AI Article Synopsis
- Stem cell applications have evolved from traditional therapeutic methods to advanced screening and in vitro modeling; however, older techniques have limitations in cell maturity due to long-standing monolayer culture practices.
- Newer three-dimensional culture techniques and engineered niches show promise in enhancing the maturity of myocytes, leading to improved mechanical, electrical, and biological properties.
- The successful integration of engineered heart tissue into hosts depends on utilizing diverse cell populations and engineered environments to address challenges in scale and engraftment, ultimately achieving clinical success.
Article Abstract
Applications for stem cells have ranged from therapeutic interventions to more conventional screening and in vitro modeling, but significant limitations to each is due to the lack of maturity from decades old monolayer protocols. While those methods remain the 'gold standard,' newer three-dimensional methods, when combined with engineered niche, stand to significantly improve cell maturity and enable new applications. Here in three parts, we first discuss past methods, and where and why we believe those methods produced suboptimal myocytes. Second, we note how newer methods are moving the field into an era of cell mechanical, electrical, and biological maturity. Finally, we highlight how these improvements will solve issues of scale and engraftment to yield clinical success. It is our conclusion that only through a combination of diverse cell populations and engineered niche will we create an engineered heart tissue with the maturity and vasculature to integrate successfully into a host.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9064957 | PMC |
| http://dx.doi.org/10.1016/j.copbio.2021.11.003 | DOI Listing |
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