Armin Derakhshideh scite author profile

Background Obesity is known as one of the major causes of epidemiologic diseases worldwide; therefore, the introduction of treatment strategies by medical professionals, such as the use of various medicines and exercise programs to reduce fat or prevent obesity, is on the rise. Recently, researchers have shown special interest in assessing the effect of lipolytic adenosine and vitamin D deficiency, as well as the effect of exercise, on decreasing body fat percentage. Objective This study has been designed to examine the effect of adenosine and vitamin D3 injections, in conjunction with high-intensity interval training and isocaloric moderate-intensity training, on the metabolic parameters of obesity induced by a high-fat diet. Methods This is an experimental study using 92 Wistar rats. At 6 weeks of age, the rats' weights will be recorded, after which they will have 1 week to adapt to their new environment before being divided into 12 groups. The rats will participate in a 2-stage experimental intervention, including a 13-week fattening diet phase followed by a 12-week exercise training phase consisting of an exercise program and the injection of adenosine and vitamin D3. Groups 1 and 2 will have a normal diet, and the other groups will have a diet of 40% fat, with free access to food and water up to the second half of the second stage of the study (end of the sixth week of training). After termination of the interventions, tissue collection and molecular assessments (blood for biochemical, tissues for gene expression analyses, and anthropometrical indexes) will be performed. Results The project was initiated in April 2017 and completed in December 2017. Data analysis is under way, and the first results are expected to be submitted for publication in November 2018. Conclusions We hypothesize that weight loss–induced molecular changes and upregulation will be observed in line with an increase in lipolysis and beta oxidation in muscle and fat tissue as a result of performing isocaloric training in drug-receiving rats and groups on a high-fat diet. International Registered Report Identifier (IRRID) RR1-10.2196/10753

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Investigating the protective effect of aerobic exercise on oxidative stress and histological damages of testicular tissue associated with chlorpyrifos in male rats

Nikbin

Derakhshideh

Jafari

et al. 2019

Andrologia

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The current study aimed to investigate the protective effects of moderate aerobic exercise against chlorpyrifos (CPF)‐induced testes dysfunction. In excremental study, 48 adult male albino rats were randomly allocated into 16 groups of 3 rats each. Twelve experimental groups received intraperitoneal injection (5 days a week) of either 1.0 or 3.0 mg/kg body weight CPF in DMSO for 2, 4 or 6 consecutive weeks. Seven of these experimental groups were subjected to run at moderate exercise intensity for 5 days per week over 2 weeks, whereas the other groups were not. Two groups (sham groups) were administered to the equal volume of vehicle (DMSO) for 4 or 6 consecutive weeks. The remaining two groups comprised the control groups including a sedentary and an exercise‐trained control group. Exercise training leads to a markedly increase in testicular superoxide dismutase (SOD) activity in CPF‐exposed rats compared with corresponding sedentary animals (p < .05). Lipid peroxidation level was found to be significantly decreased in the testis of exercised animals that had been exposed to CPF (p < .05). Our results suggest that aerobic exercise can alleviate the oxidative stress induced by sub‐acute CPF exposure in testis. Exercise training could barely mitigate CPF‐induced testicular damages in rats.

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Synergic effects of aerobic exercise and eugenol supplement on germ cell development and testicular tissue structure in chlorpyrifos-treated animal model

Nikbin

Derakhshideh

Tarighe

et al. 2020

Environ Sci Pollut Res

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Combination effect of exercise training and eugenol supplementation on the hippocampus apoptosis induced by chlorpyrifos

et al. 2020

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Role or Synergistic Interaction of Adenosine and Vitamin D3 Alongside High-Intensity Interval Training and Isocaloric Moderate Intensity Training on Metabolic Parameters: Protocol for an Experimental Study (Preprint)

Mirghani¹,

Peeri²,

Yekani³

et al. 2018

Preprint

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Background: Obesity is known as one of the most major cause of epidemiologic disease worldwide. Therefore, introducing treatment strategies including various medicines to reduce fat or prevent obesity in addition to methods of exercise programs by medical professionals and exercise scientists is on the increase. Recently, researchers have shown special interest in assessing the effect of lipolytic adenosine and vitamin D deficiency. On the other hand, the effect of exercise on decreasing body fat percent has been indicated by many researchers.Objective: This research has been designed to examine the effect of injection of adenosine, vitamin D3 and High intensity interval training and isocaloric Moderate intensity training on metabolic parameters in obesity induced by high-fat diet.Methods: This is an experimental study. We will select 79 rats and then after getting weight till to 6 weeks will divide in 12 groups. After one week of adaptation to a new environment, 12 groups of Wistar rats will participate in two stages of the experimental intervention including 13 weeks of fattening diet followed by 12 weeks of exercise program and injection of adenosine and vitamin D3. All the rats in the normal diet(except 1 and 2 groups) will consume 40% fat and have free access to food and water up to the second half of the second stage (end of the sixth week of training). After termination of the interventions, tissue collection and molecular assessments (blood for biochemical, tissues for gene expression analyses and anthropometrical indexes) will be performed.Results: The project was founded in April 2017 and completed in December 2017. Data analysis is under way, and the first results are expected to be submitted for publication in July 2018.Conclusion: We supposed that weight loss induced molecular changes and up regulation will be observed in line with increase in lipolysis and beta oxidation in muscle and fat tissue as a result of performing isocaloric training in drug receiving rats and groups on high fat diet.

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