3D Engineered Micro-Tissue Models to Study Cardiovascular (Patho)biology and Regeneration

Abstract Engineered tissue models find their application in studying normal and pathological tissue development and the associated testing of potential therapies. In addition, they provide powerful tools for technology development for regenerative medicine and optimization of regenerative therapies. We have developed a range of ‘humanized’ engineered cardiovascular model systems – consisting of engineered tissue, (hemo)dynamic loading platforms, and readouts of tissue development and mechanical function – for the optimization of in-vitro and in-situ tissue engineering strategies of heart valves and vessels. The model systems can be adapted to simulate either healthy or diseased tissue development or healthy and diseased loading environments (e.g. high blood pressure). A first range of systems consists of cardiovascular tissues (strips or cross-shaped morphology, mm range), engineered from human myofibroblasts seeded on natural (fibrin) or synthetic (PGA) degradable polymer scaffolds, and loaded in series ...