ABSTRACT
@#Objective To investigate the feasibility of animal model of the reconstruction of right ventricular outflow tract in rats. Methods A total of 15 female Sprague-Dawley (SD) rats underwent right ventricular outflow tract reconstruction surgery. Before the operation, the collagen scaffolds were treated with g 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide hydrochloride chemistry (EDC), and seeded with human bone marrow stem cells (h-MSCs). Three days after the surgery, 3 rats were randomly sacrificed to evaluate the transmural resection of right ventricular outflow tract. One or 3 months later, other 3 rats at each timepoint were sacrificed, stained with Masson’s Trichrome to observe the degradation of scaffold. Furthermore, 4 weeks after the surgery, 4 rats were sacrificed and the hearts were sliced. Anti-human mitochondria staining was used to identify the survival of seeding cells. Results The transmural resection of right ventricular outflow tract was feasible in rats at an acceptable mortality (13.3%). After EDC treatment, the degradation rate of collagen scaffold was extended greatly. The seeding cells were detected by anti-mitochandria immunofluorescent staining in all patches 4 weeks after the operation. Conclusion Rat model of right ventricular outflow tract reconstruction could be a stable, reliable and economical screening model for engineered heart tissue research.
ABSTRACT
@#With the development of molecular and cellar cardiology, gene therapy to cardiovascular disease has become the hot spot and the direction of study. Now, preclinical studies on ultrasound-mediated gene delivery (UMGD) in cardiovascular disease have achieved some success, but it is still hindered by a series of practical challenges for clinical translation. Even so, UMGD still holds the promise to cardiovascular disease in gene therapy for its non-invasiveness, accuracy, safety and ability to deliver multiple genes with repeated deliveries. In this review, we will focus on the basic principle, the current development, the future prospect and drawbacks of UMGD in the therapeutic applications of cardiovascular disease.
ABSTRACT
@#The engineered heart tissues (EHTs) is regarded as a hope for myocardial repair and regeneration. But a series of “bottleneck” problems, such as vascularization, hinder their clinical translation. This review focuses on the strategies to vascularization of EHTs and encourages the emergence of novel EHTs that can meet clinic requirement properly.