Restricted accessOtherFirst published online 2019-3
Society of Interventional Radiology Reporting Standards for Thoracic Central Vein Obstruction: Endorsed by the American Society of Diagnostic and Interventional Nephrology (ASDIN),British Society of Interventional Radiology (BSIR),Canadian Interventional Radiology Association (CIRA),Heart Rhythm Society (HRS),Indian Society of Vascular and Interventional Radiology (ISVIR),Vascular Access Society of the Americas (VASA),and Vascular Access Society of Britain and Ireland (VASBI)
GroveJRPevecWC.Venous thrombosis related to peripherally inserted central catheters. J Vasc Interv Radiol2000; 11: 837–840.
14.
AllenAWMegargellJLBrownDBet al. Venous thrombosis associated with the placement of peripherally inserted central catheters. J Vasc Interv Radiol2000; 11: 1309–1314.
15.
GonsalvesCFEschelmanDJSullivanKLet al. Incidence of central vein stenosis and occlusion following upper extremity PICC and port placement. Cardiovasc Intervent Radiol2003; 26: 123–127.
16.
AlbisettiMKellenbergerCJBergsträsserEet al. Port-a-cath-related thrombosis and postthrombotic syndrome in pediatric oncology patients. J Pediatr2013; 163: 1340–1346.
17.
DaCostaSSScalabriniNACostaRet al. Incidence and risk factors of upper extremity deep vein lesions after permanent transvenous pacemaker implant: a 6-month follow-up prospective study. Pacing Clin Electrophysiol2002; 25: 1301–1306.
18.
OginosawaYAbeHNakashimaY.The incidence and risk factors for venous obstruction after implantation of transvenous pacing leads. Pacing Clin Electrophysiol2002; 25: 1605–1611.
19.
LickfettLBizenAArepallyAet al. Incidence of venous obstruction following insertion of an implantable cardioverter defibrillator. A study of systematic contrast venography on patients presenting for their first elective ICD generator replacement. Europace2004; 6: 25–31.
RoodenCJTesselaarMEOsantoSet al. Deep vein thrombosis associated with central venous catheters—a review. J Thromb Haemost2005; 3: 2409–2419.
22.
GlaserDWMedeirosDRollinsNet al. Catheter-related thrombosis in children with cancer. J Pediatr2001; 138: 255–259.
23.
JourneycakeJMBuchananGR.Thrombotic complications of central venous catheters in children. Curr Opin Hematol2003; 10: 369–374.
24.
KuterDJ.Thrombotic complications of central venous catheters in cancer patients. Oncologist2004; 9: 207–216.
25.
Revel-VilkSYacobovichJTamaryHet al. Risk factors for central venous catheter thrombotic complications in children and adolescents with cancer. Cancer2010; 116: 4197–4205.
26.
Gonzalez-HernandezJDaoudYStyersJet al. Central venous thrombosis in children with intestinal failure on long-term parenteral nutrition. J Pediatr Surg2016; 51: 790–793.
BarrettNSpencerSMcIvorJet al. Subclavian stenosis: a major complication of subclavian dialysis catheters. Nephrol Dial Transplant1988; 3: 423–425.
29.
ClarkDDAlbinaJEChazanJA.Subclavian vein stenosis and thrombosis: a potential serious complication in chronic hemodialysis patients. Am J Kidney Dis1990; 15: 265–268.
30.
SchillingFSchillingDMontagneRet al. Post catheterization vein stenosis in hemodialysis: comparative angiographic study of 50 subclavian and 50 internal jugular accesses. Nephrol Dial Transplant1991; 6: 722–724.
31.
JeanGVanelTChazotCet al. Prevalence of stenosis and thrombosis of central veins in hemodialysis after a tunneled jugular catheter. Nephrologie2001; 22: 501–504.
32.
HernandezDDiazFRefineMet al. Subclavian vascular access stenosis in dialysis patients:natural history and risk factors. J Am Soc Nephrol1998; 9: 1507–1510.
33.
JassalSVPierratosARoscoeJM.Venous stenosis and thrombosis associated with the use of internal jugular vein catheters for hemodialysis. ASAIO J1999; 45: 356–359.
34.
TaalMWChestertonIJMcIntyreCW.Venography at insertion of tunneled internal jugular vein dialysis catheters reveals significant occult stenosis. Nephrol Dial Transplant2004; 19: 1542–1545.
35.
OguzkurtLTercanFTorunDet al. Impact of short-term hemodialysis catheters on the central veins: a catheter venographic study. Eur J Radiol2004; 52: 293–299.
36.
MacRaeJMAhmedAJohnsonNet al. Central vein stenosis: a common problem in patients on hemodialysis. ASAIO J2005; 51: 77–81.
37.
KoretsAChagnacAOriYet al. Subclavian vein stenosis, permanent cardiac pacemakers and the hemodialysed patient. Nephron1991; 58: 103–105.
38.
AsifASalmanLHLoperaGGet al. The dilemma of transvenous cardiac rhythm devices in hemodialysis patients: time to consider the epicardial approach?Kidney Int2011; 79: 1267–1269.
39.
OguzkurtLTercanFYildirimSet al. Central venous stenosis in haemodialysis patients without a previous history of catheter placement. Eur J Radiol2005; 55: 237–242.
40.
SchoenfeldRHermansHNovickAet al. Stenting of proximal venous obstructions to maintain hemodialysis access. J Vasc Surg1994; 19: 532–539.
41.
LumsdenABMacDonaldMJIsiklarHet al. Central venous stenosis in the hemodialysis patient: incidence and efficacy of endovascular treatment. Cardiovasc Surg1997; 5: 504–509.
42.
VeselyTMHovsepianDMPilgramTKet al. Upper extremity central venous obstruction in hemodialysis patients: treatment with Wallstents. Radiology1997; 204: 343–348.
43.
HaagePVorwerkDPirothWet al. Treatment of hemodialysis-related central venous stenosis or occlusion: results of primary Wallstent placement an follow-up in 50 patients. Radiology1999; 212: 175–180.
44.
RajanDKSalujaJS.Use of nitinol stents following recanalization of central venous occlusions in hemodialysis patients. Cardiovasc Intervent Radiol2007; 30: 662–667.
45.
SprouseLRLesarCJMeierGHet al. Percutaneous treatment of symptomatic central venous stenosis angioplasty. J Vasc Surg2004; 39: 578–582.
46.
Anaya-AyalaJESmolockCJColvardBAet al. Efficacy of covered stent placement for central venous occlusive disease in hemodialysis patients. J Vasc Surg2011; 54: 754–759.
47.
BarshesNRAnnambhotlaSEl SayedHFet al. Percutaneous stenting of superior vena cava syndrome: treatment outcome in patients with benign and malignant etiology. Vascular2007; 15: 314–321.
48.
AlbersELPughMEHillKDet al. Percutaneous vascular stent implantation as treatment for central vascular obstruction due to fibrosing mediastinitis. Circulation2011; 123: 1391–1399.
49.
AsifASalmanLCarrilloRGet al. Patency rates for angioplasty in the treatment of pacemaker-induced central venous stenosis in hemodialysis patients: results of a multi-center study. Semin Dial2009; 22: 671–676.
50.
LevitRDCohenRMKwakAet al. Asymptomatic central venous stenosis in hemodialysis patients. Radiology2006; 238: 1051–1056.
51.
JonesRGWillisAPJonesCet al. Long-term results of stent-graft placement to treat central venous stenosis and occlusion in hemodialysis patients with arteriovenous fistulas. J Vasc Interv Radiol2011; 22: 1240–1245.
52.
SmayraTOtalPChabbertVet al. Long-term results of endovascular stent placement in the superior caval venous system. Cardiovasc Intervent Radiol2001; 24: 388–394.
53.
ItkinMKrausMJTrerotolaSO.Extrinsic compression of the left innominate vein in hemodialysis patients. J Vasc Interv Radiol2004; 15: 51–56.
54.
DauberW.Veins. In: DauberW (ed.) Pocket atlas of human anatomy. 5th Revised ed. Stuttgart: Thieme, 2007, pp. 273–296.
55.
BaskinKMJimenezRMCahillAMet al. Cavoatrial junction and central venous anatomy: implications for central venous access tip position. J Vasc Interv Radiol2008; 19: 359–365.
56.
WebbWRGamsuGSpeckmanJMet al. Computed tomographic demonstration of mediastinal venous anomalies. AJR Am J Roentgenol1982; 139: 157–161.
57.
WilliamsonAHoggartB.Pain: a review of three commonly used pain rating scales. J Clin Nursing2005; 14: 798–804.
VedanthamSGrassiCJFerralHet al. Reporting standards for endovascular treatment of lower extremity deep vein thrombosis. J Vasc Interv Radiol2006; 17: 417–434.
60.
BjarnasonHKruseJRAsingerDAet al. Iliofemoral deep venous thrombosis: safety and efficacy outcome during 5 years of catheter-directed thrombolytic therapy. J Vasc Interv Radiol1997; 8: 405–418.
61.
MewissenWMSeabrookGRMeissnerMHet al. Catheter-directed thrombolysis for lower extremity deep venous thrombosis: report of a national multicenter registry. Radiology1999; 211: 39–49.
62.
ParikhSMotarjemeAMcNamaraTet al. Ultrasound-accelerated thrombolysis for the treatment of deep vein thrombosis: initial clinical experience. J Vasc Interv Radiol2008; 19: 521–528.
63.
BrunnerL.The Lippincott manual of nursing practice. 3rd ed.Philadelphia, PA: J. B. Lippincott, 1982.
64.
TrayesKPStuddifordJSPickleSet al. Edema: diagnosis and management. Am Fam Physician2013; 88: 102–110.
65.
O’SullivanSBSchmitzTJ (eds). Physical rehabilitation: assessment and treatment. 5th ed.Philadelphia, PA: F. A. Davis, 2007.
BrodoviczKGMcNaughtonKUemuraNet al. Reliability and feasibility of methods to quantitatively assess peripheral edema. Clin Med Res2009; 7: 21–31.
70.
WhitneySLMattocksLIrrgangJJet al. Reliability of lower extremity girth measurements and right—and left-side differences. J Sport Rehabil1995; 4: 108–115.
71.
LabsKHTschoeplMGambaGet al. The reliability of leg circumference assessment: a comparison of spring tape measurements and optoelectronic volumetry. Vasc Med2000; 5: 69–74.
72.
FunakiBKimRLorenzJet al. Using pullback pressure measurements to identify venous stenoses persisting after successful angioplasty in failing hemodialysis grafts. AJR Am J Roentgenol2002; 178: 1161–1165.
73.
LabropoulosNBorgeMPierceKet al. Criteria for defining significant central vein stenosis with duplex ultrasound. J Vasc Surg2007; 46: 101–107.
74.
LeontievOMondscheinJIDagliMSet al. Catheter-based intraaccess blood flow measurement as a problem-solving tool in hemodialysis access intervention. J Vasc Intervent Radiol2013; 24: 717–721.
