Transposition of the cephalic vein in therapeutic rescue of cephalic arch stenosis.

Abstract

Autogenous arteriovenous fistulas (AVFs) are considered the most reliable long-term vascular access in patients undergoing haemodialysis. Although AVFs generally require fewer interventions than arteriovenous grafts (AVGs) to maintain patency, some sites of venous stenosis account for a large portion of repeated interventions. A particularly troublesome site within brachiocephalic AVFs is the cephalic arch. Cephalic arch stenosis (CAS) has been implicated in 19–77% of brachiocephalic fistula failures [1]. The cephalic arch has a unique architecture. In addition to containing a high concentration of valves and having a steep angulation, it crosses multiple tissue planes, bridging the superficial and deep venous systems while being tethered to rigid extravascular structures. These factors combine to make the cephalic arch particularly vulnerable to the development of stenotic lesions, as changes in vessel compliance produce turbulent flow. When an anastomosis is created between the brachial artery and the cephalic vein, the flow within the cephalic vein increases and the vessel starts dilating. However, the tissues surrounding the cephalic arch preclude its expansion, so that the cephalic vein narrows as it approaches its junction with the central veins. This sudden reduction in the circumference of a high-flow pathway results in an inflow–outflow mismatch, potentiating turbulence and the increased shear stress associated with it [1, 2]. When a CAS occurs, the management is not easy. Angioplasty of stenotic lesions involving the cephalic arch has limited effectiveness, which led investigators to seek surgical alternatives to treat these lesions and to preserve current fistula [1]. The option for cephalic vein transposition (CVT), described by Chen et al., involves surgical revision to redirect the blood flow to the adjacent patient veins. The surgical procedure entailed transecting the healthy portion of the cephalic vein distal to the stenotic segment in the arch, transposing and anastomosing it to the upper basilic [2] (Figure ​(Figure11). Fig. 1. Illustration of the cephalic vein transposition technique. We present the experience of our centre with upper arm CVT procedures in three haemodialysis patients who underwent haemodialysis treatment in the haemodialysis unit of Centro Hospitalar de Setubal E.P.E. Two of the 3 cases did not have the possibility of endovascular treatment. In these cases CVT to basilic vein made possible the preservation of vascular access. Both accesses are patents to date, 6 and 9 months, respectively. In the other case, the CVT allowed the reduction of percutaneous transluminal angioplasties (PTAs)/access-year in a patient with frequent recurrent CAS (requiring angioplasty in <3-month intervals) and is also patent to date (52 months).