Damoon Ashtary‐Larky scite author profile

IntroductionDiabetes is a serious metabolic disorder and plenty of medical plants are used in traditional medicines to treat diabetes. These plants have no side effects and many existing medicines are derived from the plants. The purpose of this systematic review is to study diabetes and to summarize the available treatments for this disease, focusing especially on herbal medicine.MethodsRequired papers about diabetes and effective plants were searched from the databases, including Science direct, PubMed, Wiley, Scopus, and Springer. Keywords in this study are ”medicinal plants”, “diabetes”, “symptom”, “herbal”, and “treatment”. Out of the 490 collected articles (published in the period between 1995 and 2015), 450 were excluded due to non-relevance or lack of access to the original article.ResultsDiabetes is mainly due to oxidative stress and an increase in reactive oxygen species that can have major effects. Many plants contain different natural antioxidants, in particular tannins, flavonoids, C and E vitamins that have the ability to maintain β-cells performance and decrease glucose levels in the blood.ConclusionAccording to published results, it can be said that medical plants are more affordable and have less side effects compared synthetic drugs, and are more effective in treatment of diabetes mellitus.

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Phytochemistry, pharmacology, and therapeutic uses of black seed ( Nigella sativa )

Kooti

Hasanzadeh-Noohi

Sharafi-Ahvazi

et al. 2016

Chinese Journal of Natural Medicines

214

165

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Does green tea extract enhance the anti‐inflammatory effects of exercise on fat loss?

Bagheri

Rashidlamir

Ashtary‐Larky

et al. 2020

Brit J Clinical Pharma

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Aims Green tea extract (GTE) can exert antiobesity and anti‐inflammatory effects. Our study determined whether the benefits of GTE are summative with exercise‐induced changes in anthropometric indices, and the levels of inflammatory cytokines, adiponectin and irisin in inactive overweight women. Methods Thirty overweight female participants were randomized to 3 groups: endurance training + placebo (ET + P); endurance training + GTE (ET + GTE); and Control (no exercise) + placebo (Control, n = 10). The exercise intervention consisted of an 8‐week endurance‐training programme of 3 sessions per week (aerobics, aerobic circuit training, and fast walking or jogging at a moderate intensity of 40–59% of the heart rate reserve). The dose of GTE used was 500 mg/day in the form of a green tea capsule. Results Body weight, body mass index, waist to hip ratio and body fat percentage were decreased in both ET + P and ET + GTE interventions (P < .001 for both interventions). The reduction of anthropometric values in the ET + GTE group was significantly higher than ET + P interventions (P < .001). Both exercise interventions also significantly (P < .001) increased adiponectin (ET + GTE = 5.28 mg/mL [95% confidence interval {CI}, 4.48 to 6.08] and ET + P = 3.34 mg/mL [95% CI, 2.76 to 3.92]) and decreased high‐sensitivity C‐reactive protein (hs‐CRP; ET + GTE = −0.95 mg/L [95% CI, −1.15 to −0.75] and ET + P = −0.35 mg/L [95% CI, −0.46 to −0.24]). Changes in adiponectin and hs‐CRP were greater (P < .05) in ET + GTE compared to ET + P. There were no significant differences in irisin, interleukin‐6 or tumour necrosis factor‐α between the 3 groups (P > .05). Conclusions GTE improves exercise‐induced body composition by further decreasing exercise‐induced changes in weight, body mass index, waist to hip ratio and body fat percentage. The combination of GTE and exercise also produced greater changes in anti‐inflammatory (increases in adiponectin) and metabolic (decreases in hs‐CRP) markers than exercise alone.

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Effects of green tea extract supplementation and endurance training on irisin, pro-inflammatory cytokines, and adiponectin concentrations in overweight middle-aged men

et al. 2020

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Salivary Testosterone Levels Under Psychological Stress and Its Relationship with Rumination and Five Personality Traits in Medical Students

Afrisham

Sadegh-Nejadi

Soliemanifar

et al. 2016

Psychiatry Investig

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ObjectiveThe purpose of this study was to evaluate the salivary testosterone levels under psychological stress and its relationship with rumination and five personality traits in medical students.MethodsA total of 58 medical students, who wanted to participate in the final exam, were selected by simple random sampling. Two months before the exam, in the basal conditions, the NEO Inventory short form, and the Emotional Control Questionnaire (ECQ) were completed. Saliva samples were taken from students in both the basal conditions and under exam stress. Salivary testosterone was measured by ELISA. Data was analyzed using multivariate analysis of variance with repeated measures, paired samples t-test, Pearson correlation and stepwise regression analysis.ResultsSalivary testosterone level of men showed a significant increase under exam stress (p<0.05). However, a non-significant although substantial reduction observed in women. A significant correlation was found between extroversion (r=-0.33) and openness to experience (r=0.30) with salivary testosterone (p<0.05). Extraversion, aggression control and emotional inhibition predicted 28% of variance of salivary testosterone under stress.ConclusionSalivary testosterone reactivity to stress can be determined by sexual differences, personality traits, and emotional control variables which may decrease or increase stress effects on biological responses, especially the salivary testosterone.

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