Compressive stress-relaxation of human atherosclerotic plaque.

Knowledge of the mechanical properties of human atherosclerotic plaque is fundamental to understanding atherosclerosis and its treatment. Data are scant, however, particularly with respect to the time-dependent nature of plaque behavior. Previous experiments in our lab showed that human plaques do not exhibit the traditional preconditioning behavior common to most soft tissues. In particular, the behaviors of three classes of plaques differed fundamentally in response to multiple, successive, cyclic compression protocols. In this report, we demonstrate that plaques exhibit different responses to successive relaxation tests in uniaxial compression. Not only is there significant relaxation, but there are composition-dependent differences in the general character of the relaxation responses. Such information on the time-dependent behavior is important for the design of clinical protocols such as stenting or angioplasty wherein the atherosclerotic vessel is subjected to persistent or multiple short duration loadings. This study presents a step toward a better understanding of the biomechanical behavior of atherosclerotic plaques; however, the need for much more data remains.