Background Edge restenosis is a major problem after radioactive stenting. The cold-end stent has a radioactive mid-segment (15·9mm) and non-radioactive proximal and distal 5·7mm segments. Conceptually this may negate the impact of negative vascular remodelling at the edge of the radiation. Method and Results ECG-gated intravascular ultrasound with three-dimensional reconstruction was performed post-stent implantation and at the 6-month follow-up to assess restenosis within the margins of the stent and at the stent edges in 16 patients. Angiographic restenosis was witnessed in four patients, all in the proximal in-stent position. By intravascular ultrasound in-stent neointimal hyperplasia, with a >50% stented cross-sectional area, was seen in eight patients. This was witnessed proximally (n=2), distally (n=2) and in both segments (n=4). Echolucent tissue, dubbed the ‘black hole’ was seen as a significant component of neointimal hyperplasia in six out of the eight cases of restenosis. Neointimal hyperplasia was inhibited in the area of radiation: Δ neointimal hyperplasia=3·72mm3(8·6%); in-stent at the edges of radiation proximally and distally Δ neointimal hyperplasia was 7·9mm3(19·0%) and 11·4mm3(25·6%), respectively (P=0·017). At the stent edges there was no significant change in lumen volume. Conclusions Cold-end stenting results in increased neointimal hyperplasia in in-stent non-radioactive segments.

angioplasty, radioisotopes, remodelling, stents, ultrasonics,
European Heart Journal
Erasmus MC: University Medical Center Rotterdam

Kay, I.P, Wardeh, A.J, Kozuma, K, Sianos, G, Regar, E.S, Knook, M, … Serruys, P.W.J.C. (2001). The pattern of restenosis and vascular remodelling after cold-end radioactive stent implantation. European Heart Journal, 22(15), 1311–1317. doi:10.1053/euhj.2000.2542