The Common Femoral Artery Is a Fixed Arterial Segment.

BACKGROUND

The risk of stent fracture caused by the movements of the hip joint is one of the limitations of the endovascular treatment of the common femoral artery (CFA). The aim of this study was to describe and analyze the deformations of the iliofemoral axis during flexion and extension of the hip, and to evaluate the impact of stents implanted in the CFA on the deformations observed.

MATERIALS AND METHODS

This monocentric descriptive study was carried out on the pelvis obtained from three fresh cadavers (two men aged 72 and 71 years, respectively, and one 94-year-old woman). Arteriography was carried out to appreciate the deformations of the external iliac and common femoral arteries, and to analyze the femoral junctions. A first arteriography was carried out on native arteries, and a second one was carried out after the implantation of a stent in the CFA (Zilver PTX, Cook Medical, Bloomington, IN, USA). In all the cases, anterior and lateral images were obtained, with the hip maintained in extension (0°) or flexion (45°, 90°).

RESULTS

In a neutral position (extension), four points of deformation of the iliofemoral axis were identified in the frontal (A, B, C, and D) and sagittal (A', B', C', D') planes. These points were the vertices of the angles formed by the arterial deformation in the frontal and sagittal planes. These four points of deformation observed in the two planes appeared overlapping (A/A', B/B', C/C', and D/D') and were located on the external iliac artery, the origin of the CFA, the femoral bifurcation and the superficial femoral artery, respectively. In the frontal plane, all the angles closed during flexion, and the closure of the angle increased with the degree of flexion. In the sagittal plane, we observed that the angles with the A', C', and D' vertices closed during the flexion of the hip, and that the angle with the B' vertex opened during flexion. The higher was the degree of flexion, the more the angles were accentuated. The implantation of one stent in the CFA modified neither the localization of the points of deformation nor the modifications of angles previously observed on the frontal and the sagittal sections.

CONCLUSIONS

As seen from the front and side, the CFA is a fixed segment during the movements of extension and flexion of the hip. The implantation of a stent does not modify this observation.