ライフサイエンスコーパス: inferior vena cava

1 amber, subcostal four chamber, and subcostal inferior vena cava.

2 or mesenteric arterioles, or ligation of the inferior vena cava.

3 tolic function, RV size, and dilation of the inferior vena cava.

4 a constant infusion of [14C]lactate into the inferior vena cava.

5 blated by creating a lesion extending to the inferior vena cava.

6 ally created between the abdominal aorta and inferior vena cava.

7 re 9.3 times higher than those in the normal inferior vena cava.

8 i were created by injecting thrombi into the inferior vena cava.

9 rabbit thoracic aorta, pulmonary artery, and inferior vena cava.

10 overing extended from the portal vein to the inferior vena cava.

11 of a hydraulic constrictor placed around the inferior vena cava.

12 laparotomy and aspiration of blood from the inferior vena cava.

13 dentified within the cephalic portion of the inferior vena cava.

14 developed recurrent disease adjacent to the inferior vena cava.

15 mmon iliac arteries, common iliac veins, and inferior vena cava.

16 developed recurrent disease adjacent to the inferior vena cava.

17 of block from the superior vena cava to the inferior vena cava.

18 nduced by partial ligation (stenosis) of the inferior vena cava.

19 mes, and increased thrombus frequency in the inferior vena cava.

20 ownstream of the site of obstruction and the inferior vena cava.

21 otic obstruction of the iliofemoral veins or inferior vena cava.

22 from the femoral vein through the adjoining inferior vena cava.

23 ium/superior vena cava (1), and right atrium/inferior vena cava (1).

24 RV was transected in a plane parallel to the inferior vena cava, (2) relocation of the incision for o

25 vasculature (17 +/- 2%), thorax (14 +/- 2%), inferior vena cava (23 +/- 2%) and liver (23 +/- 2%) (al

26 ccluder on the descending thoracic aorta and inferior vena cava, a flow probe around the proximal lef

27 eiomyosarcomas that most commonly affect the inferior vena cava and account for 5% of all leiomyosarc

28 dy mimics the hepatic vein draining into the inferior vena cava and allows its localization without t

29 ive alternative that preserves the recipient inferior vena cava and allows uninterrupted venous blood

30 Artifacts limited the evaluation of the inferior vena cava and common iliac veins near the confl

31 olycystic native liver with narrow access to inferior vena cava and fragile venous wall may lead to v

32 variants of the adrenal vein drainage to the inferior vena cava and hepatic vein or of the inferior p

33 natomical landmarks were visualized from the inferior vena cava and hepatic veins and corroborated.

34 Blood samples were collected from the inferior vena cava and hepatic veins during right heart

35 f an hydraulic constrictor placed around the inferior vena cava and measured using an ultrasonic flow

36 luid vs. pressor treatment by evaluating the inferior vena cava and other cardiac structures.Lung ult

37 crease by transient balloon occlusion of the inferior vena cava and pulmonary artery, respectively.

38 ally relevant (>3 mm) apposition between the inferior vena cava and pulmonary venous atrium (cavoatri

39 ture through a region of overlap between the inferior vena cava and pulmonary venous atrium is feasib

40 sed to measure T1 of blood in the infrarenal inferior vena cava and renal veins after intravenous adm

41 rculations were drained from cannulae in the inferior vena cava and the femoral veins, with a tie on

42 The isthmus of atrial tissue bordered by the inferior vena cava and the tricuspid annulus forms a cri

43 the isthmus of the right atrium between the inferior vena cava and the tricuspid annulus with the ef

44 ibrin and platelet deposition in the ligated inferior vena cava, and diminished platelet activation i

45 from the right coronary artery (RCA) to the inferior vena cava, and from the RCA to the tricuspid va

46 sive study of the abdomen, heart, chest, and inferior vena cava, and many variations in technique, pr

47 determined during transient occlusion of the inferior vena cava, and repeat measurements were made af

48 Fontan procedure had lower ascending aortic, inferior vena cava, and total systemic blood flow compar

49 ed by digitonin perfusion into the portal or inferior vena cava, and was confirmed by histological ev

50 hrombosis induced by flow restriction in the inferior vena cava, APP-KO mice, as well as chimeric mic

51 ld be visualized unequivocally in the murine inferior vena cava as hot spots in vivo by simultaneous

52 eft ventricle cavity, left atrial cavity, or inferior vena cava as the IDIF.

53 , and ablation was performed from within the inferior vena cava at areas of esophageal contact.

54 p) with a return electrode positioned in the inferior vena cava (biphasic, microsecond pulses of 1300

55 (range, 63%-100%), whereas 55% +/- 19 of the inferior vena cava blood flowed to the left PA (range, 2

56 Liver resection with reconstruction of the inferior vena cava can be performed in selected cases.

57 n, or short hepatic vein dissection, and the inferior vena cava can be preserved, which provides adva

58 t recanalization of iliofemoral veins or the inferior vena cava can restore venous patency and improv

59 6; 95% confidence interval 0.65-0.89) or the inferior vena cava collapsibility index (area under the

60 tral venous pressure (R = 0.58), whereas the inferior vena cava collapsibility index and the internal

61 amic indicators, with a significantly higher inferior vena cava collapsibility index on day 0 than no

62 estimate of central venous pressure than the inferior vena cava collapsibility index or the internal

63 Inferior vena cava collapsibility index was not an indep

64 chycardia, low stroke volume index, and high inferior vena cava collapsibility index, which improved

65 function or contractility and assessment of inferior vena cava collapsibility.

66 We present a unique case, in which the inferior vena cava compression by a total artificial hea

67 The average distance to the RHV-inferior vena cava confluence was 28.7 mm.

68 Thoracic inferior vena cava constriction (TIVCC) is an experiment

69 ic pressure <=0.34 mm/mm Hg, and substantial inferior vena cava contrast reflux were associated with

70 alysis were available in 65 patients, as the inferior vena cava could not be visualized in two patien

71 aval shunt between the right portal vein and inferior vena cava detected on postnatal ultrasound exam

72 An inferior vena cava diameter < 2 cm predicted a central v

73 al venous pressure (< 10 mm Hg) was 0.91 for inferior vena cava diameter (95% confidence interval 0.8

74 d using transesophageal echocardiography, of inferior vena cava diameter (IVC) measured using transth

75 .75; p < 0.0001), respiratory variability of inferior vena cava diameter (r = 0.42; p < 0.01), and pu

76 The maximal inferior vena cava diameter correlated moderately with c

77 central venous pressure after adjusting for inferior vena cava diameter in a multiple linear regress

78 ely without vasopressor support, the maximal inferior vena cava diameter is a more robust estimate of

79 in height to width ratio (aspect ratio), the inferior vena cava diameter, and the percent collapse of

80 ty-time integral, respiratory variability of inferior vena cava diameter, or pulse pressure variation

81 hemodynamics including infrarenal aorta and inferior vena cava diameters (P > 0.18) or velocities (P

82 erior segment of the central isthmus (RCA to inferior vena cava distance).

83 The collapsibility index of the inferior vena cava during a deep standardized inspiratio

84 be foreshortened because it hides behind the inferior vena cava during laparoscopic transperitoneal d

85 reover, injection of angiotensin II into the inferior vena cava enhanced the binding in rat cardiac m

86 m/deep vein thrombosis (A 0%, B 24%, C 76%), inferior vena cava filter (A 0%, B 31%, C 69%), and rena

87 on for severity were assigned to retrievable inferior vena cava filter implantation plus anticoagulat

88 Insertion of a retrievable inferior vena cava filter in patients randomized to the

89 th VTE and with a significant bleeding risk, inferior vena cava filter insertion compared with antico

90 bolism), we assessed the association between inferior vena cava filter insertion for known significan

91 therapy, surgical pulmonary embolectomy, and inferior vena cava filter insertion.

92 The main outcome was the odds of inferior vena cava filter nonretrieval.

93 llowed within 30 days by anticoagulation, an inferior vena cava filter placement, or death.

94 Trauma patients and inferior vena cava filter placements were excluded.

95 pulmonary embolism, the use of a retrievable inferior vena cava filter plus anticoagulation compared

96 Whether early placement of an inferior vena cava filter reduces the risk of pulmonary

97 nting physicians is associated with improved inferior vena cava filter retrieval.

98 ient major thrombosis risk factors, avoiding inferior vena cava filter usage except in specified circ

99 The effectiveness of inferior vena cava filter use among patients with acute

100 dures were bowel resection, fecal diversion, inferior vena cava filter, gastric bypass, and paracente

101 ticoagulation, at what dose, placement of an inferior vena cava filter, monitoring for development of

102 tionated heparin (29%), dalteparin (40%), or inferior vena cava filters (20%) were not statistically

103 patients), thrombolytic drugs (3 patients), inferior vena cava filters (3 patients) and, eventually,

104 Inferior vena cava filters (IVCFs) are commonly used to

105 Inferior vena cava filters are commonly implanted and in

106 Although retrievable inferior vena cava filters are frequently used in additi

107 while interventions such as thrombolysis and inferior vena cava filters are reserved for limited circ

108 ts who underwent implantation of retrievable inferior vena cava filters at an academic quaternary car

109 We aim to define prolonged retrievable inferior vena cava filters dwell time by determining the

110 ectively collected registry of patients with inferior vena cava filters implanted from June 2011 to S

111 y was to investigate the survival effects of inferior vena cava filters in patients with venous throm

112 Patients with retrievable inferior vena cava filters in place beyond 7 months may

113 Although chronically implanted inferior vena cava filters may result in filter-related

114 urpose To inform the management of fractured inferior vena cava filters on the basis of results from

115 ed removal is effective in removing embedded inferior vena cava filters refractory to standard retrie

116 Inferior vena cava filters were placed in 46%.

117 positively impacted retrieval of retrievable inferior vena cava filters with prolonged dwell times; h

118 safety and efficacy of thrombolytic therapy, inferior vena cava filters, and embolectomy during pregn

119 hrombolysis is best reserved for severe VTE; inferior vena cava filters, ideally the retrievable vari

120 Despite growth in placement of retrievable inferior vena cava filters, retrieval rates remain low.

121 t anticoagulation may be more effective than inferior vena cava filtration devices for treating venou

122 ) baseline flow were performed by increasing inferior vena cava flow.

123 veins, superior vena cava (Glenn shunt), and inferior vena cava (Fontan conduit) (range, p = 0.913-0.

124 sults of combined resection of the liver and inferior vena cava for hepatic malignancy.

125 ulmonary embolism (five of 23; 22%), and the inferior vena cava (four of 23; 17%).

126 Inferior vena cava-grafted rats were injected with Lu-Te

127 ruitment after implantation as interposition inferior vena cava grafts in nude rats.

128 adrenal vein to the level of cortisol in the inferior vena cava >= 5.

129 Involvement of the inferior vena cava has traditionally been considered a c

130 right hilum and the posterior margin of the inferior vena cava (hilar-caval line) on lateral radiogr

131 nduced thrombosis created by ligation of the inferior vena cava, HO-1 expression is markedly induced.

132 Following ligation of the inferior vena cava, HO-1(-/-) mice exhibited increased n

133 halation Powder; n = 7) or infusion into the inferior vena cava (Humulin R; n = 6) using an algorithm

134 >4 points and a stenosis or occlusion of the inferior vena cava, iliac veins, or common femoral vein

135 ht atrial and right ventricular function and inferior vena cava improve the relation of Doppler filli

136 tion in 6 (9.1%), right atrium in 8 (12.1%), inferior vena cava in 1 (1.5%) and the coronary sinus in

137 ificantly increased net and peak flow in the inferior vena cava in end inspiration compared with end

138 s liver manipulation and improve exposure of inferior vena cava in patients with massive hepatomegaly

139 vein involvement, including extension to the inferior vena cava in two patients.

140 ition (portal perfusion with inflow from the inferior vena cava) in liver transplantation when portal

141 ne, the silicone covering ended short of the inferior vena cava, in two it ended short of the portal

142 smooth muscle tissues, such as the aorta and inferior vena cava, in which Mypt1 E23 is predominately

143 We hypothesize that inferior vena cava-inferior atrial ganglionated plexus n

144 orded during balloon catheter obstruction of inferior vena cava inflow.

145 Biodegradable TEVGs were implanted as inferior vena cava interposition conduits in 2 groups of

146 scaffolds that were surgically implanted as inferior vena cava interposition grafts in SCID/bg mice.

147 There was one false-positive diagnosis of inferior vena cava involvement at both MR imaging and US

148 s migration across endothelium obtained from inferior vena cava is CD18-dependent.

149 Rats underwent inferior vena cava isolation, cannulation, and instillat

150 venous portion of the medial tricuspid valve/inferior vena cava isthmus was attempted.

151 Successful treatment of chronic occlusion of inferior vena cava (IVC) and iliocaval confluence with a

152 ansplant with incidental finding of complete inferior vena cava (IVC) and obliteration.

153 d with psiepsilonRACK (1.5 nmol) through the inferior vena cava (IVC) and subsequently submerged in p

154 y propagation through an isthmus between the inferior vena cava (IVC) and tricuspid annulus (TA).

155 r excluding the IPVE, and using the aorta or inferior vena cava (IVC) as the input function.

156 F) nurses to deliver a predischarge lung and inferior vena cava (IVC) assessment (LUICA) to predict 9

157 easure the inside diameters of the aorta and inferior vena cava (IVC) at the top of L2 and the bottom

158 on pulse, (2) a presaturation pulse labeling inferior vena cava (IVC) blood (signal void), and (3) a

159 (+/- SD) was 14.6 +/- 5.9, with an aorta-to-inferior vena cava (IVC) CNR of 69.7 +/- 43.9.

160 Failure to remove a retrievable inferior vena cava (IVC) filter can cause severe complic

161 5 weeks after implantation of an absorbable inferior vena cava (IVC) filter in a swine model.

162 Our experience with inferior vena cava (IVC) filter placement to prevent pul

163 ion of overlapping heparin and warfarin, and inferior vena cava (IVC) filter placement were not indep

164 rcutaneous endoscopic gastrostomy (PEG), and inferior vena cava (IVC) filter placement.

165 amined the relationship between prophylactic inferior vena cava (IVC) filter use, mortality, and VTE.

166 Despite historically high rates of use, most inferior vena cava (IVC) filters are not retrieved.

167 Inferior vena cava (IVC) filters are widely used for pre

168 The use of inferior vena cava (IVC) filters for prevention of venou

169 The use of inferior vena cava (IVC) filters in this population has

170 erts are divided on the role of prophylactic inferior vena cava (IVC) filters to prevent PE.

171 [US]), use of anticoagulation, placement of inferior vena cava (IVC) filters, clinical outcomes, and

172 examine recent studies concerning the use of inferior vena cava (IVC) filters.

173 ing from lower loop reentry (LLR) around the inferior vena cava (IVC) has been described recently.

174 eeded, 1 unseeded control) were implanted as inferior vena cava (IVC) interposition grafts in juvenil

175 Obstruction of the inferior vena cava (IVC) is infrequent, membranous obstr

176 bolites with prothrombotic propensity in the inferior vena cava (IVC) ligation model.

177 clusive, neutrophil-rich clots after partial inferior vena cava (IVC) ligation than those that formed

178 wild-type (WT) littermates underwent partial inferior vena cava (IVC) ligation to induce venous throm

179 cardiac components of the venous flow in the inferior vena cava (IVC) of 14 Fontan patients and 11 no

180 mor who had intravascular extension into the inferior vena cava (IVC) or atrium were identified.

181 Chronically elevated inferior vena cava (IVC) pressure is implicated as one c

182 we show that 48-hour flow restriction in the inferior vena cava (IVC) results in the development of t

183 Inferior vena cava (IVC) size and collapsibility (IVC dy

184 we present an unusual case of nonanastomotic inferior vena cava (IVC) stenosis in a patient with a "p

185 Here, using a murine DVT model of inferior vena cava (IVC) stenosis, we demonstrate that m

186 Inferior vena cava (IVC) thrombosis is generally a contr

187 e treatment of chronic iliofemoral (I-F) and inferior vena cava (IVC) thrombosis.

188 dney cancer is associated with renal vein or inferior vena cava (IVC) thrombus in up to 10% of cases.

189 PV access from the inferior vena cava (IVC) to the main PV was performed in

190 PCS); the second had occlusion involving the inferior vena cava (IVC) treated by a portal decompressi

191 It has been suggested for the use of inferior vena cava (IVC) value instead of FHVP to calcul

192 teric vein, splenic vein, hepatic veins, and inferior vena cava (IVC) were evaluated for thrombosis o

193 h interruption of the hepatic segment of the inferior vena cava (IVC) were the vascular anomalies.

194 The superior vena cava (SVC), inferior vena cava (IVC), and hepatic veins are connecte

195 anscriptional profile of the mouse aorta and inferior vena cava (IVC), not restricting our analysis t

196 nk which drains into the middle hepatic vein/inferior vena cava (IVC), subtype 1a length of trunk >=9

197 required resection and reconstruction of the inferior vena cava (IVC), were reviewed.

198 Ten inferior vena cava (IVC)-SMV punctures were performed in

199 d in managing tumors with extension into the inferior vena cava (IVC).

200 tenotic/occluded iliofemoral veins (IFV) and inferior vena cava (IVC).

201 ioned in an isolated segment of retrohepatic inferior vena cava (IVC).

202 Flow rates were measured within the TIPS and inferior vena cava (IVC).

203 t of thrombi following by flow stasis in the inferior vena cava (IVC).

204 vein (PV) and infrahepatic and suprahepatic inferior vena cava (IVC).

205 d flow rates through the superior vena cava, inferior vena cava, left pulmonary artery, and right pul

206 ct onto two previously noted fat pads at the inferior vena cava-left atrial junction (IVC-LA fat pad)

207 Baseline renal vein and inferior vena cava levels of inflammatory markers were m

208 ed susceptibility to venous thrombosis after inferior vena cava ligation at 12 or 18 months of age (P

209 fibrinolysis on thrombosis were examined by inferior vena cava ligation in congenic mice with and wi

210 Venous thrombosis was induced by inferior vena cava ligation in mice with genetic deletio

211 l to chronic deep venous thrombi, the murine inferior vena cava ligation model was used to study the

212 l deletion of PTP1B (End.PTP1B-KO) underwent inferior vena cava ligation to induce stenosis and venou

213 attenuated venous thrombosis induced by the inferior vena cava ligation-induced stenosis or stasis i

214 bus formation after carotid artery injury or inferior vena cava ligation.

215 ere also elevated in End.PTP1B-KO mice after inferior vena cava ligation.

216 interest were constructed within the aorta, inferior vena cava, liver, spleen, renal cortex, muscle,

217 a higher velocity than that from the caudal inferior vena cava (mean velocity, 57 +/- 13 versus 16 +

218 = 2) and impingement of a solid tumor on the inferior vena cava (n = 1).

219 Stent sites included the inferior vena cava (n = 10) and common iliac (n = 31), e

220 vascular thromboses, including those in the inferior vena cava (n = 10), portal and superior mesente

221 Both patients also had symptoms of inferior vena cava obstruction, with azotemia and lower

222 inst the field-standard metrics derived from inferior vena cava occlusion (IVCO).

223 Inferior vena cava occlusion at all experimental stages

224 subjects, temporary preload reduction during inferior vena cava occlusion initially induced an expans

225 Transient inferior vena cava occlusion was used to rapidly and rev

226 acute inferior vena cava thrombosis, chronic inferior vena cava occlusion, and pain from retroperiton

227 ssure-volume loop data obtained during acute inferior vena cava occlusion.

228 curred in 11.4% vs 10.9% and thrombus in the inferior vena cava occurred in 3.8% and 7.7%, respective

229 The most common site of CaDVT was the inferior vena cava, occurring in 33 (50%) of cases, with

230 Deep vein thrombosis was induced in the inferior vena cava of male BALB/C mice.

231 fluorescent platelet microparticles into the inferior vena cava of mice and harvested endothelial cel

232 positive endothelial cells isolated from the inferior vena cava of normal pigs.

233 Injection of NbE-1 cells into the inferior vena cava of syngeneic rats indicated that thes

234 ons were delivered in 4 and 1 swine from the inferior vena cava onto a forcefully deviated esophagus.

235 mitant vascular reconstruction of either the inferior vena cava or hepatic veins was performed in fiv

236 Despite significant inferior vena cava or hepatic venous compression in 65%,

237 kg (median, 18 kg) kg of whom 4 had occluded inferior vena cava or iliac veins and 2 had previous com

238 erwent induction of stasis-induced VT of the inferior vena cava or jugular vein.

239 gi or stellate ganglia; (3) occlusion of the inferior vena cava or thoracic aorta; (4) transient vent

240 in, defined as the lower of the superior and inferior vena cava oxygen saturations.

241 rformed partial ligation of the suprahepatic inferior vena cava (pIVCL) to simulate congestive hepato

242 hepatopathy through partial ligation of the inferior vena cava (pIVCL).

243 ontusion extending into the hepatic vein(s), inferior vena cava, porta hepatis, or gallbladder fossa.

244 s diagnosed with extensive thromboses of the inferior vena cava, portal vein, and hepatic veins, was

245 extracorporeal bypass, each animal underwent inferior vena cava, portal vein, and right atrial cannul

246 dications, patients had significantly higher inferior vena cava pressures (15.6 versus 13.7 mm Hg; P=

247 During each procedure, portal and inferior vena cava pressures were invasively measured an

248 er was reconstructed or reimplanted into the inferior vena cava primarily (n = 8) or using segments o

249 Even without partial-volume correction, the inferior vena cava provides a reliable and reproducible

250 gate whether the collapsibility index of the inferior vena cava recorded during a deep standardized i

251 Cerebral cortex, tympanic membrane, inferior vena cava, rectal temperatures, electrocardiogr

252 were anastomosed to the abdominal aorta and inferior vena cava, respectively, of the (splenectomized

253 to-side to the recipient abdominal aorta and inferior vena cava, respectively.

254 significant differences in pressure between inferior vena cava, right atrium, and left atrium were f

255 After catheterization of the inferior vena cava, right atrium, foramen ovale, and lef

256 ava and the femoral veins, with a tie on the inferior vena cava separating the two.

257 on [95% each]; the lowest proportion was for inferior vena cava size [75%]).

258 was accounted for (aortic valve was 91% and inferior vena cava size was 58%).

259 surement (aortic valve was 96% [highest] and inferior vena cava size was 78% [lowest]) and decreased

260 When adjusted for age, LVEF, inferior vena cava size, and RV size and function, survi

261 usion, valve morphology, and left atrial and inferior vena cava sizes.

262 In an inferior vena cava stasis model of venous thrombosis, Fg

263 d complete protection from thrombosis in the inferior vena cava stasis model.

264 hrombus mass relative to FgaWT/WT mice after inferior vena cava stasis, suggesting that partial expre

265 between tumor-bearing and control mice in an inferior vena cava stenosis model.

266 AD4(-/-) mice produced a thrombus 48 h after inferior vena cava stenosis whereas 90% of wild-type mic

267 ombosis in a restricted-flow model of murine inferior vena cava stenosis.

268 bolism, and in mice developing DVT following inferior vena cava stenosis.

269 The domino recipient developed inferior vena cava stricturing at the level of anastomos

270 was refluxed from the right atrium into the inferior vena cava subsequently passed through the foram

271 ear lesion from the lateral atriotomy to the inferior vena cava, superior vena cava, or tricuspid ann

272 Left renal vein suppression, inferior vena cava suppression, motion artifact, and ima

273 rial central line of conduction block to the inferior vena cava terminated and prevented the reinduct

274 Deep venous thrombosis (6%-32%) and inferior vena cava thrombosis (3.6%-11.2%) after filter

275 ents with a principal discharge diagnosis of inferior vena cava thrombosis (International Classificat

276 use of CDT in the treatment of patients with inferior vena cava thrombosis in the United States.

277 ected thrombolysis (CDT) in the treatment of inferior vena cava thrombosis is unknown.

278 Among 2674 patients admitted with inferior vena cava thrombosis, 718 (26.9%) underwent CDT

279 al indications included filter-related acute inferior vena cava thrombosis, chronic inferior vena cav

280 return from the right or left lung into the inferior vena cava, through drainage into the hepatic ve

281 was drained at 1431.2+/-25.4 mL/min from the inferior vena cava, through the plasma separation chambe

282 rough inflation of a balloon catheter in the inferior vena cava to identify the lower limit of cerebr

283 loon catheter positioned in the retrohepatic inferior vena cava to shunt hepatic venous effluent thro

284 Puncture through the inferior vena cava to the pulmonary venous atrium may be

285 s to the crista terminalis; and (3) from the inferior vena cava to the tricuspid annulus.

286 Mouse inferior vena cava-to-carotid interposition isografts we

287 volume index and collapsibility index of the inferior vena cava under a deep standardized inspiration

288 the lower esophagus was deflected toward the inferior vena cava using an esophageal deviation balloon

289 ejection fraction, mitral regurgitation, and inferior vena cava variability) and correlated abnormali

290 Employing a standard inferior vena cava vascular interposition graft model in

291 r intraluminal shunts were inserted into the inferior vena cava via right atriotomy.

292 Inferior vena cava VT mice (n=44) were randomized to dai

293 d factor and recruitment of platelets to the inferior vena cava wall after DVT induction were reduced

294 We used apoE-null mice in which a segment of inferior vena cava was grafted into the right carotid ar

295 The donor bladder with abdominal aorta and inferior vena cava was isolated and orthotopically sutur

296 Transient partial occlusion of the inferior vena cava was used to assess the pulmonary arte

297 ydraulic occluders on the thoracic aorta and inferior vena cava were used to control MAP, which was m

298 at artery alignment defects, and interrupted inferior vena cava with azygos continuation.

299 th left-sided gallbladder and an interrupted inferior vena cava with azygous continuation.

300 va diameter, and the percent collapse of the inferior vena cava with inspiration (collapsibility inde