Statin treatment of hypercholesterolemic-induced aortic valve sclerosis

Abstract

Background: Aortic valve sclerosis (AVS) is a common inflammatory heart valve disease prevalent in the population over the age of 65 years. Several published clinical and animal studies have examined the ability of statin treatment to modify disease progression. Clinical trials yielded conflicting results, and animal studies examined the effects of statins prior to the onset of disease. Our study assessed the effect of dietary modification and/or statin treatment on established aortic valve disease in a rabbit model of AVS to examine the tissue response to therapy.

Methods: Aortic valve sclerosis was induced in male New Zealand White rabbits by dietary cholesterol supplementation. Rabbits were followed over 2.5 years, with the introduction of statins and/or dietary changes for the second half of the study. At end point, valve function was examined by magnetic resonance imaging. Excised aortic valve cusp tissue was surveyed for thickness, lipid accumulation, protein deposition, calcification, and cellular infiltration.

Results: By 15 months, cholesterol-fed valves exhibited thickening due to significant lipid content, macrophage infiltration, and osteopontin expression. By 30 months, the untreated disease had progressed to include elevated collagen deposition, lymphocyte invasion, and calcification. With treatment, however, the valve cusps exhibited significant pathological changes including diminished immune cell infiltration and osteopontin expression. Unfortunately, lipid was retained and calcification persisted in all treated valves.

Conclusions: In established AVS, the cellular response to statin therapy does not result in full regression of the sclerotic process.