【Abstract】Objective The purpose of this study was to assess the feasibility and safety of placement of tunneled cuffed catheters by Nelf Percutaneous Acces Set in patients with occluded right and left innominate veins. Method It was a retrospective review of the use of Nelf Percutaneous Acces Set in tunneled catheter placement in patients with right and left innominate vein occlusions between April 2018 and August 2019. In all cases, the puncture needle was directed and advanced toward the angiographic catheter placed on the central side of the superior vena cava under fluoroscopic guidance. And then exchanged the guidewire and placed a tunneled central venous catheter. The outcome measures evaluated were technical success rate, catheter patency,
and complication rate. Results The procedure succeeded in all 35 patients. During follow-up [10 (6, 20) months], access failure was observed in two patients. The remained patients functioned well until the end of the follow-up period or until the death of the patient (n=1). No procedurErelated major complication occurred. The most common complication was mediastinal hematoma after puncture failure in three patients. The diameter of the maximum hematoma was 1.8 cm, and all resolved spontaneously. Conclusion In patients with exhaustion access, a tunneled central venous catheter can be safety placed by Nelf Percutaneous
Acces Set through the transcutaneous route.
[1]王玉柱,叶朝阳,金其庄.中国血液净化用血管通路专家共识(第二版)[J].中国血液净化, 2019, 18(06):365-381
[2]Vascular Access 2019 Work Group.KDOQI Clinical Practice Guideline for Vascular Access: 2019 Update. [J].American Journal of Kidney Diseases, 2020, 75(4Suppl2):S1-S164
[3]Zhang L, Zhao MH, Zuo L, et al.China Kidney Disease Network (CK-NET) 2015 annual data report. [J].Kidney Int Suppl , 2019, 9(1):e1-e8
[4]Agarwal A.K, Khabiri H, Haddad N.J..Complications of vascular access: superior vena cava syndrome. 2017; 69:309–313.[J].Am J Kidney Dis, 2017, 6(9):309-313
[5]Kundu S.Central venous obstruction management[J].Semin Intervent Radiol , 2009, 26(2):115-121
[6]Tordoir JH, Bode AS, Peppelenbosch N, et al.Surgical or endovascular repair of thrombosed dialysis vascular access: is there any evidence?[J].J Vasc Surg , 2009, 50(04):953-956
[7]McDevitt JL, Srinivasa RN, Gemmete JJ, et al.Approach, technical success, complications, and stent patency of sharp recanalization for the treatment of chronic venous occlusive disease: experience in 123 patients.[J].Cardiovasc Intervent Radiol, 2019, 42(2):205-212
[8]Sivananthan G, MacArthur DH, Daly KP, et al.Safety and efficacy of radiofrequency wire recanalization of chronic central venous occlusions[J].Journal of Vascular Access, 2015, 16(4):309-314
[9]Arabi M, Ahmed I, Mat’hami A, et al.Sharp central venous recanalization in hemodialysis patients: a single-institution experience[J].Cardiovasc Intervent Radiol, 2016, 39(6):927-934
[10]Malgor RD, Wood EA, Gasparis AP, et al.Endovascular strategy for recanalization of long-segment central vein occlusion with concomitant arteriovenous fistula creation.[J].Ann Vasc Surg, 2012, 26(7):1012-1012
[11]Hoon SP, Joonsung C, Jun HB.Central venous disease in hemodialysis patients.[J].Kidney Res Clin Pract., 2019, 38(3):309-317
[12]Rahman S, Kuban JD.Dialysis catheter placement in patients with exhausted access. [J].Tech Vasc Interv Radiol , 2017, 20(1):65-74
[13]Tushar J Vachharajani, Anil K Agarwal, Arif Asif.Vascular access of last resort. [J].Kidney Int. , 2018, 93(4):797-802
[14]Wan Z, Lai Q, Zhou Y, et al.Efficacy and safety of a mother-child technique for recanalization of chronic central venous occlusive disease in hemodialysis patients.[J].J Vasc Surg Venous Lymphat Disord., 2020, 8(1):558-564
[15]Morinière P, Rodary-Vautier R, Fillioux-Morfaux V, et al.Percutaneous recanalization of occlusion of central and proximal veins in chronic hemodialysis. [J].Kidney Int, 1997, 52(5):1406-1411
[16]Zhao Y, Yang L, Mai H, et al.Long-segment central venous occlusion in a hemodialysis patient treated by segmented sharp recanalization strategy: A case report.[J].Medicine, 2019, 98(16):e15208-e15208
[17]Salgado O.J, Urdaneta B, Colmenares B, et al.Right versus left internal jugular vein catheterization for hemodialysis: complications and impact on ipsilateral access creation.[J].Artif Organs, 2004, 28(8):728-733
[18]Glass C, Dugan M, Gillespie D, et al.Costoclavicular venous decompression in patients with threatened arteriovenous hemodialysis access[J].Ann Vasc Surg, 2011, 25(5):640-545
[19]Nicholas Inston, Aurangzaib Khawaja.Options for end stage vascular access: Translumbar catheter, arterial-arterial access or right atrial graft?[J]. J Vasc Access, 2020, 21(1):7-18
[20]Li, OL, No?l-Lamy, M, Sniderman, KW, et al.Translumbar tunneled hemodialysis line placement through the left gonadal vein.[J]. J Vasc Interv Radiol, 2016, 27(2):208-209
[21]Stavropoulos, SW, Pan, JJ, Clark, TWI, et al.Percutaneous transhepatic venous access for hemodialysis. [J].J Vasc Interv Radiol , 2003, 14(9Part1):1187-1190
[22]Liu, F, Bennett, S, Arrigain, S, et al.Patency and complications of translumbar dialysis catheters. [J].Semin Dial, 2015, 28(4):E41-E47
[23]Roman RS, Vladimir M, Wolfgang W, et al.A Novel Inside-out Access Approach for Hemodialysis Catheter Placement in Patients With Thoracic Central Venous Occlusion.[J].Am J Kidney Dis, 2020, 75(4):480-487
[24]Katzman HE, McLafferty RB, Ross JR, et al.Initial experience and outcome of a new hemodialysis access device for catheter-dependent patients.[J]. J Vasc Surgery, 2019, 50(3):600-607
[25]Carole P, Julien A, Bruno P, et al.Systematic Review of Atrial Vascular Access for Dialysis Catheter.[J]. Kidney Int Rep, 2020, 5(7):1000-1006
[26] J.Matsuura, A. Dietrich, S. Steuben.Mediastinal approach to the placement of tunneled hemodialysis catheters in patients with central vein occlusion in an outpatient access center.[J].J Vasc Access, 2011, 12(3):258-261
