Regional Remodeling as the Cause of Late Stent Malapposition

Abstract

Background— Late stent malapposition (LSM) is only detected if intravascular ultrasound (IVUS) is performed at implantation and follow-up. We used a novel “regional” IVUS analysis to assess the mechanism of LSM. Methods and Results— Corresponding image slices on postimplantation and follow-up IVUS studies of 11 malapposed stents were identified and electronically rotated until they were aligned. The geometric center of the stent was identified, and the angle of late malapposition measured. Radii were drawn from this center through the transition points between complete apposition and LSM. These two circumferences were divided into equal arcs, and radii were drawn to the external elastic membrane (EEM). Measurements included EEM radius and circumference, plaque and media (P&M=EEM minus stent radius) thickness and area, and stent-intima separation. Mean baseline EEM radius and P&M thickness were similar in apposed and malapposed circumferences. At follow-up, mean EEM radius increase within the malapposed circumference (0.57±0.34 mm) was larger than within the apposed circumference (0.16±0.18 mm; P =0.0004). ΔEEM for each malapposed radius was greater than for each apposed radius ( P r =0.83, P =0.0013). At follow-up, the mean P&M thickness decreased in the malapposed circumference (−0.31±0.22 mm; P P =0.05), the result of positive remodeling. Conclusion— The main cause of LSM is a regional increase in EEM (regional positive remodeling).