Biomechanics of the tricuspid annulus: A review of the annulus' in vivo dynamics with emphasis on ovine data

Abstract

The tricuspid annulus forms the boundary between the tricuspid valve leaflets and their surrounding perivalvular tissue of the right atrioventricular junction. Its shape changes throughout the cardiac cycle in response to the forces from the contracting right heart myocardium and the blood‐valve interaction. Alterations to annular shape and dynamics in disease lead to valvular dysfunctions such as tricuspid regurgitation from which millions of patients suffer. Successful treatment of such dysfunction requires an in‐depth understanding of the normal shape and dynamics of the tricuspid annulus and of the changes following disease and subsequent repair. In this manuscript we review what we know about the shape and dynamics of the normal tricuspid annulus and about the effects of both disease and repair based on noninvasive imaging studies and invasive fiduciary marker‐based studies. We further show, by means of ovine data, that detailed engineering analyses of the tricuspid annulus provide regionally resolved insight into the kinematics of the annulus which would remain hidden if limiting analyses to simple geometric metrics.