Rosalespitts9564

Down-regulation of pain-related gene MMP24 is helpful to relieve OA pain. Up-regulation of CTNNB1 activates Wnt/β-catenin signaling pathway and affects differentiation and regeneration of OA chondrocytes. This study reveals the pyrolysis characteristics of moxa floss for the first time and discusses the biological effect and possible mechanism of moxibustion heat, providing new ideas for the quality evaluation of moxa floss and the mechanism of moxibustion therapy.Osteoarthritis(OA) is a kind of osteoarticular degenerative disease. The most common joint involvement of OA is knee and hip joint. The incidence rate of OA increases with age. Meta analysis shows that moxibustion is superior to other therapies in treating knee osteoarthritis(KOA). In this study, the effects of moxibustion materials from different places of origin(Hubei Qichun, Henan Nanyang, Hunan) and storage periods(5, 3, 1 years) on knee osteoarthritis in rats were compared. The swelling degree of knee joint and the histopathology of knee joint cartilage were measured. The mechanism of moxibustion in the treatment of knee osteoarthritis was discussed from the perspective of Wnt/β-catenin signaling pathway. The results showed that the swelling degree of knee joint in the moxibustion material group of Hubei Qichun and Henan Nanyang was significantly lower than that in the model group, the diffe-rence was statistically significant(P<0.05), and it was better than that in the moxibustion material group of H and MMP-13 genes in knee cartilage, suggesting that moxibustion could inhibit cartilage base by regulating Wnt/β-catenin signal pathway. It may be one of the mechanisms of moxibustion in the treatment of OA.The chemical component information of samples was analyzed by ultra-performance liquid chromatography-quadrupole time-of-flight mass spectrometry(UPLC-Q-TOF-MS). The leaves and flosses of Artemisia argyi and A. stolonifera from different places, were distinguished by principal component analysis(PCA) and orthogonal partial least squares discriminant analysis(OPLS-DA). Then, compounds with significant differences(P<0.01) in abundance were screened out according to their VIP values and t-test. Eighteen components in all samples have been filtered and identified, including flavonoids and chlorogenic acids, the content of the 12 of which were measured by UPLC-UV, which are different in presence and content. Hispidulin in A. argyi is not detected in A. stolonifera. Schaftaside, isochlorogenic acid B, and isochlorogenic acid C are differential compounds of A. argyi and A. stolonifera leaves. Isochlorogenic acid A, isochlorogenic acid C and jaceosidin are differential compounds of A. Hexa-D-arginine mw argyi and A. stolonifera floss. There are significant differences in the contents of jaceosidin and schaftoside in the four famous A. argyi. In addition, the content of isochlorogenic acid A in wild A. stolonifera is higher than that in cultivated A. stolonifera. The results of the study successfully clarified the differences between A. stolonifera and A. argyi, and provided theoretical and data references for the further development and utilization of A. stolonifera.Artemisia argyi samples were collected from different areas in Hubei Qichun and medicinal botanical garden of Hubei University of Traditional Chinese Medicine, and samples were purchased from different areas in Qichun medicinal market. The same method was used to prepare A. argyi samples from different areas into moxa floss of different leaf velvet ratio. The nitrogen content of A. argyi was determined by Kjeldahl method. The results show that there was an inverse relationship between the content of nitrogen and the level of the leaf velvet ratio grades of moxa floss and nitrogen content. Therefore, six functional models were established to illustrate the relationship between the grades of leaf velvet ratio and nitrogen content. The accuracy of the functional models was evaluated by ■. The cubic function model and exponential function model are selected as the best models and the formula is Y_(grades)=-4.26 N~3+26.09 N~2-61.09 N+55.84, Y_(grades)=63.68×10~(-1.374N), with R~2 values of 0.976 5 and 0.969 6, respectively. The accuracy reached above 95% of the two function models when verified by laboratory-made moxa floss, while the accuracy of the models was 85.44% when verifed by commercial moxa floss. These results indicate that the model could be applied to the identification of the grades of moxa floss.To solve the problems of the unclear planting period and the traditional flat planting of Artemisia argyi var.argyi 'Qiai', such as the serious dead leaves in the middle and lower parts of the plant and the low yield and low quality in the field, the effects of different planting period and ridge pattern on yield and quality of A. argyi var.argyi 'Qiai' were studied. The results showed that the growth and development of A. argyi var.argyi 'Qiai' was better when planted in autumn and winter, and the ridge directions had little effect on the growth and yield of A. argyi var.argyi 'Qiai', while the ridge width had a significant effect. Compared the traditional wide ridge planting mode(the width of the ridge is 160 cm) with the ridge width of 80 cm, 60 cm and 40 cm, the results showed that the density per unit area, the number of effective plants, and the rate of dead leaves were decreased, while the number of productive leaves per plant, the number of lateral branches, and the total yield per plant were increased, the total yield was decreased. The output rates of moxa in the leaves of A. argyi var.argyi 'Qiai' decreased with the planting time postponed and the width of planting ridge increased. The contents of volatile oil, 1,8-oxido-p-menthane, camphor and borneol in A. argyi var.argyi 'Qiai' reach to the highest when planted in autumn and winter and the ridge width was 80 cm. In addition, the contents of total flavonoids, kaempferol, jeceosidin and eupatilin flavonoids in the leaves of A. argyi var.argyi 'Qiai' gradually decreased as the planting period postponed and the ridge width increased. The results show that the A. argyi var.argyi 'Qiai' should be planted in autumn and winter, and the double row ridge planting mode with width of 60-80 cm is more suitable for the cultivation and production of A. argyi var.argyi 'Qiai' in Qichun County of Hubei Province. This study will provide a theoretical basis and guidance for higher yield and quality in cultivation of A. argyi var.argyi 'Qiai' in Qichun county.