ABSTRACT
ObjectiveTo establish a rat model of hyperuricemia (HUA), to study the effect of Liqing granules on lowering serum uric acid, and to evaluate its safety . MethodsMale SD rats were randomly divided into solvent control group and model group according to their body weight. For the model group, serum uric acid (SUA) was determined after 7 days of intra-gastric administration of potassium oxyazinate. The model group were randomly divided into model control group, positive control group, and low, medium, high dose group based on SUA level. Each group from the model group continued to receive potassium oxyazinate in the morning. The animals in the model groups received 0.5% CMC-Na, 10 mg·kg-1 benzbromarone (Doses by body weight) and Liqing granules 0.6, 1.2, 2.4 g·kg-1 (Doses by body weight), respectively in the afternoon. 0.5% CMC-Na suspension with the same volume was given both in the morning and afternoon for the solvent control group. Levels of SUA, creatinine (CREA), alanine aminotransferase (ALT) and aspartate transaminase (AST) were determined after 32 and 45 days administration of the test substance. ResultsSUA of the model group was (218±23) μmol·L-1 after 7 days of modeling, which was significantly higher than that of the solvent control group (P<0.001). After 32 days administration of the test substance, SUA didn’t significantly decrease in each dose group (P>0.05). CREA in the medium and high dose groups significantly decreased (P<0.05). After 45 days administration of the test substance, SUA in each dose group was significantly decreased (P<0.001), but CREA, ALT, and AST were not significantly different in each dose group in comparison with the model control group (P>0.05). ConclusionLiqing granules can assist in lowering blood serum uric acid in the rat HUA model, and no damage to liver and kidney function is found.
ABSTRACT
BACKGROUND:As meniscectomy may result in various adverse reactions, tissue-engineered meniscus is expected to be used for meniscus repair. Seed cel selection and optimal physicochemical stimuli are crucial for the construction of tissue-engineered meniscus. OBJECTIVE:To overview the seed cel s for the tissue-engineered meniscus construction and the research progress of physicochemical factors. METHODS:The first author retrieved the CNKI and Medline databases using the keywords of“meniscus, tissue engineering, seed cel s, physical and chemical factors”in English and Chinese, respectively, to retrieve articles related to the seed cel s and physicochemical factors of the tissue-engineered meniscus construction. Irrelative and repetitive articles were excluded, and 49 eligible articles were enrol ed for analysis. RESULTS AND CONCLUSION:The seed cel s must maintain their phenotype and synthetic ability after physicochemical stimulation in combination with scaffolds, to achieve the reproducibility of tissue-engineered meniscus. Most of cytokines can be used for promoting the proliferation and differentiation of chondrocytes, but the underlying mechanisms were little known. Their application in the meniscus tissue engineering needs to be studied in depth. Currently it is urgent to improve physicochemical stimuli in order to construct the tissue-engineered meniscus. The shear force does harm to chondrocyte phenotype, and dynamic compression loading has been proved to enhance Ca+and glycosaminoglycan release. The fibrous cartilage stimulated by shear force and other factors may be helpful for constructing the tissue-engineered meniscus. An elaborated randomized control ed trial and the long-term quantitative analysis are of importance to assess the research results.