1.Combined Treatment of Traditional Chinese Medicine and Western Medicine for Myasthenia Gravis Crisis: A Report of 26 Cases
Tietao DENG ; Youzhang LIU ; Xiaobin LIU
Journal of Guangzhou University of Traditional Chinese Medicine 2004;0(05):-
【Objective】 To establish an effective regimen for the treatment of myasthenia gravis crisis (MGC). 【Methods】 Twenty-six cases of MGC were enrolled into the study. They were given spleen-invigorating and musclestrengthening Qiangji Jianli decoction, which were self-prescribed, by oral administration or nasal feeding, as well as Lihengquan nutrient diet, intravenous drip of Huangqi injection and traditional Chinese nursing. The cases were also treated with western medicine such as half-dose steroid hormone, anticholinergic and antibiotics. The therapeutic effect was compared with that reported in currently published literature. 【Results】 Twenty-six cases were all clinically cured. The results of over-one-year follow-up showed that 4 cases were dead and the rest still survived. 【Conclusion】 The regimen of traditional Chinese medicine integrated with western medicine is economic and effective in the treatment of MGC.
2.Effects of drug serum of Jianbuhuqian pills on proliferation and function of osteoblast-like cells in vitro
Yi LUO ; Youzhang DENG ; Benxiang HE ; Weiguang HOU ; Xiaochuan DING ; Xuanwen LIU ; Chun QING
Chinese Journal of Tissue Engineering Research 2016;20(33):4883-4889
BACKGROUND:More recently, the focus has been on searching for a compound Chinese medicine for reinforcing kidney, which cannot only inhibit bone absorption, but also promote osteogenesis to protect against osteoporosis. OBJECTIVE:To explore effects of drug serum of Jianbuhuqian pil s on proliferation and function of osteoblast-like cel s in vitro. METHODS:Twenty-four adult female Sprague-Dawley rats were randomly divided into low-dose, medium-dose, high-dose and normal saline groups, and given intragastric administration of 1.5, 3.0, and 6 g/kg Jianbuhuqian pills and equal volume of normal saline, respectively twice daily for 1 week. At 1 hour after final gavage, rats were decapitated to prepare drug sera used for culturing osteoblast-like cells. At 24, 48 and 72 hours of culture, the cellular morphology was observed, as well as the cell proliferation and alkaline phosphatase activity was detected by MTT assay and alkaline phosphatase staining, respectively. RESULTS AND CONCLUSION:Compared with the normal saline group, the cel density began to increase significantly in three Jianbuhuqian groups at 24 hours after culture, mitotic figures were easy to be observed, cel s were in overlapping growth, much secretions and matrix accumulation appeared, especial y in the high-dose group. The obsorbance values in Jianbuhuqian groups were significantly higher than that in the normal saline group. After 24 hours of culture, the obsorbance values in the medium-dose and high-dose groups were significantly increased compared with the low-dose group, and the values showed significant differences among three Jianbuhuqian groups after 48 and 72-hour culture. In addition, the alkaline phosphatase activity presented overt increase in the Jianbuhuqian groups compared with the normal saline group, and significant differences could be found among Jianbuhuqian groups. To conclude, the drug serum of Jianbuhuqian pil s can promote the activity of osteoblast-like cel s in a time-and concentration-dependent manner.
3. Experimental study of the time effect of controlled micromovement on the influence of the fracture healing
Ming XIANG ; Xiaochuan HU ; Yanming LIN ; Youzhang DENG
Chinese Journal of Orthopaedics 2019;39(21):1333-1343
Objective:
To explore the influence and mechanism of time effect of the controlled micromovement on fracture healing.
Methods:
Forty-eight rabbit models of femoral fracture were prepared and fixed with unilateral two-bar external fixator. They were randomly divided into four groups: continuing immobilization group, instant micromovement group, 1-week micromovement group and 2-week micromovement group. Postoperative radiographs were taken at 1, 2, 3 and 5 weeks to observe callus growth. The maximum load, deflection and rigidity of callus at fracture end were measured 5 weeks after operation. At 1, 2 and 3 weeks after operation, the histological morphology of callus was observed, and the expression and distribution of osteocalcin (oc) in callus were detected.
Results:
At 5 weeks after operation, the X-ray scores of fracture line in 1-week micromovement group and 2-week micromovement group were 10.384±0.744 mm, 10.412±0.482 mm, significantly higher than those in continuing immobilization group (7.518±0.536). The anteroposterior diameter and the exterior and interior diameter of the external callus in 1-week micromovement group and 2-week micromovement group were 14.3±3.2 mm, 14.0±2.8 mm and 14.6±2.1 mm, 15.2±3.1 mm, which were smaller than those in the continuing immobilization group 15.3±2.3 mm and 16.7±1.9 mm, but there was no significant difference. The bone mineral density value and proportion rate in the fracture site were 0.446±0.020 g/cm2, 0.416±0.021 g/cm2 and 1.171%±0.056%, 1.143%±0.040% in 1-week micromovement group and 2-week micromovement group, which were significantly higher than those in continuing immobilization group which were 0.376±0.022 g/cm2 and 0.912%±0.051%. The maximum load of callus in 1-week micromovement group and 2-week micromovement group was 415.6±27.2 N, 400.3±28.5 N, which was significantly higher than that in continuing immobilization group 329.2±18.4 N and instant micromovement group 272.8±22.7 N. There was no difference of the deflection of callus between groups. The rigidity of callus in 1-week micromovement group was 590.4±24.2 N/mm, which was significantly higher than that in other groups; the rigidity of callus in the 2-week micromovement group was 540.6±22.8 N/mm, which was significantly higher than those in the instant micromovement group and the continuing immobilization group (152.4±21.7 N/mm, 174.8±20.6 N/mm).
Conclusion
Micromovement begins from one or two weeks can significantly raise external callus formation and vagueness level of fracture line, accelerating bridging callus formation, and can significantly raise bone mineral density and rigidity of callus. It also accelerates the maturity, hypertrophy and mineralization of chondrocyte, resulting in the stimulation of the fracture healing through endochondral ossification; it seemingly can improve the amount and density of osteoclasts in callus to stimulate the maturity and mineralization of chondrocyte. The strengthening coupling of osteoblasts and osteoclasts can promote the transformation from soft callus to hard callus and the remolding of hard callus.