Purpose To construct an ultrasound molecular probe carrying miRNA-452/Let-7i and analyze its targeting effect on human induced pluripotent stem cell derived cardiomyocytes(hiPSCs-CMs)in vitro.Materials and Methods The biotinylated core lipid microbubbles(NBs),lipid microbubbles carrying adenovirus overexpressing miRNA-452/Let-7i(Ad-miR-452/Let-7i)and ultrasound molecular probes carrying adenovirus overexpressing miRNA-452/Let-7i and targeting protein MYH6(Ad-miR-452/Let7i-MYH6)were synthesized,and the expression rates of fluorescent proteins to verify their binding were compared.The physical and chemical properties,stability,and in vitro imaging of those abovementioned parameters were measured,respectively,and theirs biological safety was evaluated.hiPSCs-CMs was divided into Ad-miR-452/Let-7i group and Ad-miR-452/Let7i-MYH6 group,then theirs cell binding status were compared.Results The constructed NBs,Ad-miR-452/Let-7i and Ad-miR-452/Let7i-MYH6 had regular morphology and good stability.Detection data showed that theirs concentrations were(1.62±0.40)×108 particles/ml,(1.83±0.20)×108 particles/ml and(1.35±0.33)×108 particles/ml,respectively.The average particle sizes were(605.94±17.46)nm,(726.53±14.95)nm and(729.31±16.62)nm,respectively.The zeta potentials were(2.61±0.30)mV,(-11.21±0.71)mV and(-12.28±0.52)mV,respectively.The polydispersity indices were 0.24±0.07,0.26±0.14 and 0.25±0.13,respectively.With a concentration of 107 particles/ml,the imaging strengths of the three samples were 99.24±5.04,102.18±3.61 and 99.07±3.87,respectively.The miRNA-loaded ultrasound molecular probes exhibited no significant toxicity to the cells,with in vitro imaging lasting over 15 minutes,and they could specifically bind to hiPSC-CMs.Conclusion The constructed ultrasound molecular probe has stability and in vitro targeting,effectively improving virus transfection efficiency.

Ultrasound microbubble technology plays a significant role in stem cell therapy for cardiovascular diseases. This technology demonstrates unique advantages in stem cell tracking，regulating the stem cell growth environment，and achieving precise gene delivery. These advantages not only help improve the survival rate and functionality of stem cells，reduce cell death，but also effectively promote stem cell proliferation and differentiation，while enhancing gene transfection efficiency. This article will provide an in-depth review of the application prospects of ultrasound microbubble technology in the field of stem cell therapy for cardiovascular diseases.

Purpose To construct an ultrasound molecular probe carrying miRNA-452/Let-7i and analyze its targeting effect on human induced pluripotent stem cell derived cardiomyocytes(hiPSCs-CMs)in vitro.Materials and Methods The biotinylated core lipid microbubbles(NBs),lipid microbubbles carrying adenovirus overexpressing miRNA-452/Let-7i(Ad-miR-452/Let-7i)and ultrasound molecular probes carrying adenovirus overexpressing miRNA-452/Let-7i and targeting protein MYH6(Ad-miR-452/Let7i-MYH6)were synthesized,and the expression rates of fluorescent proteins to verify their binding were compared.The physical and chemical properties,stability,and in vitro imaging of those abovementioned parameters were measured,respectively,and theirs biological safety was evaluated.hiPSCs-CMs was divided into Ad-miR-452/Let-7i group and Ad-miR-452/Let7i-MYH6 group,then theirs cell binding status were compared.Results The constructed NBs,Ad-miR-452/Let-7i and Ad-miR-452/Let7i-MYH6 had regular morphology and good stability.Detection data showed that theirs concentrations were(1.62±0.40)×108 particles/ml,(1.83±0.20)×108 particles/ml and(1.35±0.33)×108 particles/ml,respectively.The average particle sizes were(605.94±17.46)nm,(726.53±14.95)nm and(729.31±16.62)nm,respectively.The zeta potentials were(2.61±0.30)mV,(-11.21±0.71)mV and(-12.28±0.52)mV,respectively.The polydispersity indices were 0.24±0.07,0.26±0.14 and 0.25±0.13,respectively.With a concentration of 107 particles/ml,the imaging strengths of the three samples were 99.24±5.04,102.18±3.61 and 99.07±3.87,respectively.The miRNA-loaded ultrasound molecular probes exhibited no significant toxicity to the cells,with in vitro imaging lasting over 15 minutes,and they could specifically bind to hiPSC-CMs.Conclusion The constructed ultrasound molecular probe has stability and in vitro targeting,effectively improving virus transfection efficiency.

Ultrasound microbubble technology plays a significant role in stem cell therapy for cardiovascular diseases. This technology demonstrates unique advantages in stem cell tracking，regulating the stem cell growth environment，and achieving precise gene delivery. These advantages not only help improve the survival rate and functionality of stem cells，reduce cell death，but also effectively promote stem cell proliferation and differentiation，while enhancing gene transfection efficiency. This article will provide an in-depth review of the application prospects of ultrasound microbubble technology in the field of stem cell therapy for cardiovascular diseases.