Gait

Introduction: muscle performance could be influenced by physical features of the body. The purpose of this study was to investigate the effect of the body type on the electrical activity of the abdominal muscles during gait. Materials and Methods: Heath Carter somatotype method was used to determine body type. The performance of rectus abdominis muscle (RA), internal oblique muscle (IO) and external oblique muscle (EO) was recorded. The mean and the standard deviation were used for description of the data and ANOVA and post-hoc Tukey were utilized for comparison between three body types at the significance level of P<0.05. Results: The results showed that there is a significant difference in the root mean square (RMS) of EO and IO and the average percentage of that is higher in ENDO in comparison with the other two types. Also, the duration of electrical activity (DEA) was only significant for the IO between the endomorphs (ENDO), the mesomorphs (MESO) and the ectomorphs (ECTO) and its mean was higher for the ENDO. Discussion: According to the findings of the study, we could claim that the difference in the performance pattern of the muscles in the abdominal area during gait is influenced by body type.

Background: Both of transcranial direct current electrical stimulation (tDCS) and neuromuscular training (NMT) have used to relive motor deficits in neurological disease.Aim: We decided to investigate augmenting effect of tDCS and NMT to improve static and dynamic balance and gait parameter in autism spectrum disorder (ASD).Materials and Methods: 24 children with ASD aged 6-10 years old were randomly assigned to one of three groups: NMT+ sham, anodal tDCS, and NMT + tDCS. NMT consisted of 10 sessions motor training (each for 40 min). tDCS training was performed with 1.5 mA on left primary motor cortex for 20 min. Pre-test and post-test evaluations included static and dynamic balance and gait parameters (length and width of stepping and speed of gait).Results: Although improvement of variables were seen in all groups, but in post intervention comparison, combined group was better in static and dynamic balance and gait parameters than two other groups. NMT was more effective than tDCS only in dynamic balance.Conclusion: Our findings were indicated tDCS enhance NMT effect on neuromuscular function in ASD, so regarding the augmented effect in combination of NMT and tDCS, it can be considered in rehabilitation of motor deficits in these children.