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1 ined by a collapsible tube representing the "jugular vein".
2 rome due to thrombophlebitis of the external jugular vein.
3 ated thrombus formation in the left internal jugular vein.
4 oral artery, one femoral vein, and the right jugular vein.
5 ed the time to occlusion after injury to the jugular vein.
6 single donor platelets through the external jugular vein.
7 planted in the left carotid artery and right jugular vein.
8 le and catheters into the carotid artery and jugular vein.
9 e in a pouch created from the right external jugular vein.
10 eter was placed in minipigs via the internal jugular vein.
11 laced in the main pulmonary artery through a jugular vein.
12 gastrostomy tube or a catheter placed in the jugular vein.
13 a cannula passed through the right external jugular vein.
14 asis-induced VT of the inferior vena cava or jugular vein.
15 nificantly increased fibrin formation in the jugular vein.
16 stasis after penetrating injury of the mouse jugular vein.
17 veins, and anomalies of the jugular bulb and jugular vein.
18 ealthy sheep via a dual-lumen cannula in the jugular vein.
19 onnecting the internal carotid artery to the jugular vein.
20 e: a septic thrombophlebitis of the internal jugular vein.
21 between the carotid artery and the internal jugular vein.
22 in the abdominal aorta and 1 in the internal jugular vein.
23 tricular nucleus (PVN) and a catheter in the jugular vein.
24 ch introducer sheath inserted into the right jugular vein.
25 measure the JVP at the external and internal jugular veins.
27 al or external jugular veins: right internal jugular vein, 28; left internal jugular vein, 14; right
29 B-mode ultrasound imaging of the internal jugular vein also proved the validity of the proposed me
33 amples were obtained from the right internal jugular vein and brachial artery to determine concentrat
35 -lumen catheter was inserted in the external jugular vein and connected to the Hemolung, an extracorp
37 ts equipped with microdialysis probes in the jugular vein and hippocampus received an intravenous inf
40 blished a stasis-induced DVT model in murine jugular veins and also a novel model of recurrent stasis
41 resonance imaging velocity mapping of their jugular veins and aorta in room air, hypercarbia, and 10
44 morphologic features of flow in the internal jugular veins and vertebral veins were found between MS
45 avital microscopy of the carotid artery, the jugular vein, and cremasteric arterioles and venules in
46 h was significantly higher than the internal jugular vein aspect ratio (area under the curve 0.76; 95
47 a cava collapsibility index and the internal jugular vein aspect ratio showed poor correlation (R = 0
49 ere drawn from the fetal brachial artery and jugular veins at several time points during the cycle.
50 hermodilution catheter in the right internal jugular vein; b) a right carotid artery catheter for mea
52 logical PaCO2, alpha-stat strategy increases jugular vein blood desaturation and cerebral oxygen extr
69 experience (p < 0.001); failure of internal jugular vein catheterization was associated with left-si
71 h multisensor telemetry devices and internal jugular vein catheters before being infected with Zaire
72 l Sprague-Dawley rats had carotid artery and jugular vein catheters chronically implanted, as well as
73 Here we present a procedure for handmade jugular vein catheters designed for head-mounted intrave
74 mates were implanted with carotid artery and jugular vein catheters for sampling and infusions at 4 m
76 ection, dabigatran reduced bacterial load on jugular vein catheters, as well as metastatic kidney inf
78 ess rate of ultrasound-guided right internal jugular vein central venous catheter placement was 96.9%
82 ena cava stenosis due to a tunneled internal jugular vein dialysis catheter presented with hematemesi
83 s of AHF (e.g. dyspnoea, orthopnoea, oedema, jugular vein distension, and variation of body weight) a
85 ever, we observed with both cultured porcine jugular vein ECs and perfused veins that venous ECs can
87 The cDNA for MCP-1 was cloned from a canine jugular vein endothelial cell (CJVEC) library and exhibi
88 tudies with infarction, incubation of canine jugular vein endothelial cells with postischemic cardiac
91 at the jugular foramen, through the internal jugular veins (extracardiac vagal stimulation [ECVS]), a
92 s, inferior petrosal sinus, and the internal jugular vein), femoral vein, and radial artery of patien
93 ing 7 days before end-to-side carotid artery-jugular vein fistula creation and for up to 42 days afte
96 ers were implanted into a carotid artery and jugular vein for sampling and infusions at 4 month of ag
97 rast, injection of 10 mug of GsMTx4 into the jugular vein had no effect on the pressor, cardioacceler
101 be traveling within the ipsilateral internal jugular vein (IJ), were further adjusted before procedur
104 f central venous catheters from the internal jugular vein (IJV) or the subclavian vein (SCV) can resu
105 A) and vertebral (VA) arteries, the internal jugular vein (IJV), the superior sagittal (SSS) and stra
108 oral vein in 17 patients, the right internal jugular vein in 4, and the left subclavian vein in 2 pat
109 ted that the carotid artery moved behind the jugular vein in 85% of the patients in both groups.
112 astomosed the carotid artery to the internal jugular vein in normal and uremic mice and compared thes
115 ernative sites (subclavian vein vs. internal jugular vein, incidence density ratio 0.46; 95% confiden
116 ion of stepwise increments of intravenously (jugular vein) infused ammonia is almost totally dependen
118 ic clamp, all animals were cannulated in the jugular vein (infusion) and carotid artery (sampling).
119 cannulated in the carotid artery (sampling), jugular vein (infusion), and portal vein (infusion), und
120 cannulated in the carotid artery (sampling), jugular vein (infusion), and portal vein (infusion).
121 cannulated in the carotid artery (sampling), jugular vein (infusion), and portal vein, either adjacen
123 ely 2.5 mmol/l) clamps with either portal or jugular vein infusions of lactate, pyruvate, or BHB.
128 lycemia (2.48+/-0.09 mmol/l) was induced via jugular vein insulin infusion (50 mU x kg(-1) x min(-1))
129 lycemia (2.4 +/- 0.1 mmol/l) was induced via jugular vein insulin infusion (50 mU x kg(-1) x min[-1])
130 onary artery catheters were inserted via the jugular vein into the left and right lower lobar pulmona
131 arterialization in mice wherein the external jugular vein is connected to the common carotid artery.
133 We assessed the ultrasound-assessed internal jugular vein (JV) distensibility by ultrasound as a noni
136 into two study groups: control animals, with jugular vein ligation but no ECMO (n = 6), and ECMO anim
137 reathing affected the mean flow rates in the jugular veins more than those in the SSS and straight si
138 model in which a patch cut from the external jugular vein of a mouse is grafted to repair a surgicall
141 mosed to the carotid artery and the external jugular vein of naive minor-mismatched recipients treate
144 [2,4,6,8-13C4]octanoate was infused into the jugular vein of the intact rat (n = 10) and the sciatic
145 us lines were introduced into right external jugular veins of 254 animals in three groups: enoxaparin
146 s following the onset of injury, whereas the jugular veins of 4 mice deficient in PAI-1 and 4 deficie
147 at did not consume oxygen, were implanted in jugular veins of systemically heparinized rats and used
148 Radiolabeled clots were injected into the jugular veins of wild-type mice and mice heterozygous (f
149 sverse, and sigmoid sinuses and the internal jugular veins on images obtained with the two sequences.
154 7-1.18) versus 0.94 (0.89-1.05) (p = 0.027), jugular vein oxygen saturation was 79.2 (71.1-81.8) vers
156 ral artery flow velocities using Doppler and jugular vein oxygen saturation were measured in both str
157 er of catheters placed in the right internal jugular vein per patient was significant below the level
159 e descending abdominal aorta) and catheters (jugular vein, peritoneal cavity, and distal abdominal ao
160 atin (0.07-1.42 nmol/kg) into cannulated rat jugular vein produced a 20-85 mmHg reduction of blood pr
162 ing 25-mum plastic microspheres in the right jugular vein, producing mild or moderate pulmonary hyper
165 enoviral vectors encoding betaARKct into the jugular vein represents a viable strategy to treat AV gr
166 ers were placed via the internal or external jugular veins: right internal jugular vein, 28; left int
167 central to peripheral ACTH were negative in jugular vein samples and petrosal sinus samples before a
168 CRH and > 3 after administration of CRH) in jugular vein samples from 16 of 20 patients with surgica
169 erage ratio of central to peripheral ACTH in jugular vein samples was 2.7 before CRH and 7.7 after CR
170 eripheral ACTH in petrosal sinus samples and jugular vein samples were calculated before and after ad
172 tients underwent petrosal sinus sampling and jugular vein sampling before and after administration of
177 ranslocation on myointimal formation, rabbit jugular vein segments were incubated with polymers (10 m
178 emodialysis catheters via the right internal jugular vein showed equal or better long-term results th
180 was detected fluoroscopically, the internal jugular vein signal intensity was either not detectable
181 hich is supported by the finding of internal jugular vein stagnant flow and thrombosis in some astron
184 e developed a puncture injury model in mouse jugular veins that combines high-resolution, multimodal
186 nal sepsis', 'necrobacillosis', or 'internal jugular vein thrombosis', is a rare but serious emerging
187 n focused on the detection of right internal jugular vein thrombosis, with or without occlusion.
191 r cannulation of the left carotid and common jugular vein to construct a simple arteriovenous shunt.
195 30 kg, through an 8F sheath in the external jugular vein to obtain pulmonary endoarterial samples.
196 to deliver recording electrodes through the jugular vein to superior sagittal sinus is safe and feas
199 triple-lumen catheter in the right internal jugular vein using only anatomic landmarks for guidance.
201 o or three porcine thrombi into the external jugular vein via a surgically implanted 24-F sheath.
202 s detected in the fat depot, in the external jugular vein wall and in adjacent tissue at clinically r
203 perated area extending and invading the left jugular vein wall with hypervascular tumor thrombus.
204 mice, the carotid artery to the ipsilateral jugular vein was connected to create an AVF, and CorMatr
205 crorobots' activity and dynamics in a rabbit jugular vein was monitored, illustrating very effective
206 plasma peptide levels via cannulation of the jugular vein was performed after subcutaneous injection
207 raphic (US) evaluation of the right internal jugular vein was performed by interventional radiologist
209 laced between carotid artery and ipsilateral jugular vein was used to assess effects of PGZ/fat depot
210 catheterized mouse model (carotid artery and jugular vein), we show that AMPK regulates skeletal musc
211 from fat depots transplanted perivascular to jugular vein were assessed by HPLC/MS/MS, and retention
212 heter thrombosis, catheters implanted in the jugular vein were assessed daily until they occluded, up
214 bolus injections of Plg or infusion into the jugular vein were ineffective in restoring the ASR in th
215 and segmental resection of the left internal jugular vein were performed, and the tumor thrombus was
216 explants placed perivascular to the external jugular vein were retained, as confirmed by MRI at one w
217 ft internal carotid artery and both internal jugular veins were cannulated and a flow probe was place
219 and 21 days, AVFs or contralateral internal jugular veins were processed for PCR, immunofluorescence
220 ter failure, particularly CVCs placed in the jugular vein, which are highly vulnerable to pullout for
223 erwent cannulation of the carotid artery and jugular vein with percutaneous 10F arterial and 14F veno