Research in Sport Medicine and Technology

improves insulin resistance. However, the effect of training sessions a day is not
clear in this regard. The aim of this study was to investigate the effect of one or
two sessions a day of exercise training, with equal intensity and duration, on
insulin resistance in sedentary middle-aged men. Materials & Methods: 30
sedentary middle-aged male volunteers (age=43.6±6.5 yr, weight=80.4±13.6kg,
height=174.1±5.5cm,BMI=26.5±3.6kg/m2،VO2max=35.46±6ml/kg) randomized to
the control (n=10), one session a day (n=10)and two sessions a day training
group( n=10). Exercise program consisted of 16 weeks, five days a week, tread
mill running which was implemented as one (30 minutes) or two sessions (2×15
minutes) a day. Training intensity was 40-50% of HRmax at first week and
reached to 70-80% at 16th week of the training. Measurements of fasting blood
samples (insulin, glucose and adiponectin), insulin resistance, cardiorespiratory
fitness, abdominal obesity and BMI were obtained at baseline and post
exercise. Paired t test and analysis of Variance were used to analyze the data.
Results: After 16 weeks of training, compared with the control group, a
significant reduction in blood glucose, abdominal obesity and BMI, and a
significant increase in cardiorespiratory fitness were observed in the both
experimental groups; whereas insulin resistance remained unchanged, and
adiponectin was significantly increased only in the one session a day training
group. Conclusion: based on the findings it seems that, dividing the physical
activity session in two shorter parts can improve glucose profile, cardiorespiratory
fitness and obesity indicators the same as a continuous exercise session. But in
terms of increased adiponectin and decreased abdominal obesity, continuous
exercise session is more effective.

The aim of the present study was to investigate the effect of glucose and glutamine supplementation on serum HSP72, in non-athlete men during four weeks exhaustive endurance - intermittent training that causes glycogen depletion. For this purpose 20 non-athlete healthy men were selected and randomly divided into four groups including: glucose supplementation with glycogen depletion training group (n = 5, supplement 1), glutamine supplementation with glycogen depletion training group (n = 5, supplement 2), glycogen depletion training group (n = 5, placebo) and a group without any treatment (n = 5, control). The blood samples were collected at the onset of training protocol period and 48 hours after final training session from anticubital venous. Serum HSP72 concentration were determined by ELISA technique. The main and interaction effects of variables were determined using TWO WAY ANOVA compeleted with Tukey post-hoc test. The significant level was chosen as &alpha; = 0.05.The results showed the significant effect of training variable for serum HSP72 concentration, [F(1,17)= 6.362 P<0.05] . The effect of supplementation variable was significant for serum HSP72 concentration, [F(1,17)= 15.362 P<0.01] . Post-hoc test showed the significant difference between placebo with supplement 1 group (p<0.05) and placebo with supplement 2 group (p<0.01). The interaction effect between two variables was not significant. In summery, the results suggested that in glycogen depletion training condition, glucose or glutamine supplementation have significant effect on serum HSP72 concentration.