Aim and Background: Today different doses of drugs are used in the treatment of Attention Deficit Hyperactivity Disorder (ADHD). Non-medical treatments such as physical activity have recently been considered. The purpose of this study was to investigate the effects of endurance training along with methylphenidate consumption on Behavioral symptoms in male rats with ADHD.

Methods and Materials: A laboratory research method was used. The subjects were 40 Wistar rats (mean and standard deviation of 181.78 ± 8.39 g) and aged 8-12 weeks. A 5-member group (mean and standard deviation of 182.6 ± 51.6 g) were randomly selected for sampling and blood sampling, and 35 rats (mean and standard deviation of 181.66 ± 8.09 g) to 5 Group 7 (control group and 4 groups of attention deficit hyperactivity disorder: methylphenidate use, endurance training, methylphenidate use and endurance training, without methylphenidate and no endurance training). 10 mg L-NAME for 8 weeks and 6 days per week for each rat was injected sub peritoneally for the attention deficit-hyperactivity disorder in rats. Angiotensin converting enzyme (ACE) and nitrite oxide (NO) were used to detect hypertension in rats after L-NAME injection. The open field test for over-active detection, and 5-band treadmill for endurance training of rats were used. The balance test was taken before and after 4 weeks of training. The drug group received 2 mg of methylphenidate daily per kg of body weight orally. The rats ran for 28 days each day (5 days a week) for 28 days. The practice load for training groups included running at speeds of 2 to 8 m / min for 30 minutes. Descriptive statistics were used to determine mean, mean, standard deviation, drawing tables and charts. For normalization of the distribution of dependent variables from the Kolmogorov-Smirnov and one-way variance for intra-group variation.

Findings: The results showed that the number of stands in the control group was higher than in all other groups and the number of traveled squares was less (p<0.001). The number of stands in the ADHD group was lower than in all other groups and the number of traveled squares was higher (p<0.001). There was no significant difference between the number of stands and the number of traveled squares in the ADHD group + Endurance exercises with ADHD + methylphenidate and also the ADHD group + methylphenidate + endurance training (p<0.001).

Conclusions: It seems that endurance training and methylphenidate consumption affect the behavioral patterns of the animal model of ADHD and it can be recommended that physical activity be used as an effective method to replace the use of methylphenidate.

Aim and Background: Some studies have looked at the effects of drugs such as methylphenidate on sexual parameters, testicular development, sperm motility and spermatogenesis, and the negative effects of these drugs have been shown on this variable. Therefore, the purpose of this study was the comparison of two approach of exercise training and therapeutic on some structural changes in testicular tissue in rats with Attention Deficit-Hyperactivity Disorder (ADHD).

Methods and Materials: A Laboratory research method was used. The research design was a post-test type with experimental and control group. 40 male Wistar rats (4-6 weeks) were divided into two control groups (7 heads for comparison with L-NAME injection group) and the L-NAME injection in the first stage. In the second stage, the L-NAME injection group at the age of 8 to 12 weeks (mean and standard deviation of 184.23± 7.83 g) was divided into 5 groups (for blood sampling and angiogenesis and nitrite oxide converting enzyme evaluation before Intervention group) and 4 groups of 7 ADHD groups without medication and no endurance training (compared with intervention groups), and intervention groups including ADHD+ endurance training, ADHD+ methylphenidate, ADHD+ endurance training+ methylphenidate intake. ADHD+ Methylphenidate and ADHD+ Endurance Exercise+ Methylphenidate 2 mg daily methylphenidate was given daily for 5 days per week orally. The open field test for overactive detection, and 5-band treadmill for endurance exercises in rats were used. The practice load for training groups after 5 days of introduction in the first week was 20 m/min, the second and third weeks were 25 m/min, the fifth was 30 m/min, and the sixth and seventh weeks were 35 m/min.

Findings: The results showed that there was no significant difference between the diameter of the seminiferous and spermatogenic tubules and the lidik cells in the control group compared to the ADHD+ endurance training group, but between the control group and the other groups (ADHD without exercise and without methylphenidate, ADHD+ methylphenidate consumption, ADHD+ methylphenidate consumption+ endurance training) had a significant difference (P≤.001). Also, there was a significant difference between the sertoli cells of the control group and ADHD without exercise and without methylphenidate (P ≤.001), but compared with other groups (ADHD+ endurance training, ADHD+ methylphenidate consumption+ endurance training, ADHD+ methylphenidate consumption), there was no significant difference (P≥.05).

Conclusions: It seems that Endurance exercises can to replace the use of methylphenidate in relation to structural changes in the testicular tissue in the animal model of ADHD.