ライフサイエンスコーパス: large-bore

1 iliary sphincterotomy and the placement of a large-bore (10-French) plastic stent.

2 l advantage over the control group after the large-bore (21-gauge) needle puncture.

3 re essential, and thus, novel mechanisms for large-bore access have evolved.

4 iew explores the comprehensive management of large-bore accesses, from optimal vascular puncture to s

5 nd methods of the 2 most common percutaneous large-bore alternative access strategies: transaxillary

6 nce of these adverse events, particularly in large-bore arterial access.

7 sure device can safely and effectively close large bore arteriotomies created by current generation t

8 collagen-based technology designed to close large bore arteriotomies created by devices with an oute

9 fectiveness and safety in the closure of the large-bore arteriotomy.

10 ter materials and design have allowed use of large-bore bearings, which provide an increased range of

11 nt patients with BAS refractory to long-term large bore catheterization.

12 mporary endovascular interventions involving large-bore catheters and its association with in-hospita

13 o underwent transcatheter intervention using large-bore catheters and was associated with a statistic

14 aneous transcatheter interventions that used large-bore catheters are frequent and associated with hi

15 easily exploited for applications employing large bore chromatography.

16 (124)I antibody fragment PET images using a large-bore clinical scanner, which enables high-throughp

17 biorelevant gastrointestinal fluid across a large-bore column (maintained at 37.0 +/- 2.0 degrees C)

18 such separations are performed on relatively large bore columns requiring flow rates of >=5 mL/min, t

19 Large-bore device percutaneous procedures with closure d

20 ion high-efficiency nebulizer (DIHEN); (2) a large-bore DIHEN; and (3) a MicroFlow PFA nebulizer with

21 ion high-efficiency nebulizer (DIHEN); (2) a large-bore DIHEN; and (3) a PFA microflow nebulizer with

22 A large bore-direct injection high efficiency nebulizer (I

23 However, because of the need for large-bore femoral access (14 F for the commonly used Im

24 -resolution imaging, multi-spectral sensing, large-bore flow cytometry, and machine learning to extra

25 Purpose To evaluate the safety of large bore (>=18 gauge) image-guided splenic biopsy.

26 proved techniques, these devices necessitate large-bore (>=12 French) arterial/venous sheaths, posing

27 These findings support the use of a large bore high-volume evacuator whenever an ultrasonic

28 Two large bore infiltrators (1 m diameter) were installed at

29 al artery access is the default strategy for large-bore interventional procedures, including temporar

30 ile allowing 98% of the HPLC effluent from a large-bore LC column to be collected and concentrated fo

31 isk factors randomized 1:1 to treatment with large-bore mechanical thrombectomy (LBMT) or catheter-di

32 , the shear stress of fluid aspirated into a large-bore micropipette was then used to forcibly peel m

33 studied for accidental dural puncture with a large bore needle.

34 Conventionally used large bore needles (Tuohy or Pajunk needle; LBN) have be

35 iliary sphincterotomy and the placement of a large-bore plastic stent is associated with a high rate

36 tures (BBS) respond to placement of multiple large-bore plastic stents, though requiring multiple pro

37 ically proven mesothelioma who had undergone large-bore pleural interventions in the 35 days prior to

38 pond to endoscopic transmural drainage using large-bore, self-expanding metal stents/lumen-apposing m

39 bolism during catheter exchanges through the large bore sheath (13.8 F ID).

40 In these procedures large-bore sheath devices are used.

41 ations, particularly those due to the use of large-bore sheaths, may limit outcomes in these patients

42 rapy in all patients with mesothelioma after large-bore thoracic interventions is not justified.

43 Given the rapid growth of large-bore transcatheter procedures, bleeding avoidance

44 wells connected with type I collagen-coated large bore tubing and has recirculating media.

45 Component blocks include large bore vascular access, navigation within the left a

46 Therefore, optimizing large-bore vascular access management is crucial in endo