The view of the heart as a static organ implies that myocyte death and formation play a negligible role in cardiac homeostasis. Although stem cells have been unexpectedly identified in several organs, including the brain, kidney, lung, and skeletal muscle, the search for a cardiac stem cell (CSC) has been perceived as a futile effort, given the acknowledged lack of regenerative potential of the myocardium. Nevertheless, in the past several years, the demonstration of myocyte renewal in the normal and diseased heart has revealed a new, dynamic, and lively picture of this organ. Components of the cell cycle machinery and markers of cell replication have been detected in cardiomyocytes. The demonstration that karyokinesis and cytokinesis involve cells expressing contractile proteins has provided evidence that cardiomyocyte division occurs in the adult heart. 1 More recently, pulse-chase assays with thymidine analogs, 2 lineage tracing protocols, 3 and 14C birth dating of cells4 have shown the existence of myocyte turnover, a process that has been found to differ in magnitude according to the methods used for its documentation and quantification.