ライフサイエンスコーパス: catheterisation

1 'normalcy' for those using intermittent self-catheterisation.

2 ns for patients undergoing long-term bladder catheterisation.

3 re better for arterial mapping for selective catheterisation.

4 kidney injury in patients undergoing cardiac catheterisation.

5 kidney injury in patients undergoing cardiac catheterisation.

6 m chloride at 3 mL/kg for 1 h before cardiac catheterisation.

7 with standard polytetrafluoroethylene (PTFE) catheterisation.

8 ed via superselective ophthalmic artery (OA) catheterisation.

9 on (58 vs 23%); IABP (35 vs 7%); right-heart catheterisation (57 vs 22%); and ventilatory support (54

10 the USA than in the other countries: cardiac catheterisation (58 vs 23%); IABP (35 vs 7%); right-hear

11 Duration of bladder catheterisation after female genital fistula repair vari

12 7 day bladder catheterisation after repair of simple fistula is non-in

13 ormed by a combination of clean intermittent catheterisation, algorithms of diagnostic investigations

14 of simple fistula is non-inferior to 14 day catheterisation and could be used for management of wome

15 In all cases superselective catheterisation and occlusion of feeding vessels was att

16 e territories in patients undergoing cardiac catheterisation and possible percutaneous coronary inter

17 erred to a specialist centre for right-heart catheterisation and pulmonary angiography.

18 an important tool in interventional cardiac catheterisation and radiofrequency ablation.

19 e but fatal disease diagnosed by right heart catheterisation and the exclusion of other forms of pulm

20 ndent on positive acceptance of intermittent catheterisation and the need for good bladder management

21 prescribing practice related to intermittent catheterisation and to identify their perceptions about

22 ptying is most often managed by intermittent catheterisation, and storage dysfunction by antimuscarin

23 heterisation, two had interventional cardiac catheterisations, and for two patients, MRI was used to

24 cal outcomes for long-term versus short-term catheterisation are controlled by different factors: the

25 misoprostol tablets and transcervical Foley catheterisation-are already used in low-resource setting

26 =16 years) requiring short-term (</=14 days) catheterisation at 24 hospitals in the UK.

27 management techniques, such as intermittent catheterisation, can have long-term consequences leading

28 luded in our analysis were: pulmonary-artery catheterisation, cardiac catheterisation, intravenous in

29 was more effective than transcervical Foley catheterisation for induction of labour in women with pr

30 We have shown that cardiac catheterisation guided by MRI is safe and practical in a

31 first 16 cases of a novel method of cardiac catheterisation guided by MRI with radiographic support.

32 rcutaneous coronary intervention or elective catheterisation in nine USA centres were assigned in a 2

33 the method of choice for diagnostic cardiac catheterisation in patients with congenital heart diseas

34 e: pulmonary-artery catheterisation, cardiac catheterisation, intravenous inotropic agents, ventilato

35 Fluoroscopically guided cardiac catheterisation is an essential tool for diagnosis and t

36 Catheterisation is necessary to assess haemodynamics and

37 ng early routine active MCS (directly in the catheterisation laboratory after randomisation) versus c

38 We looked for catheterisation laboratory visits associated with STEMI.

39 The rate at sites with a catheterisation laboratory was 19% compared with zero at

40 to random assignment; however, staff in the catheterisation laboratory were not.

41 In our cardiac catheterisation laboratory, we combine magnetic resonanc

42 0.93 to 1.65]), urinary retention requiring catheterisation (LATP 35 [6%] of 562 vs TRUS 27 [5%] of

43 Stent implantation required selective catheterisation of segmental arteries of the kidney, whi

44 ll infants needing surgery or interventional catheterisation or dying in the first year of life becau

45 who prescribe catheters, teach intermittent catheterisation or manage an intermittent catheterisatio

46 tly improved clinical outcome after elective catheterisation or percutaneous coronary intervention.

47 in community cohorts, in patients undergoing catheterisation, or in patients who have had myocardial

48 dysphagia (p=0.003) and urinary incontinence/catheterisation (p=0.000) were at higher risk of infecti

49 While intravascular catheterisation remains the most direct measure, its inv

50 Transradial access for cardiac catheterisation results in lower bleeding and vascular c

51 nt catheterisation or manage an intermittent catheterisation service.

52 monary hypertension confirmed by right heart catheterisation, systolic blood pressure of at least 95

53 12 patients underwent diagnostic cardiac catheterisation, two had interventional cardiac catheter

54 ified by country) to 7 day or 14 day bladder catheterisation (via a random allocation sequence comput

55 In 14 patients, some or all of the cardiac catheterisation was guided by MRI.

56 We aimed to establish whether 7 day bladder catheterisation was non-inferior to 14 days in terms of

57 Patients undergoing unplanned catheterisation were also included and consent for parti

58 stress echocardiography, CMR and right heart catheterisation were performed at baseline.

59 ases provide good mapping for superselective catheterisation whereas late phases are better for visua

60 ts aged 18 years or older undergoing cardiac catheterisation with an estimated glomerular filtration

61 oronary artery disease who underwent cardiac catheterisation with possible ad hoc percutaneous corona

62 Shunt implants were done after transseptal catheterisation with transoesophageal echocardiographic