Roya Askari, Mohammad Reza Hamedinia,
Volume 14, Issue 5 (7-2015)
Abstract
Background: Apelin increases insulin insensitivity but its correlation with exercise training has less been taken in to consideration. The aim of this paper was to evaluation the effect of combined (resistance, endurance) and endurance training on plasma Apelin and in insulin sensitivity.
Methods: Forty -five volunteered students of eligible (BMI: 25-30,Health and inactive) were randomly divided into three groups, combined, endurance and control.The trainedgroups were trained forfour days per week, during 12 weeks. In combined group, endurance interval training was performed fromfivereplication with three minutebeginningand in final weeks reached to thirteen replications of 3 minutes with resting time of 1 to 2minutes. Intensity was 60-80% HRmax and resistance training planning: 2days per week,7 stations(Boat,leg press,buttreflys, Knee extension and flexion, forearm flexion and extension) 8-12 replication, resting time between the intervals and sets consequently: 30-60 ,60-90 second . The endurance group was trained with the same endurance section of combined group. Pre and post weeks, plasma Apelin,glucose and lipid profiles were measured in groups. Data were analyzed by One Way - Anova,significant level was P&le0/05, using SPSS, ver 18.
Results: Plasma Apelin decreased significantly compared with the control group (P=0/0001).In training groups, HDL-c had in the training group increased compared with the control group (P= o/o43). Insulin Insensitivity wasn't different among groups (P&ge0/05).
Conclusion: This paper showed that 12 weeks of combined or Endurance training had significantly decreased plasma Apelin and both training groups had an increase in their HDL-c but all of the exchanges were free of insulin sensitivity.
Fahimeh Kazemi, Saleh Zahedi Asl,
Volume 16, Issue 2 (1-2017)
Abstract
Background: Recently the role of apelin in inflammation has been known. However, the effect of exercise training-induced cytokine apelin in diabetes status hasn’t been investigated. The purpose of this study was to determine the atni-inflammation effect of 8-week aerobic training on apelin plasma concentration in diabetic male rats.
Methods: Twenty eight diabetic male Wistar rats were randomly divided into 3 groups: Non-diabetic (n=9), control diabetic (n=9) and trained diabetic (n=10). Type 2 diabetes was induced by intraperitoneal injection of nicotinamide (95 mg/kg body weight) and streptozotocin (60 mg/kg body weight). The training group ran 8-week on treadmill progressively for 45 min at a speed of 24 m/min and a 5% grade. After the training, plasma concentrations of glucose, insulin, TNF-α and apelin were measured and HOMA-IR was calculated. One-way analysis of variance (ANOVA) and Pearson’s correlation was used for analyzing data. P<0.05 was considered to be statistically significant.
Results: Results showed a significant decrease in plasma concentrations of glucose, insulin and TNF-α and HOMA-IR in trained diabetic vs control diabetic group, a significant increase in plasma concentration of apelin in trained diabetic group vs non-diabetic and control diabetic group and a significant negative correlation between plasma concentrations of apelin and TNF-α in trained diabetic group.
Conclusion: It appears that 8-week aerobic training by improvement of insulin sensitivity and decrease of inflammation can increase plasma concentration of apelin in diabetic male rats.
Laleh Ranjbar, Farzaneh Taghian, Mehdi Hedayati,
Volume 17, Issue 4 (5-2018)
Abstract
Background: Apelin is an Adipokine which is recently discovered and widely secreted from white adipose tissue and in fat and overweight person, apelin values and gene expression increase .In this study, the effect of one period aerobic exercise and vitamin D consumption on weight, plasma apelin values and insulin resistance in overweight women was researched.
Method: In order to doing this reasearch 40 women whom have over weight with , average old , weight , height, BMI and WHR respectively : (30.37 ± 6.91) years old , (74.89 ± 12.97) kg , (157 ± 7.02) m , (30.08 ± 3.95) kg/m2 , (0.81 ± 0.07). After passing the medical sepration dived to 4 experimental group: 1st experiment group (aerobic exercise) n=10, 2nd experimental group (aerobic exercise and vitamin D) n=10, 3rd experimental group (vitamin D) n=10 and control group n=10. At first body composition was measured th included: BMI, WHR, weight, waist and hip size. After that the blood sample was taken from triables. (Fasting) and amount of the apelin, glucose, insulin, vitamin D, triglycerides, cholesterol, LDL and HDL were measured. Then experimental group 1 and 2 were encounterd and emotionalized by an aerobic exercise (treadmill) after 10 weeks all of the measure mented conversionxls were measure again befor the test. For comparisoning of the groupa that befor and after the test was used from –t test and if was used from the variance test for comparisoning two group.
Results: results showed that after 10 week of aerobic exercise an vitamin D using : BMI, WHR, apelin, cholesterol, LDL, glucose, insulin and insulin resistance were reduced, a triglyceride also decrease and HDL had a significant increasing.
Conclusion: Result confirmed the positive effect of the aerobic exercise on body compositions apelin and plasmas Lipoprotein and also showed that using vitamin D using in obese people and people who have overweight can be beneficials.
