Part I: Cardiac development and morphogenesis
1) From simple cylinder to four-chambered organ: a brief overview of cardiac morphogenesis
2) Lineage Tracing Models to Study Cardiomyocyte Generation during Cardiac Development and Injury
3) Mechanisms that govern endothelial lineage development and vasculogenesis
Part II: Cellular approaches to cardiac repair and regeneration
4) Remuscularization of Ventricular Infarcts Using the Existing Cardiac Cells
5) Allogeneic immunity following transplantation of pluripotent stem cell-derived cardiomyocytes
6) Vascular regeneration with induced pluripotent stem cell-derived endothelial cells and reprogrammed endothelial cells
7) The guinea pig model in cardiac regeneration research; Current tissue engineering approaches and future directions
Part III: Genetic approaches to study cardiac differentiation and repair
8) Analyzing genetic programs of cell differentiation to study cardiac cell diversification
9) Recombinant Adeno-Associated Virus for Cardiac Gene Therapy
Part IV: Bioengineering approaches to cardiovascular tissue modeling and repair
10) Microfabricated Systems for Cardiovascular Tissue Modeling
11) Bioengineering of Pediatric Cardiovascular Constructs: In Vitro Modeling of Congenital Heart Disease
12) Biomaterial Interface in Cardiac Cell and Tissue Engineering
13) Stem Cell-based 3D Bioprinting for Cardiovascular Tissue Regeneration
14) Creating and Validating New Tools to Evaluate the Electrical Integration and Function of hPSC-derived Cardiac Grafts in Vivo
Part V: Clinical perspectives
15) Understanding the Molecular Interface of Heart Disease and COVID-19: A Data Science Approach
16) Clinical Application of iPSC Derived Cardiomyocytes in Patients with Advanced Heart Failure
17) Cell Therapy with Human ESC-derived Cardiac Cells: Clinical Perspectives