The purpose of this study is to investigate the further direction of molecular biological studies, the advantages and limitations of assaying samples, and variables in figuring out the details of domestic and overseas studies verified through cell and molecular biological analysis in order to analyze the effect of concurrent training. The analysis study was limited to domestic and overseas literature, which investigated the effect of combined training using molecular biological analysis among studies to date. The study was reclassified by specialty, composed of professors of physical education and doctors of exercise physiology. The final selected study analyzed the subject and the trend of studies in terms of comprehensive perspectives. In detail, it analyzed hormonal and enzymatic changes in criteria such as leptin, 5-HT, ACTH(adrenocorticotropic hormone), cortisol, testosterone, GH(growth hormone), LDH(lactate dehydrogenase), CPK(creatine phosphokinase), antioxidants in blood samples and protein, and enzymatic and morphologic changes in for CRP, VEGF(vascular endothelial growth factor), PAI-1(plasminogen activator inhibitor-1), MAD(malondialdehyde), carnosin, and SDH(succinate dehydrogenase), the area of muscle fibers, ratio of type Ⅰ/Ⅱ muscle fiber and capillary proportion per muscle fiber in the extracted muscle by biopsy, for example. Finally, urine samples, and hormonal changes (like cortisol), were analyzed. The results of the analysis of domestic and overseas studies according to combined training has shown that this training has more varied effects than single training and lower improvement by interference effect or magnifying the effect of one type of training amongst the combined training types appears, rather than higher improvement through combined trainings. Therefore, it should be investigated in view of performance improvements relating to the characteristic of sports.
The purpose of this study was to examine whether the difference between ingestion of nutrition supplements for 8 weeks can regulate physical activities and fatigue recovery. Fifty one middle-aged women participated in this study and were divided into placebo, ingestion of 20g energy supplement and ingestion of 40g energy supplement groups. Energy supplement mainly consists of carbohydrates and proteins. All subjects take in this supplement one time per a day for 8 weeks. Physical activity and fatigue recovery were measured before and after ingestion of energy supplement for 8 weeks by using the Wingate anaerobic and a blood tests. In the Wingate anaerobic test, the peak power(p<.01) and average power(p<.05) were significantly increased in ingestion of 20 and 40g supplement groups compared to the placebo group. Although concentrations of lactate and growth hormone in the blood didn’t show a significant differences among groups, blood concentrations of cortisol and ammonia were further enhanced in ingestion of 20 and 40g supplement groups compared to the placebo group(p<.001). The results of present study provide evidence that energy supplement mixed with carbohydrates and proteins may be effective to increase physical activity as well as to reduce blood concentration of fatigue-related factors after exercise.
