In this editorial we comment on the article by Safwan M et al.We especially fo-cused on the cardiac function restoration by the use of mesenchymal stem cells(MSCs)therapy for heart failure(HF),which has emerged as a n...In this editorial we comment on the article by Safwan M et al.We especially fo-cused on the cardiac function restoration by the use of mesenchymal stem cells(MSCs)therapy for heart failure(HF),which has emerged as a new treatment approach as“Living Biodrugs”.HF remains a significant clinical challenge due to the heart’s inability to pump blood effectively,despite advancements in medical and device-based therapies.MSCs have emerged as a promising therapeutic approach,offering benefits beyond traditional treatments through their ability to modulate inflammation,reduce fibrosis,and promote endogenous tissue rege-neration.MSCs can be derived from various tissues,including bone marrow and umbilical cord.Umbilical cord-derived MSCs exhibit superior expansion ca-pabilities,making them an attractive option for HF therapy.Conversely,bone marrow-derived MSCs have been extensively studied for their potential to im-prove cardiac function but face challenges related to cell retention and delivery.Future research is focusing on optimizing MSC sources,enhancing differentiation and immune modulation,and improving delivery methods to overcome current limitations.展开更多
文摘In this editorial we comment on the article by Safwan M et al.We especially fo-cused on the cardiac function restoration by the use of mesenchymal stem cells(MSCs)therapy for heart failure(HF),which has emerged as a new treatment approach as“Living Biodrugs”.HF remains a significant clinical challenge due to the heart’s inability to pump blood effectively,despite advancements in medical and device-based therapies.MSCs have emerged as a promising therapeutic approach,offering benefits beyond traditional treatments through their ability to modulate inflammation,reduce fibrosis,and promote endogenous tissue rege-neration.MSCs can be derived from various tissues,including bone marrow and umbilical cord.Umbilical cord-derived MSCs exhibit superior expansion ca-pabilities,making them an attractive option for HF therapy.Conversely,bone marrow-derived MSCs have been extensively studied for their potential to im-prove cardiac function but face challenges related to cell retention and delivery.Future research is focusing on optimizing MSC sources,enhancing differentiation and immune modulation,and improving delivery methods to overcome current limitations.
