Background: The placenta has lately attracted increased attention due to its potential as a significant source of many types of stem cells, such as trophoblastic, hematopoietic, epithelial, and mesenchymal stem cells (MSCs). Placental cells are readily and ethically obtainable. In addition, the human placenta has the potential to provide a significant quantity of stem cells that can be readily isolated, expanded, and differentiated into several kinds of cells. Both the maternal and the fetal components of MSCs are present in the human placenta. Previous investigations have found that the origin of mesenchymal stem cells has a significant impact on their capacity to treat diseases. As a result, placental MSCs have a lot of potential for therapeutic use. Compared to the immunomodulatory activity of MSCs derived from mothers, fetal MSCs have a higher capacity to promote immunological health. The p75 protein has been demonstrated to be the most effective marker for the isolation and identification of human bone marrow-derived mesenchymal stem cells. CD271 was considered a versatile marker that would allow the isolation and culture of multipotent stem cells derived from mesenchymal tissue. No prior work reported P75 NGFR utilized in placental tissues as a marker for mesenchymal stem cells in connection to various gestational ages (term, and post-term) and diverse placental locations including (chorionic plate and placental villi sides).
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