Current Status of Research on Nanomaterials Combined with Mesenchymal Stem Cells for the Treatment of Ischemic Stroke

Ischemic stroke (IS) is a disease with high mortality and disability rates worldwide and is a serious threat to patient health. Owing to the narrow therapeutic window, effective treatments during the recovery period are limited. However, in recent years, mesenchymal stem cells (MSCs) have attracted attention and have shown therapeutic potential in IS treatment because of their abilities to home and secrete multiple bioactive substances and potential for differentiation and substitution. The therapeutic mechanisms of MSCs in IS include the regulatory effects of MSCs on microglia, the dual role of MSCs in astrocytes, how MSCs connect innate and adaptive immunity, the secretion of cytokines by MSCs to counteract apoptosis and MSC apoptosis, the promotion of angiogenesis by MSCs to favor the restoration of the blood-brain barrier (BBB), and the potential function of local neural replacement by MSCs. However, the low graft survival rate, insufficient homing, poor targeting, and inability to achieve directional differentiation of MSCs limit their wide application. As an approach to compensate for the shortcomings of MSCs, scientists have used nanomaterials to assist MSCs in homing, survival and proliferation. In addition, the unique material of nanomaterials adds tracking, imaging and real-time monitoring to stroke treatment. The identification of effective treatments for stroke is urgently needed; thus, an understanding of how MSCs treat stroke and further improvements in the use of nanomaterials are necessary.