ライフサイエンスコーパス: internal jugular vein

1 s syndrome: a septic thrombophlebitis of the internal jugular vein.

2 ent bolus between the carotid artery and the internal jugular vein.

3 ccurring in the abdominal aorta and 1 in the internal jugular vein.

4 demonstrated thrombus formation in the left internal jugular vein.

5 tery catheter was placed in minipigs via the internal jugular vein.

6 risen to measure the JVP at the external and internal jugular veins.

7 veins: right internal jugular vein, 28; left internal jugular vein, 14; right external jugular vein,

8 he internal or external jugular veins: right internal jugular vein, 28; left internal jugular vein, 1

9 B-mode ultrasound imaging of the internal jugular vein also proved the validity of the pr

10 gnificantly elevated in blood drawn from the internal jugular vein and a peripheral vein.

11 Blood samples were obtained from the right internal jugular vein and brachial artery to determine c

12 Finally, the right internal jugular vein and carotid artery were cannulated

13 ltiple sclerosis involving venoplasty of the internal jugular vein and the azygos vein.

14 ences in morphologic features of flow in the internal jugular veins and vertebral veins were found be

15 98), which was significantly higher than the internal jugular vein aspect ratio (area under the curve

16 erior vena cava collapsibility index and the internal jugular vein aspect ratio showed poor correlati

17 ferior vena cava collapsibility index or the internal jugular vein aspect ratio.

18 of a) a thermodilution catheter in the right internal jugular vein; b) a right carotid artery cathete

19 Right or left internal jugular vein catheter placement followed by a p

20 adiographs following ultrasound-guided right internal jugular vein catheterization is exceedingly low

21 adiographs following ultrasound-guided right internal jugular vein catheterization is exceedingly low

22 previous experience (p < 0.001); failure of internal jugular vein catheterization was associated wit

23 anted with multisensor telemetry devices and internal jugular vein catheters before being infected wi

24 rall success rate of ultrasound-guided right internal jugular vein central venous catheter placement

25 uperior vena cava stenosis due to a tunneled internal jugular vein dialysis catheter presented with h

26 entally penetrated the posterior wall of the internal jugular vein during cannulation.

27 mulation at the jugular foramen, through the internal jugular veins (extracardiac vagal stimulation [

28 moid sinus, inferior petrosal sinus, and the internal jugular vein), femoral vein, and radial artery

29 Right carotid artery to internal jugular vein fistulas were created in C57BL/6 m

30 The morphologic features of internal jugular vein flow were classified as absent, pi

31 Measurement of the internal jugular vein height to width ratio (aspect rati

32 The internal jugular vein (IJ) is an attractive alternative

33 by US to be traveling within the ipsilateral internal jugular vein (IJ), were further adjusted before

34 Unilateral invasion of the internal jugular vein (IJV) after subtotal thyroidectomy

35 ppler, and duplex Doppler evaluations of the internal jugular vein (IJV) and vertebral vein.

36 acement of central venous catheters from the internal jugular vein (IJV) or the subclavian vein (SCV)

37 rotid (ICA) and vertebral (VA) arteries, the internal jugular vein (IJV), the superior sagittal (SSS)

38 sound-guided out-of-plane cannulation of the internal jugular vein (IJV).

39 brachiocephalic (BCV), subclavian (SCV) and internal jugular vein (IJV).

40 a the femoral vein in 17 patients, the right internal jugular vein in 4, and the left subclavian vein

41 il, we anastomosed the carotid artery to the internal jugular vein in normal and uremic mice and comp

42 Blood flows in the right/left internal jugular veins in the extracranial plane and the

43 ed by alternative sites (subclavian vein vs. internal jugular vein, incidence density ratio 0.46; 95%

44 -associated infection compared to femoral or internal jugular vein insertion.

45 Bilateral sampling of the internal jugular vein is simpler and safer.

46 We assessed the ultrasound-assessed internal jugular vein (JV) distensibility by ultrasound

47 ght, transverse, and sigmoid sinuses and the internal jugular veins on images obtained with the two s

48 mean number of catheters placed in the right internal jugular vein per patient was significant below

49 rating room where complete thrombosis of the internal jugular vein (recipient vessel) was observed.

50 ces were observed between the right and left internal jugular vein samples.

51 esses resulted from septic thrombosis of the internal jugular vein secondary to bacterial pharyngitis

52 unneled hemodialysis catheters via the right internal jugular vein showed equal or better long-term r

53 ial bolus was detected fluoroscopically, the internal jugular vein signal intensity was either not de

54 ravity, which is supported by the finding of internal jugular vein stagnant flow and thrombosis in so

55 Evidence of right internal jugular vein thrombosis was present in 25.9% of

56 'postanginal sepsis', 'necrobacillosis', or 'internal jugular vein thrombosis', is a rare but serious

57 xamination focused on the detection of right internal jugular vein thrombosis, with or without occlus

58 ients, the catheter was placed via the right internal jugular vein unless thrombosis was present.

59 o place a triple-lumen catheter in the right internal jugular vein using only anatomic landmarks for

60 ltrasonographic (US) evaluation of the right internal jugular vein was performed by interventional ra

61 ssection and segmental resection of the left internal jugular vein were performed, and the tumor thro

62 The left internal carotid artery and both internal jugular veins were cannulated and a flow probe

63 After 7 and 21 days, AVFs or contralateral internal jugular veins were processed for PCR, immunoflu

64 secutive catheters were placed via the right internal jugular vein with 100% success.