OBJECTIVE： To investigate the effects of different polar parts of 5 kinds of Alpinia on the function of sympathetic-adrenal system in gastric ulcer model rats with cold syndrome， such as the root of Alpinia officinarum， the rhizome and fruit of Alpinia galangal， the seed of Alpinia katsumadai， and the fruit of Alpinia oxyphylla. METHODS： SD rats were given Anemarrhena asphodeloides decoction at 4 ℃ and Glacial acetic acid solution intragastrically to induce gastric ulcer model with cold syndrome； the model rats were randomly divided into model group， Fuzi lizhong pills group （positive control， 9.0 g/kg）， cimetidine group （positive control， 0.003 3 g/kg）， low-dose and high-dose groups of petroleum ether， ethyl acetate， n-butanol and water extraction parts from 5 medicinal materials （hereinafter referred to as “gaoshidi” “gaoshigao” “dashidi” “dashigao” “hongshidi” “hongshigao” “caoshidi” “caoshigao” “yishidi” “yishigao” “gaoyidi” “gaoyigao” “dayidi” “dayigao” “hongyidi” “hongyigao” “caoyidi” “caoyigao” “yiyidi” “yiyigao” “gaozhengdi” “gaozhenggao” “dazhengdi” “dazhenggao” “hongzhengdi” “hongzhenggao” “caozhengdi” “caozhenggao” “yizhengdi” “yizhenggao” “gaoshuidi” “gaoshuigao” “dashuidi” “dashuigao” “hongshuidi” “hongshuigao” “caoshuidi” “caoshuigao” “yishuidi” “yishuigao”， 0.064/0.256， 0.032/ 0.128， 0.008/0.032， 0.075/0.3， 0.1/0.4， 0.064/0.256， 0.108/0.432， 0.16/0.64， 0.064/0.25， 0.125/0.5， 0.056/0.224， 0.108/0.432， 0.08/0.32， 0.2/0.8， 0.3/1.2， 0.14/0.56， 0.032/0.128， 0.028/0.112， 0.05/0.2， 0.087/0.348 g/kg， by mass of extraction parts）， with 10 rats in each group； and the blank group （normal temperature water） was set up. Next day after modeling， blank group and model group were given constant volume of normal temperature water intragastrically； administration group was given relevant solution 2 mL/100 g intragastrically， q12 h， 4 times in total. After last medication， urine contents of 17-OHCS， CAs substances （A， NE， DA） and serum contents of ACTH and D-β-H were determined by ELISA. RESULTS： Compared with blank group， the contents of 17-OHCS， A， NE and DA in urine， the contents of ACTH and D-β-H in serum were decreased significantly in model group （P＜0.01）. Compared with model group， the contents of 17-OHCS （Fuzi lizhong pills group， cimetidine group， gaoshidi， gaoshigao， dashigao， hongshigao， caoshigao and yishigao groups， ethyl acetate part groups of 5 medicinal materials， dazhenggao， hongzhenggao， caozhenggao and yizhenggao groups， gaoshuigao， dashuigao and hongshuigao groups）， A （Fuzi lizhong pills group， cimetidine group， gaoshigao， dashigao， hongshidi， hongshigao， caoshidi， caoshigao and yishigao groups， ethyl acetate part groups of 5 medicinal materials， gaozhenggao， dazhenggao， hongzhengdi， hongzhenggao， caozhenggao and yizhenggao groups， hongshuigao group）， NE （Fuzi lizhong pills group， cimetidine group， petroleum ether part， ethyl acetate part and n-butanol part groups of 5 medicinal materials， gaoshuigao， dashuigao and hongshuigao groups）， DA [Fuzi lizhong pills group， cimetidine group， petroleum ether part （except for gaoshidi group） and ethyl acetate part groups of 5 medicinal materials， gaozhenggao， dazhenggao， hongzhenggao， caozhenggao and yizhenggao groups， hongshuigao group] in urine， serum contents of ACTH [Fuzi lizhong pills group， petroleum ether part （except for gaoshidi， dashidi and caoshidi groups） and ethyl acetate part （except for dayidi and hongyidi groups） groups of 5 medicinal materials， hongzhenggao group， dashuigao group]， and D-β-H [Fuzi lizhong pills group， gaoshigao， dashigao， hongshidi， hongshigao and yishigao groups， ethyl acetate part groups of 5 medicinal materials （except for dayidi， hongyidi and yiyidi groups）， dazhenggao and hongzhenggao groups， hongshuigao group] were increased significantly （P＜0.05 or P＜0.01）. The contents of 17-OHCS and D-β-H in dashigao group， the contents of ACTH and D-β-H in caoshigao group and the contents of D-β-H in gaoshigao and yishigao groups were significantly lower than hongshigao group. The contents of DA in gaoyigao， caoyigao and yiyigao groups as well as the contents of D-β-H in gaoyigao， hongyigao， caoyigao and yiyigao groups were significantly lower than dayigao group； the contents of DA in gaoyigao and caoyigao groups were significantly lower than hongyigao group， the contents of ACTH in gaoyigao， dayigao， caoyigao and yiyigao groups were significantly higher than hongyigao group. The contents of 17-OHCS， DA and ACTH in gaozhenggao， dazhenggao， caozhenggao and yizhenggao groups， the contents of A in dazhenggao， caozhenggao and yizhenggao groups as well as the contents of D-β-H in gaozhenggao， caozhenggao and yizhenggao groups were significantly lower than hongzhenggao group. The contents of 17-OHCS and D-β-H in caoshuigao and yishuigao groups were significantly lower than dashuigao group. The contents of 17-OHCS， DA and D-β-H in caoshuigao and yishuigao groups as well as the contents of DA and D-β-H in gaoshuigao groups were significantly lower than hongshuigao group （P＜0.05 or P＜0.01）. CONCLUSIONS： Different polar parts of 5 kinds of Alpinia can improve gastric ulcer model rats with cold syndrome to different extents； among them， the fruit of A. galangal is the best， followed by the root of A. officinarum. Above medicinal materials can regulate the function of sympathetic-adrenal system by increasing the contents of 17-OHCS， CAs and D-β-H.

OBJECTIVE： To study the anti-inflammatory effect and its mechanism of the extract of Dcsmodium microphyllum， so as to provide experiment reference for further study of D. microphyllum. METHODS： Acute inflammatory model was established by xylene，glacial acetic acid and carrageenan. Using dexamethasone as positive control （0.005 g/kg）， inhibitory effects of intragastric different doses of the extract of D. microphyllum （50， 30， 15 g/kg） on xylene-induced ear swelling in normal mice and adrenalectomized mice， glacial acetic acid-induced permeability increasing of abdominal capillaries in normal mice， carrageenan-   induced paw swelling in normal mice and adrenalectomized mice were investigated. The levels of MDA， SOD and NO in the inflammatory tissue of toes of adrenalectomized mice were detected in carrageenan-induced inflammation model. Blank group was set for control （ig. equal volumn of water）. RESULTS： Compared with blank group， ear swelling degree of normal mice and adrenalectomized mice were decreased significantly in D. microphyllum extract high-dose and medium-dose groups while inhibitory rate of ear swelling was increased significantly； the permeability of abdominal capillaries of normal mice was significantly decreased in D. microphyllum extract groups； the swelling degree of toes in normal mice of D. microphyllum extract high-dose and middle-dose groups and adrenalectomized mice were significantly decreased while inhibitory rate of toe swelling was increased significantly （P＜0.05 or P＜0.01）. The levels of MDA and NO in the toe inflammatory site of adrenalectomized mice were decreased significantly in D. microphyllum extract high-dose and medium-dose groups， while the level of SOD was increased significantly （P＜0.05）. CONCLUSIONS： D. microphyllum extract can inhibit acute inflammation in mice significantly. Its anti-inflammatory mechanism is associated with decreasing MDA and NO while increasing SOD levels， and the anti-inflammatory effect does not depend on the hypothalamus-pituitary-adrenal axis system.

Animals ; Macaca mulatta ; Optic Disk ; Glaucoma ; Craniocerebral Trauma ; Intraocular Pressure ; Low Tension Glaucoma

OBJECTIVE： To observe the improvement effects of water extract of Glycyrrhiza uralensis on acute hepatic injury caused by triptolide and its effects on the levels of IL-10 and TNF-α in rats. METHODS： A total of 60 healthy male SD rats were randomized into blank control group， model group， positive control group （magnesium isoglycyrrhizinate） and G. uralensis water extract low-dose， middle-dose and high-dose groups. Blank control group and model group were given isochoric normal saline intragastrically； positive control group was given Magnesium isoglycyrrhizinate liquid intragastrically （13.5 mg/kg）； G. uralensis water extract low-dose， middle-dose and high-dose groups were given G. uralensis water extract intragastrically 1 mL （120， 240， 480 mg/kg， by the amount of extract）， qd， for consecutive 7 d. At 8th day of administration， model group， positive control group and G. uralensis water extract groups were given Triptolide liquid intragastrically （0.6 mg/kg） to establish acute liver injury model. HE staining was used to detect the pathological changes of liver tissue in rats. The activities of ALT and AST in serum were determined by enzyme coupling reaction. The protein expression of IL-10 and TNF-α in liver tissue were analyzed by Western blotting. RESULTS： Compared with blank control group， obvious pathological changes of liver tissue in rats were observed in model group； serum activities of ALT and AST， the protein expression level of TNF-α in liver tissue were increased significantly， while the protein expression level of IL-10 was decreased significantly （P＜0.01）. Compared with model group， pathological changes of liver tissue were relieved significantly. Except for the activity of AST in serum of rats in G. uralensis water extract low-dose group， the activities of ALT and AST in serum， the protein expression level of TNF-α in liver tissue were decreased significantly in G. uralensis groups， while the protein expression level of IL-10 in liver tissue was increased significantly （P＜0.05 or P＜0.01）. CONCLUSIONS： G. uralensis water extract can relieve triptolide-induced acute liver injury in rats， the mechanism of which may be associated with expression down-regulation of pro-inflammatory factor TNF-α and expression up-regulation of anti-inflammatory factor IL-10.