Objective To review the latest progress of seeding cells for articular cartilage tissue engineering. Methods The recent original l iteratures on seeding cells for articular cartilage tissue engineering were extensively reviewed. Results The chondrocytes derived from BMSCs’ differentiation would be a main source of seeding cells articular cartilage for tissue engineering. Three-dimensional scaffolds and cultivation surroundings played important roles in the field of articular cartilage tissue engineering. Conclusion The util ization of cytokine and transgenic technology as well as improvements of three-dimensional scaffolds and cultivation surroundings will promote the development of articular cartilage tissue engineering.
【Abstract】ObjectiveTo study the mechanism of spontaneous rupture of hepatocellular carcinoma (HCC). MethodsArticles have been reviewed to find out the theory of spontaneous rupture of HCC. ResultsResearchful results suggested that the injury of small arteries was usually followed in patients of spontaneous rupture of HCC. In this review, the immune complex, which composed of hepatitis B virus e antigen, complement C1q and immunoglobulins, was found deposited in the elastic membrane of arteries. Likely as a result of immune complex deposition, vascular injury occurs mainly in the small arteries where the deposition of immune complex was present. The small arteries in which immune complex deposited are readily injuried and cause hemorrhage and rupture of HCC during vascular load increase. ConclusionWe would conclude that immune complex deposition in vessel wall led to the small arteries injury may be the factor involved in the pathogenesis of spontaneous ruptured HCC.
Objective To investigate the relationship between changes of vascular elasticity and spontaneous rupture of hepatocellular carcinoma (HCC). Methods We examined the semiquantitatively expression of related angiogenesis factors including von Willebrand factor, elastin and neutrophil elastase in 30 specimens of HCC with spontaneous rupture by immunohistochemistry compared with 30 specimens of HCC without rupture. Results The results showed that there was a significant decrease of von Willebrand factor, overproliferation of elastin and abnormal distribution of neutrophil elastase around the small artery in ruptured HCC. These changes exacerbated weakness of the blood vessels and destroyed function of coagulation. The blood vessels split easily when the vascular load increased from hypertension or minor mechanical trauma. Conclusion The spontaneous rupture of HCC may be related to the vascular dysfunction.
Objective To evaluate the effect of methylation determination about the peripheral plasma DNA in diagnose of hepatocellular carcinoma (HCC) and select the highly sensitive and specific methylated cancer suppressor genes. Methods Methylation-specific PCR (MSP) was used to detect the degree of methylation about SLIT2 and DAPK genes in peripheral plasma and associated cancer tissues of 34 patients with HCC confirmed by pathology, then analyzed their relationship to clinicopathologic feature. Results The positive rate of the promoter methylation of SLIT2 and DAPK genes in cancer tissues in 34 cases were 70.6% (24/34) and 79.4% (27/34), while the relevant promoter methylation rate in plasma were 44.1% (15/34) and 50.0% (17/34) correspondingly. The sensitivity of detection of DNA methylation about SLIT2 and DAPK genes in plasma was 62.5% and 63.0%, respectively;both of the specificity for them were 100%. The negative predicted value was 52.6% and 41.2%, respectively;while both of the positive predicted value were 100%. There were no significant correlation between the clinicopathologic features and the methylation rate in cancer tissues and plasma (P>0.05). In plasma of patients whose AFP<400 μg/L, the positive rate of combined detection of DNA methylation of SLIT2 and DAPK was 61.1% (11/18). Conclusions The detection rate of DNA methylation of SLIT2 and DAPK genes in plasma is higher, and there is a significant correlation between the DNA methylation in HCC tissue and plasma, based on MSP method. DNA methylation in plasma, as an non-invasive method, could be used to diagnose HCC, especially for the patients whose AFP is negative. HBV infection may be only associate with DNA methylation of part gene.