2023
DOI: 10.3390/bioengineering10010106
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Whole-Heart Tissue Engineering and Cardiac Patches: Challenges and Promises

Abstract: Despite all the advances in preventing, diagnosing, and treating cardiovascular disorders, they still account for a significant part of mortality and morbidity worldwide. The advent of tissue engineering and regenerative medicine has provided novel therapeutic approaches for the treatment of various diseases. Tissue engineering relies on three pillars: scaffolds, stem cells, and growth factors. Gene and cell therapy methods have been introduced as primary approaches to cardiac tissue engineering. Although the … Show more

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Cited by 12 publications
(4 citation statements)
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“…Moreover, the low complexity of current 3D-printed heart models refers to the simplified nature of the structures and functions that can be achieved with existing printing technologies (Jain et al, 2022). While some progress has been made in creating basic cardiac constructs, such as myocardial patches or simple tissue scaffolds, the ability to replicate the full complexity of the heart, including its multi-scale organization, heterogeneous cell populations, and dynamic mechanical properties, remains a significant challenge (Akbarzadeh et al, 2023). Addressing these limitations in 3D-bioprinting for heart tissue engineering requires advancements in printing technologies, biomaterials, and tissue engineering strategies.…”
Section: Scaffold-free 3d Bioprinting For Cardiac Tissue Engineeringmentioning
confidence: 99%
“…Moreover, the low complexity of current 3D-printed heart models refers to the simplified nature of the structures and functions that can be achieved with existing printing technologies (Jain et al, 2022). While some progress has been made in creating basic cardiac constructs, such as myocardial patches or simple tissue scaffolds, the ability to replicate the full complexity of the heart, including its multi-scale organization, heterogeneous cell populations, and dynamic mechanical properties, remains a significant challenge (Akbarzadeh et al, 2023). Addressing these limitations in 3D-bioprinting for heart tissue engineering requires advancements in printing technologies, biomaterials, and tissue engineering strategies.…”
Section: Scaffold-free 3d Bioprinting For Cardiac Tissue Engineeringmentioning
confidence: 99%
“…Therefore, understanding the molecular signaling induced by factors secreted by stem cells becomes more important for treatment of heart injury. Recent studies show that endoderm-derived islet1-expressing cells can differentiate into endothelial cells to function as hematopoietic stem and progenitor cells [ 130 ], which may serve as an alternative approach for stem cell transplant; in addition, human- or animal-derived decellularized heart patches have been used in vivo and in vitro studies to promote the regeneration of heart tissue [ 131 ]. However, due to the complexity of cardiac tissue engineering, significant hard work must be done before the approaches can be clinically used.…”
Section: Approaches and Challenges For Heart Regenerationmentioning
confidence: 99%
“…The three methods all have advantages and shortcomings. For example, in the case of osmotic shock by incubation with hypotonic buffers, the subsequent treatment of the tissues with detergents (e.g., SDS) helps to remove lipids and DNA debris, but this could be detrimental for the maintenance of the glycosaminoglycans (GAGs), and even the stability of the collagen [98]. Furthermore, when using proteolytic enzymes, the ability of the cells to repopulate the cardiac cell-free scaffolds could be affected [99].…”
Section: Decellularized Ecm For Cardiac Engineeringmentioning
confidence: 99%