Myocardial infarction remains one of the leading causes of death worldwide. Following an infarction, part of the heart muscle is irreversibly damaged and replaced by scar tissue, which, while structurally necessary, compromises cardiac function and may lead to chronic heart failure.
Current treatments focus on restoring blood flow and managing symptoms but do not address the loss of functional heart tissue. Cell-based therapies have been explored as a potential regenerative approach; however, their clinical translation has been limited by challenges related to cell survival, scalability and safety, including the risk of arrhythmias.
In a study recently published in the journal Theranostics , a research team led by Dr Carolina Gálvez-Montón (Germans Trias i Pujol Research Institute -IGTP-, Heart Failure and Cardiac Regeneration -ICREC- group ) and Dr Kurt Pfannkuche (University of Cologne) reports the development of a strategy based on cardiac organoids to address these limitations.
Cardiac organoids are three-dimensional tissue constructs that replicate key structural and functional features of the human heart. In this study, the researchers established a bioreactor-based production system enabling the generation of these organoids at a scale compatible with potential clinical applications.
The approach was evaluated in a preclinical model of myocardial infarction in pigs at the Comparative Medicine and Bioimage Centre of Catalonia (CMCiB) . The results show that the organoids were able to integrate into the host tissue, were associated with improved cardiac function, and contributed to a reduction in scar size. No arrhythmogenic effects were observed under the conditions tested.
" This work provides a new approach to addressing the limitations of cell-based therapies in the context of myocardial infarction, particularly in terms of scalability and safety ," says Dr Carolina Gálvez-Montón. " Although these are preclinical results, they open the door to further advances in the development of regenerative strategies based on organoids."
These findings support the potential of cardiac organoids as a platform for regenerative therapies and provide a basis for further studies aimed at assessing their safety and efficacy in clinical settings.
Theranostics
Experimental study
Lab-produced tissue samples
Scalable differentiation of human cardiac organoids from iPSCs generates cardiac tissues for cardiac cell therapy
23-Apr-2026
VD received speaker fees from Abbott, Edwards Lifesciences, GE Healthcare, JenaValve, Medtronic, Philips, Porducts&Features and Siemens and consulting fees from Edwards Lifesciences and MSD.