Abstract
Background: Hemodynamic overload induces left ventricular remodeling and heart failure across various clinical presentations. While geometric remodeling is classically associated with increased vascular resistance in hypertension, distinct patterns emerge under the mechanical stress of aortic stenosis (AS). Concept: The "Stress Septal Sign" (Triple S) represents a marker of stress-mediated hemodynamic overload driven by diverse stimuli, ranging from mechanical stress in AS to emotional triggers in acute stress cardiomyopathy. Within this spectrum, Stressed Heart Morphology describes a specific phenotype characterized by a predominant and hyperdynamic LV septal base. Results: Chronic hemodynamic stress in severe AS results in prominent basal septal hypertrophy. This remodeling is characterized by distinct tissue energetics: hypermetabolic activity at the basal septum contrasted with reduced metabolic activity or hypokinesis in the apical regions. These findings on myocardial geometry, function, and energetics align with the adaptive phase of LV remodeling. Conclusions: The presence of adaptive myocardial basal tissue suggests an advanced remodeling stage that may require timely therapeutic intervention in severe AS. Therefore, identifying these specific tissue characteristics offers a unifying imaging paradigm (Triple S) for assessing cardiac stress, independent of the primary etiology.