Experimental studies on anti-fatigue effects and spectra-effect relationship of different extracts from black Lepidium meyenii (Maca) / 中草药

Objective To investigate the anti-fatigue effects and the relationship between UPLC and anti-fatigue effects of different extracts of black Maca, and to provide a basis for clarifying the material basis of anti-fatigue effects of black Maca. Methods Anti- fatigue effects of eight different extracts of black Maca were evaluated through exhaustive swimming time, contents of liver glycogen, and lactic acid in serum; UPLC-Q-TOF/MS was applied to establish the fingerprints for black Maca from eight extracts; Using the anti-fatigue effects of exhaustive swimming experiment as pharmacodynamic indicators, spectra-effect relationship was analyzed by using PLSR. Results 60%, 80%, and 95% ethanol extracts of black Maca could significantly prolong the exhaustive swimming time of mice, with the effects of 95% ethanol extract of black Maca was the strongest; The treatment of 80% ethanol extract of black Maca significantly increased the level of depressed hepatic glycogen due to excessive exercise; Moreover, 95% ethanol extract of black Maca substantially decreased the serum lactic acid accumulation after loaded-swimming. A total of 23 characteristic peaks were characterized by HPLC fingerprints of eight different extracts of black Maca. N-benzylhexadecanamide, N-benzyl-5-oxo-6E,8E-octadecadienamide, 1,3-dibenzyl-2-phenyl-4,5-dimethylimidazilium, and N-octadecanamide were found to be positively related to the anti-fatigue effects with VIP > 1 in extracts of black Maca from PLSR analysis by using anti-fatigue effects of exhaustive swimming time as pharmacodynamic indicators. Conclusion 95% and 80% ethanol extracts of black Maca showed the obvious anti-fatigue function. It is clear that four components N-benzylhexadecanamide, N-benzyl-5-oxo-6E,8E-octadecadienamide, 1,3-dibenzyl-2-phenyl-4,5-dimethylimidazilium, and N-octadecanamide are the principal anti-fatigue substances in black Maca. The study has the contribution to to explore the material basis of anti-fatigue effects and provides new ideas for the omprehensive and reliable quality control of black Maca.

Study on establishment of an animal model of Qi deficiency syndrome base on theory of over exertion leading to Qi consumption in traditional Chinese medicine / 中国中药杂志

Based on the theory of "overexertion leading to Qi consumption", this study aimed to compare the intervention factors of nervous and physical fatigue to establish a rat model of Qi deficiency syndrome, moreover, the systematic evaluationsystem was necessary with the standard of syndrome diagnosis of Qi deficiency. According to the clinical-mimetic principle the Qi deficiency syndrome animal model is established by the factors of sleep deprivation(SD) and exhaustive swimming(ES). Rats were randomly divided into four groups, normal group, SD group, ES group and compound group (exhaustion swimming complex sleep deprivation). The method of ES was force rats to swim until the exhaustion with 5% of weight, and the SD method by using multi-platform sleep deprivation of water environment randomly 14-16 h daily, and the complex set by using of two methods was combined. The movement distance, average speed, activity time and numbers into the central area were detected by open field test, swimming exhaustion time was detected by swimming exhaustion method, the cardiac function (LVEF, CO, FS, LVDd) was detected by echocardiography, tongue imaging analysis and pulsedistention as the index of tongue and pulse diagnosis, the content of ATP and ADP in serum was detected by ELISA, the blood coagulation indexes for blood stasis syndrome as the additional. These results indicated that independent activity, body weight and exercise capacity were decreased significantly, the neurological function injured significantly, heart function was decreased significantly, the tongue surface color was pale white, and the pulse distention was decreased significantly. The content of ATP decreased significantly and the ADP increased significantly. By the method of four-diagnostic evaluation system to compare the factors of SD and ES, the Qi deficiency syndrome animalmodel could be successfully established by sleep deprivation method.

Optimization of chronic heart failure model induced by coronary artery ligation in rats with swimming exhaustion / 中国临床药理学与治疗学

AIM:To establish the rat model of ischemic chronic heart failure by coronary artery ligation combining with exhaustive swimming.METHODS:40 adult rats were treated with coronary artery ligation,after 4 weeks cardiac function measurement were conducted by ultrasonography.Rats with LVEF below 40％ are considered as successful model duplication.11 rats were collected for the coronary artery ligation group,while the rest (whose LVEF were bigger than 40％) were pushed to swim for 1h per day by 15 days to promote the model formation which 8 rats were collected for exhaustion with ligation group.Left ventricular function indexes,brain natriuretic peptide (BNP) and cardiac histomorphologic changing were checked,and compared with the Control group (10 rats).RESULTS:LVEF of exhaustion with ligation group was (38.70 ± 10.10) ％,coronary artery ligation group (39.20 ± 11.10)％,which was obviously decreasing (P ＜ 0.01) compared with that of the control group (84.60 ± 3.64) ％.LVEDP of exhaustion with ligation group was (11.5 ± 1.3) mm Hg,coronary artery ligation group [(10.68 ± 4.45)mm Hg],which was obviously increasing (P ＜ 0.01)compared with that of the Control group [(4.4 ± 0.2) mm Hg].The BNP level of exhaustion with ligation group was (561.0 ± 21.0) μg/L,coronary artery ligation group (548.6 ± 25.8) μg/L,which was obviously increasing (P ＜0.01) compared with that of control group [(366.2 ± 21.8) μg/L].There are lots of red myocardial cells with stripe clear in the control group based on Masson's trichrome staining,but there are so many blue collagenous fibers instead of myocardial cells in exhaustion with ligation group and coronary artery ligation group.The standard-reaching rate of model was about 35％ at 4 weeks after operation,while final standard-reaching rate rose to about 62％ after exhausting swimming.Although the difference between the indexes of the coronary artery ligation group and the post ligation group was not significant,the rate of improvement was significant (P ＜ 0.01).CONCLUSION:Ligation of coronary artery combined with swimming exhaustion can establish ischemic chronic heart failure model,which is more economic and can obtain high success rate,thus is suitable to generalization.

Anti-fatigue effect of arginyl fructosyl glucose from red ginseng in mice / 吉林大学学报(医学版)

Objective:To investigate the anti-fatigue phenomenon induced by forced swimming in the mice,and to explore the anti-fatigue effect of argininyl fructoyl glucose (AFG) from red ginseng in the mice and its mechanism.Methods:The AFG was extracted from red ginseng.The ICR mice were divided into blank control group,low dose of AFG group (100 mg · kg-1),middle dose of AFG group (200 mg · kg-1) and high dose of AFG group (400 mg · kg-1) (n=20).The mice mere given a forced swimming test after continuous gavage for 28 d.The weights,organ indexes,time of forced swimming,contents of lactic acid (LD),blood urea nitrogen (BUN),hepatic glycogen (Gly) and expressing levels of PGC-1α in gastrocnemius of the mice in various groups were detected.Results:Compared with blank control group,the weights and organ indexes of the mice in low,middle and high doses of AFG groups had no significant differences (P＞ 0.05).Compared with blank control group,the time of forced swimming,contents of Gly and expressing levels of PGC-1α of the mice in low,middle and high doses of AFG groups were significantly increased (P＜0.05 or P＜0.01) in a dose-dependent manner.Compared with blank control group,The contents of LD and BUN in serum of the mice in low,middle and high doses of AFG groups were significantly decreased (P＜0.01).Conclusion:AFG has anti-fatigue effect in mice,and its mechanism may be related to energy metabolism.

Anti-fatigue effect of arginyl fructosyl glucose from red ginseng in mice / 吉林大学学报(医学版)

Objective:To investigate the anti-fatigue phenomenon induced by forced swimming in the mice,and to explore the anti-fatigue effect of argininyl fructoyl glucose (AFG) from red ginseng in the mice and its mechanism.Methods:The AFG was extracted from red ginseng.The ICR mice were divided into blank control group,low dose of AFG group (100 mg · kg-1),middle dose of AFG group (200 mg · kg-1) and high dose of AFG group (400 mg · kg-1) (n=20).The mice mere given a forced swimming test after continuous gavage for 28 d.The weights,organ indexes,time of forced swimming,contents of lactic acid (LD),blood urea nitrogen (BUN),hepatic glycogen (Gly) and expressing levels of PGC-1α in gastrocnemius of the mice in various groups were detected.Results:Compared with blank control group,the weights and organ indexes of the mice in low,middle and high doses of AFG groups had no significant differences (P＞ 0.05).Compared with blank control group,the time of forced swimming,contents of Gly and expressing levels of PGC-1α of the mice in low,middle and high doses of AFG groups were significantly increased (P＜0.05 or P＜0.01) in a dose-dependent manner.Compared with blank control group,The contents of LD and BUN in serum of the mice in low,middle and high doses of AFG groups were significantly decreased (P＜0.01).Conclusion:AFG has anti-fatigue effect in mice,and its mechanism may be related to energy metabolism.

Influence of glycine supplement on partial biochemical indicator in exhausive exercise mice / 重庆医学

Objective To investigate the influence of glycine supplement on partial biochemical indicator in exhaustive exer‐cise mice .Methods Divided Kunming′s male‐mice into 3 group(10/group):exhaustive swimming group(E) ,exhaustive swimming group with glycine supplement(G) and silent control group (S) .Mice in the G group was treated with 4‐weeked intragastric admin‐istration of glycine ,while mice in other 2 groups received physiological saline .After 4 weeks ,mice in E and G group did the exhaus‐tive swimming exercise .After sampling ,the activity of complement hemolytic activity was measured ,and the serum levels of some biochemical indexes were determined .Results Time of exhaustive swimming in G group was significantly longer than E group(P0 .05) .Conclusion Exhaustive swimming mice can have part indicator abnormali‐ty ,but Glycine supplement can effectively improve that condition and enhance the exercise ability to some extent .

Anti-fatigue effects of polysaccharides extracted from Portulaca oleracea L. in mice.

Portulaca oleracea L. has been used as a food and medicinal plant for thousands of years in China. Polysaccharides extracted from P. oleracea L. (POP) are its main bioactive compound and have multiple pharmacological activities. However, anti-fatigue effects of POP have not yet been tested. This study was designed to investigate the anti-fatigue effects of POP in mice using the rotarod and forced swimming tests. The mice were randomly divided into four groups, namely normal control group, low-dose POP supplementation group, medium-dose POP supplementation group and high-dose POP supplementation group. The normal control group received distilled water and the supplementation groups received different doses of POP (75, 150 and 300 mg/kg, respectively). The POP or distilled water was administered orally and daily for 30 day. After 30 days, the rotarod and forced swimming tests were performed and then several biochemical parameters related to fatigue were determined. The data showed that POP prolonged the riding times and exhaustive swimming times of mice, decreasing blood lactic acid and serum urea nitrogen levels, as well as increasing the liver and muscle glycogen contents. These results indicated that POP had the anti-fatigue effects.

Ação do licopeno nos músculos esquelético e cardíaco sob estresse oxidativo por exercícios / Action of lycopene on the cardiac and skeletal muscles under oxidative stress by exercises / Acción del licopeno en los músculos cardiaco y esquelético bajo estrés oxidativo por ejercicios

INTRODUÇÃO: Os radicais livres produzidos durante os exercícios podem exceder o sistema de defesa antioxidante, provocando danos oxidativos de biomoléculas específicas. As lesões causadas pelos radicais livres nas células podem ser prevenidas ou reduzidas por meio da atividade de antioxidantes naturais, sendo estes encontrados em muitos alimentos. O licopeno é um dos mais potentes carotenoides com ação antioxidante, sendo utilizado na prevenção da carcinogênese e aterogênese por proteger moléculas como lipídios, lipoproteínas de baixa densidade (LDL), proteínas e DNA. OBJETIVO: Investigar a atuação do licopeno a uma possível ação protetora das fibras musculares cardíacas e esqueléticas contra o estresse oxidativo, durante a atividade física exaustiva, a qual provocaria alterações morfológicas nesses tecidos. Método: Na realização dos experimentos foram utilizados 32 ratos machos adultos divididos em quatro grupos, sendo dois grupos controles e dois grupos treinados sem e com suplementação de licopeno (6 mg por animal). Os animais dos grupos treinados foram submetidos a 42 sessões de natação por nove semanas, com sessões diárias de natação, cinco dias por semana, com sobrecarga produzida pelo aumento do tempo de treinamento. A avaliação morfológica foi realizada por meio de lâminas histológicas dos tecidos cardíaco e muscular esquelético. RESULTADOS: Modificações teciduais cardíacas e musculares esqueléticas no grupo treinado sem suplementação com licopeno foram observadas, sendo que o grupo treinado suplementado apresentou aspecto morfológico normal. Nos grupos sedentários controle suplementado e não suplementado não houve alteração ...

INTRODUCTION: Free radicals produced during exercise may exceed the antioxidant defense system, causing oxidative damage to specific biomolecules. The lesions caused by free radicals in cells can be prevented or reduced by natural antioxidants, which are found in many foods. Lycopene is one of the most potent carotenoids with antioxidant properties, and it is used to prevent carcinogenesis and atherogenesis, as it protects molecules such as lipids, low-density lipoproteins (LDL), proteins and DNA. OBJECTIVE: To investigate the role of lycopene as a potential protector of cardiac and skeletal muscle fibers against oxidative stress during strenuous exercise, which would cause morphological changes in these tissues. METHODS: The experiments consisted of 32 adult male rats divided into four groups: two control groups and two trained groups with and without lycopene supplementation (6 mg per animal). The animals of the trained groups were subjected to 42 swimming sessions over a nine-week period, involving daily swimming sessions, five days a week, with overload produced by increasing the training time. The morphological analysis was performed using histological slides of cardiac and skeletal muscle tissues. RESULTS: Modifications were observed in cardiac and skeletal muscle tissue in the trained group that did not receive lycopene supplementation, while the trained group supplemented with lycopene showed muscle tissue with a normal morphological appearance. The tissues of both supplemented and non supplemented sedentary control groups showed no change in their histological characteristics. CONCLUSION: It can be stated that lycopene exerted a protective effect on cardiac and skeletal muscles against oxidative stress induced by strenuous exercise, besides promoting cardiac neovascularization, and can be used efficiently by athletes and physically active individuals. .

INTRODUCCIÓN: Los radicales libres producidos durante los ejercicios pueden exceder el sistema de defensa antioxidante, provocando daños oxidativos de biomoléculas específicas. Las lesiones causadas por los radicales libres en las células pueden ser prevenidas o reducidas por medio de la actividad de antioxidantes naturales, siendo éstos encontrados en muchos alimentos. El licopeno es uno de los más potentes carotenoides con acción antioxidante, siendo utilizado en la prevención de la carcinogénesis y aterogénesis por proteger moléculas como lípidos, lipoproteínas de baja densidad (LDL), proteínas y DNA. OBJETIVO: Investigar la actuación del licopeno a una posible acción protectora de las fibras musculares cardiacas y esqueléticas contra el estrés oxidativo, durante la actividad física exhaustiva, la cual provocaría alteraciones morfológicas en esos tejidos. MÉTODOS: En la realización de los experimentos fueron utilizados 32 ratones machos adultos divididos en cuatro grupos, siendo dos grupos controles y dos grupos entrenados sin y con suplementación de licopeno (6 mg por animal). Los animales de los grupos entrenados fueron sometidos a 42 sesiones de natación por nueve semanas, con sesiones diarias de natación, cinco días por semana, con sobrecarga producida por el aumento del tiempo de entrenamiento. La evaluación morfológica fue realizada por medio de láminas histológicas de los tejidos cardiaco y muscular esquelético. RESULTADOS: Fueron observadas modificaciones tisulares cardiacas y musculares esqueléticas en el grupo entrenado sin suplementación con licopeno, siendo que el grupo entrenado suplementado presentó aspecto morfológico normal. En los grupos sedentarios control suplementado y no suplementado no hubo alteración en relación ...