Fibrin and Stem Cell Patches Show Promise for Heart Healing
Could finding a better way to deliver the MSCs to the injured site yield more efficient results? Researchers think it’s a possibility. Scaffolds (or patches) in which the cells are combined with biological and synthetic materials that can also be supplemented with growth/differentiation factors to generate bioimplants, have emerged as a promising candidate. However, none of the current materials being tested for the patches, whether synthetic or natural, have demonstrated optimal properties for cardiac tissue repair.
That led Dr. Bayes-Genis and his colleagues to investigate how a fibrin patch filled with human umbilical cord blood-derived MSCs might work. Fibrin is already widely used in medical applications due to its ability to act as a bio-compatible glue, holding cells in place and stimulating angiogenesis. In turn, they surmised that it might offer a nurturing environment for the MSCs’ proliferation while also keeping them at the site of the injury where they were needed for repairing the heart tissue.
The team mixed MSCs and fibrin to form the patches and then administered them in a group of mice that had undergone heart attacks. Three weeks later, they compared the animals’ recovery to a control group of mice treated with fibrin alone (no stem cells) and another control group that received no treatment at all. The results showed that the patches adhered well to the hearts and the MSCs demonstrated early proliferation and differentiation. The patch cells also participated in the formation of new, functional blood vessels that connected the patch to both the heart tissue directly beneath it and the mouse’s circulatory system, too.
“As a result, the heart function in this group of mice was better than that of the animals in either of the other control groups,” Dr. Bayes-Genis said. “Thus, this study provides promising findings for the use of umbilical cord-blood MSCs and fibrin patches in cardiac repair.”
“This is an interesting study that suggests a news strategy for using stem cells to repair injured heart tissue, without the drawbacks that cell injections have shown,” said Anthony Atala, M.D., Editor-in-Chief of STEM CELLS Translational Medicine and Director of the Wake Forest Institute for Regenerative Medicine.
Original publication
“Post-infarction functional recovery driven by a three dimensional engineered fibrin patch comprised of human umbilical cord blood-derived mesenchymal stem cells.”; STEM CELLS Translational Medicine.
Original publication
“Post-infarction functional recovery driven by a three dimensional engineered fibrin patch comprised of human umbilical cord blood-derived mesenchymal stem cells.”; STEM CELLS Translational Medicine.
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