombi in the true or

28 ents with MR findings consistent with type A intramural hematoma of the thoracic aorta should undergo

29 MR images of 22 patients with intramural hematoma of the thoracic aorta were reviewed

30 In cases of type B intramural hematoma of the thoracic aorta, MR imaging ca

31 The incidence of intramural hematomas per artery was 6.7% (69 of 1025); 3

32 lesions were unchanged, although associated intramural hematoma regressed over 1-2 months.

33 oth narrowing that may represent dissection, intramural hematoma, spasm, or tortuosity.

34 The sensitivity and specificity for intramural hematoma was 90% and 99%, respectively.

35 The identification of intimal flap, tear, or intramural hematoma was shown to have an exceptional abi

36 ery occurred in all patients: dissection and intramural hematoma were the most common.

37 One of two intramural hematomas were overlooked at MR angiography b

38 ssection (type A or B, typical dissection or intramural hematoma) were confirmed by operation or auto