ライフサイエンスコーパス: balloon dilatation

1 or crush techniques) with mandatory kissing balloon dilatation.

2 tenosis, which was treated successfully with balloon dilatation.

3 Zealand White rabbits underwent iliac artery balloon dilatation.

4 received silicone stents, laser ablation, or balloon dilatation.

5 d with forceps resection, laser ablation, or balloon dilatation.

6 f a relevant pressure gradient compared with balloon dilatation.

7 ldren who have undergone transfemoral artery balloon dilatation.

8 ssfully by either surgical reconstruction or balloon dilatation.

9 nal area by up to 37% measured 14 days after balloon dilatation.

10 injury were removed 3, 7, and 21 days after balloon dilatation.

11 and most commonly occurred after post-stent balloon dilatation (71.4%).

12 n the distal coronary artery increased after balloon dilatation (8.4 +/- 0.9 to 16.4 +/- 2 pg/mL, P <

13 ts were diagnosed by venogram and managed by balloon dilatation alone (n = 6) or stented (n = 4), wit

14 The lesion was extremely resistant to balloon dilatation alone and a 22-mm-diameter intravascu

15 Twenty veins were treated with balloon dilatation alone, whereas 14 veins were stented

16 ents with overall success rates of 64% after balloon dilatation and 92% after surgical reconstruction

17 inimal polymer damage, whereas high-pressure balloon dilatation and contrast-ELCA cause significant d

18 High-pressure balloon dilatation and contrast-ELCA exhibited substanti

19 Of the six treated with balloon dilatation and Ho:YAG laser endoureterotomy, the

20 lesions are often resistant to high-pressure balloon dilatation and may require advanced techniques t

21 s to identify and select relevant studies of balloon dilatation and stenting for aortic coarctation b

22 fectiveness and comparative effectiveness of balloon dilatation and stenting for aortic coarctation.

23 initially managed with percutaneous biliary balloon dilatation and stenting, and only 2 patients req

24 ureteropelvic junction obstruction, one with balloon dilatation and two with balloon dilatation plus

25 er-directed thrombolytic therapy followed by balloon dilatation and/or stent placement.

26 nd 66.5% (44.1-88.9%) of patients undergoing balloon dilatation, and in 99.5% (97.5-100.0%) and 93.8%

27 dds of achieving </=20 mm Hg were lower with balloon dilatation as compared with stenting (odds ratio

28 imited to clinically relevant strictures for balloon dilatation, biopsy and brush cytology.

29 esize that an appropriately sized commercial balloon dilatation catheter-straddling the aortic annulu

30 High-pressure balloon dilatation demonstrated the highest incidence of

31 Numerically more patients undergoing balloon dilatation experienced severe complications duri

32 with calcified lesions in which noncompliant balloon dilatation failed (n=22 lesions), and (group C)

33 ormed in the carotid arteries of 29 pigs (by balloon dilatation followed by endarterectomy at the sit

34 atabase of patients who underwent endoscopic balloon dilatation for suspected or proven gastrointesti

35 reterotomy and/or percutaneous ureteroscopic balloon dilatation for ureterovesical anastomotic strict

36 such complications after transfemoral artery balloon dilatation has not been thoroughly investigated.

37 Non-fluoroscopic endoscopic balloon dilatation is an acceptable and fairly safe moda

38 However, late balloon dilatation is rarely utilized because of concern

39 Balloon dilatation late after THV implantation appears f

40 on of 25 patients completing treatment after balloon dilatation (mean follow-up, 27.8 months) showed

41 Balloon dilatation (minimum diastolic pressure, 25 mm Hg

42 87 patients were managed initially by either balloon dilatation (N = 28) or surgical reconstruction (

43 ary-enteric continuity, underwent successful balloon dilatation of an anastomotic stricture.

44 Of the three patients treated with balloon dilatation only, there was success in only one (

45 patients were managed by either percutaneous balloon dilatation or surgical reconstruction with a Rou

46 al atherectomy (RA) followed by low-pressure balloon dilatation (percutaneous transluminal coronary a

47 on, one with balloon dilatation and two with balloon dilatation plus Ho:YAG laser endoureterotomy, al

48 Transfemoral artery balloon dilatation procedures produce superficial femora

49 The combination of surgery and balloon dilatation resulted in a successful outcome in 1

50 osectomy consisted of transgastric puncture, balloon dilatation, retroperitoneal drainage, and necros

51 ents (1 day to 15.5 years old at the time of balloon dilatation) seen on follow-up (42 +/- 23 months)

52 cluded 15 stenting (423 participants) and 12 balloon dilatation studies (361 participants), including

53 uding 57 stenting (3397 participants) and 62 balloon dilatation studies (4331 participants).

54 e patient was managed with repeat endoscopic balloon dilatation successfully.

55 el was stented, followed by optional kissing balloon dilatation/T-stent.

56 nt thrombosis (treated 2 weeks after pPCI by balloon dilatation-this patient stopped all medications

57 , or nothing was delivered immediately after balloon dilatation via a double-skinned porous balloon (

58 to-artery ratio was 0.68+/-0.18 and adjuvant balloon dilatation was performed at 4.2+/-2.1 atm.

59 -ELCA, contrast-ELCA, IVL, and high-pressure balloon dilatation were applied.