Introduction. There is a great interest to identify factors that influence the value of maximum oxygen consumption. The goal of this research was to assess the body composition, pulmonary parameters, and maximum oxygen consumption in different types of sports and in non-athletes. Material and Methods. The research included 149 male participants: aerobic athletes (n = 55), anaerobic athletes (n = 53) and non-athletes (n = 41). The participants were tested at the Department of Physiology, Faculty of Medicine of the University of Novi Sad. Anthropometric parameters and body mass index were measured. Also, the body fat mass was determined by bioelectrical impedance. pulmonary parameters by spirometry and maximum oxygen consumption on a bicycle ergometer. Results. The body mass index values in non-athletes were the highest and significantly different compared to the aerobic athletes (p = 0.01). Also, nonathletes had significantly higher values of body fat mass compared to athletes (p < 0.001). The pulmonary parameters were not significantly different between the tested groups (p > 0.05). However. the values of maximum oxygen consumption were significantly different between all three tested groups (aerobic athletes 53.75 ± 7.82 ml/kg/min; anaerobic athletes 48.04 ± 6.79 ml/kg/min; non-athletes 41.95 ± 8.53 ml/kg/min) (p < 0.001). A low degree of correlation was found between maximum oxygen consumption and pulmonary parameters in the tested groups. Conclusion. Body composition has an impact on the pulmonary parameters. The values of maximum oxygen consumption depend on the type of sport and training. and the highest values are in aerobic sports. There is a low degree of correlation between maximum oxygen consumption and pulmonary parameters in the tested groups.
Introduction. Body composition measurements and dynamometric parameters are very reliable indicators of performance and progress in the training process. The aim of this study was to assess the body composition and muscle strength and to establish the correlation between these parameters in various sports. Material and Methods. The study was conducted at the Department of Physiology, Laboratory of Functional Diagnostics, Faculty of Medicine in Novi Sad. It included 45 male examiners: 15 handball players, 15 football players, and 15 sprinters. The following parameters were measured: body weight, body height, body mass index, skinfold thickness, and dynamometric parameters of calf extensors and forearm flexors. Results. In comparison to football players and sprinters, handball players presented with statistically significantly higher body mass index (p < 0.05). In terms of skinfold thickness, there were statistically significant differences (p < 0.05) between the groups. The values of dynamometric parameters of calf extensors (average value of load of the calf extensors, maximum value of load of the calf extensors, strength of muscle contraction of calf extensors) showed no statistically significant differences between the groups of athletes (p > 0.05). Compared to football and handball players, sprinters had significantly higher values of dynamometric parameters of forearm flexors (average value of load of forearm flexors, maximum value of load of forearm flexors, strength of muscle contraction of forearm flexors). Conclusion. In the group of handball players there was a positive correlation between the percentage of the body fat and muscle power in both examined muscle groups; however, among the football players and sprinters, a correlation was found between the body composition and strength of calf extensors.
The role of mitochondria By their morphological appearance mitochondria are perhaps the most intriguing cell organelles. Practically, a mitochondrion is a balloon inside the balloon where inner and outer membranes create two Summary Mitochondria are ubiquitous organelles of eukaryotic cells and they are the mayor site of generating energy in the form of adenosine triphoshate through the process of oxidative phosphorylation. Analysis and estimation of mitochondrial function is of outmost importance when it comes to studying intracellular energy metabolism, mechanisms of apoptosis, signaling pathways, calcium storage and the pathophysiology of a large spectrum of human diseases including various neurodegenerative diseases, myopathies, metabolic syndromes and cancer. Respiratory capacity analysis covers one of the many roles that mitochondria play in living cells and it provides us with useful data about functional integrity of mitochondria. Assessment of individual respiratory chain complexes or other mitochondrial enzymes has been widely used to estimate mitochondrial function and dysfunction but it neglects the influence of complex structural and functional interplay of mitochondrial proteins and enzymes and plasmic compounds. Another method that emphasises the importance of studying intact mitochondria is in vitro technique, and although it has many advantages, in some aspects it is far from being representative when it comes to functional assessment of mitochondria. From the perspective of energy production and consumption, the cardiac muscle is a highly demanding tissue and it is the well functioning of mitochondria that is conditio sine qua non for this nature to be fulfilled. In cooperation with the University of Split School of Medicine in Split and under the mentorship of Prof. Marko Ljubkovic, the Department of Physiology of the Faculty of Medicine Novi Sad works on introducing in situ approaches in the analysis of respiratory mitochondrial function in skinned muscle fibers of human cardiac tissue.
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