Energy-supply of the muscular activity at boys of 13-14 years in dependence from rates of puberty

In work on the basis of use functional and ergometric working capacity indicators specificity of power supply of muscular activity of healthy boys of 13-14 years (n = 162) with various at puberty stages (PSs). It is established, that the boys, being on II-IV PSs, considerably differ on indicators of power, capacity and efficiency of energy systems. Three groups of the bioenergy systems indicators differing on an orientation of their changes at teenagers depending on rates of puberty stages. The first group includes the physiological variables which most considerable levels are observed at children with high rates of development. All of them concern to anaerobic alactic and anaerobic glycolytic to components of physical working capacity. The second group unites the physiological variables which highest values are marked at teenagers with average rate of development, and the least--at children with the accelerated rate of maturing. These indicators reflect, mainly, set of aerobic possibilities of an organism. The third group includes the indicators which highest levels are marked at teenagers with low rate of development, and the least--at boys with the accelerated rate of maturing. They reflect the maximum aerobic power and endurance to power work. It is revealed, that teenagers of 13-14 years with average rates of development are characterised in comparison with children with the accelerated maturing, higher indicators of power and capacity of aerobic system of energy-supply, and in comparison to teenagers to the slowed down development--lower maximum aerobic power against higher capacity and profitability of functioning of aerobic system. Adolescents with average rates of maturing surpass also schoolboys with the accelerated and slowed down development concerning capacity of work in mixed anaerobic-aerobic a mode. In turn boys of 13-14 years with the accelerated development differ from schoolboys with the average and slowed down rates of maturing, high anaerobic productivity of an organism, rather low aerobic possibilities and increase of a tone of parasympathetic department of autonomic nervous system (AHC). The given circumstance is necessary for considering at realisation of the differentiated approach to rationing of loadings in the course of physical education and sports training of adolescents of 13-14 years.     

The functional state of children from 9 to 10 years of age under the conditions of intense informational load and physical working capacity

Three-way ANOVA has shown that the functional state (FS) of children from 9 to 10 years of age (n = 91) under intense informational load is significantly influenced by the aerobic and anaerobic components of physical working capacity and their interaction. It has been found that 4 to 21% of the total variation of the studied FS indices are related to the bioenergetic resources of the body. It has been shown that the high levels of development of the aerobic and anaerobic glycolytic capacities are associated with the optimal changes in the FS under the conditions of intense informational load. At the same time, the interaction of the aerobic and anaerobic glycolytic components of physical working capacity exerts the most significant influence on the productivity and “psychophysiological cost” of intellectual activity. The high anaerobic glycolytic and anaerobic alactate capacities proved to have opposite functional effects. The former contribute to a decrease in excessive autonomic reactivity under the conditions of intense work and diminution of trait anxiety; the latter, on the contrary, determine hypermobilization of the system of autonomic support of activity. The results suggest that a combined use of rational proportions of physical loads of the aerobic, anaerobic glycolytic, and anaerobic alactate types will provide efficient control of children’s FS under the conditions of intense intellectual activity.     

Physiological Criteria of Endurance in Athletes

The main bioenergetic qualities—the alactic anaerobic, glycolytic anaerobic, and aerobic potentials—are the main factors of endurance in athletes. These physiological properties may be estimated by three main parameters: power, capacity, and energy efficiency. The specific expression of endurance in athletes is determined by the ratio between these bioenergetic parameters. It has been found that the aforementioned criteria of endurance are expressed in different forms in the cases of critical modes of muscular activity and considerably affect performance in representatives of cyclic sports.     

Physiological Criteria in Defining the Standards for Training and Competition Loads in Elite Sports

Adaptation to training loads can be quantitatively described by a dose-effect dependence, with the gain in the training function over a certain period regarded as the effect and the dose expressed as a product of the energy spent during exercise and the stimulus duration. The duration combines the periods of exercises, pauses, and recovery needed to compensate for the fast fraction of the oxygen debt. In addition to direct measurements of the energy spent, quantitative assessment of the load intensity can be based on the total pulse cost of exercise, which accurately reflects the changes in the oxygen demand and the energy cost of the physical load. To quantitate and standardize training and competition loads, we suggest the use of correlations found between the pulse and energy costs of exercises and their relative power determined in critical modes of muscle activity: at the anaerobic threshold; the critical power, associated with the maximum oxygen consumption; the alactic anaerobic threshold; the power of exhaustion, when blood lactic acid reaches its maximum; or at maximum aerobic power, when the muscle reserves of ATP and creatine phosphate are the most depleted.     

Energy supply for muscle activity in 13- to 14-year-old boys depending on the rate of puberty

The energy supply for muscle activity in healthy boys aged 13–14 years (n = 162) at various puberty stages (PSs) has been studied using functional and ergometric working capacity indices. It has been established that boys at PSs II–IV significantly differ in the indices of power, capacity, and efficiency of bioenergy systems. Three groups of bioenergy indices have been distinguished that differ in the direction of variations in adolescents depending on the rate of puberty. The first group includes the physiological variables the highest levels of which are observed in adolescents with high rates of development. All these indices belong to the anaerobic alactic and anaerobic glycolytic components of physical capability. The second group includes the physiological variables the highest levels of which are observed in adolescents with medium rates of development; the lowest levels, in adolescents with accelerated rates of development. These indices mainly reflect the set of aerobic capacities. The third group includes the physiological variables the highest levels of which are observed in adolescents with low rates of development and the lowest levels, in boys with accelerated rates of maturation. These indices reflect the maximal aerobic power and endurance. It was found that adolescents aged 13–14 years with moderate rates of development are characterized by higher indices of power and capacity of the aerobic energy supply system as compared to adolescents with accelerated maturation. This group of adolescents has also been observed to exhibit a lower maximal aerobic power against a background of higher capacity and efficiency of the aerobic system functioning as compared to adolescents with slow maturation. Adolescents with moderate rates of maturation have been shown to surpass schoolboys with accelerated or slow development with respect to the power of mixed aerobic-anaerobic work. Boys aged 13–14 years with accelerated development have been found to differ from schoolboys with moderate or slow maturation by high anaerobic capacity, relatively low aerobic capacities and an increase in the tone of the parasympathetic nervous system. This should be taken into consideration in terms of a differentiated approach to the formation of load during physical education and athletic training of adolescents aged 13–14 years.     

Assessment of aerobic and anaerobic capacity of athletes in treadmill running tests.

The criteria of max VO2 and max O2D which are traditionally used in studying aerobic and anaerobic work capacity, have the different dimensions. While max VO2 is an index of the power of aerobic energy output, max O2D assesses the capacity of anaerobic sources. For a comprehensive assessment of physical working capacity of athletes, both aerobic and anaerobic capabilities should be represented in three dimensions, i.e. in indexes of power, capacity and efficiency. Experimental procedures have been developed for assessing these three parameters in treadmill running tests. It is proposed to assess anaerobic power by measuring excess CO2, concurrently with determination of max VO2. Maximal aerobic capacity is established as the product of max VO2 by the time of max VO2 maintenance determined in a special test with running at critical speed. The erogmetric criteria derived on the basis of the tests proposed, may be used for systematization of various physical work loads.     

Factor structure of the functional state of five- and six-year-old children

The following factors determining the functional state (FS) of the body of five- and six-year-old children (n = 155) have been identified during the research: parasympathetic regulation of FS (factor I); hemodynamic support of cognitive activity (factor II); efficiency of cognitive activity (factor III); nonspecific stability of the body (factor IV); sympathetic regulation of FS (factor V); general work capacity (factor VI). The systematic approach implemented in this study allowed consideration of the psychophysiological content of these factors. In general, the results of research demonstrate the existence of rather stable, qualitatively peculiar groups of variables characterizing different aspects of preschool children’s FS. There is a set of stable relationships between various elements of FS ensuring its integrity. The significant relationship between physical performance and FS aspects, such as productivity and efficiency of cognitive activity, sympathetic and parasympathetic regulation of physiological functions, and nonspecific stability of body to cold-related illnesses, suggests the possibility of purposeful influence on children’s FS during intense activity using adequate programs of physical exercise.     

Oxygen Demand and Energy Cost of Intense Muscular Activity in Humans

Changes in the kinetics of aerobic and anaerobic metabolism were studied in 26 highly profiled athletes performing bicycle ergometer exercise. The different intensity exercise sessions included those with a critical intensity corresponding to the maximum oxygen consumption up to value of the maximum anaerobic intensity of about 10 MMR units. The maximal aerobic metabolism was maintained in the exercises with a relative intensity of 1.0 to 2.5 MMR units. At the higher values of the exercise relative intensity, the oxygen current consumption exponentially decreased. An increase in the rate of anaerobic glycolytic energy production, which was first recorded at the threshold of anaerobic metabolism (W _AT = 0.5 MMR units), increased linearly with a further increase in the exercise relative intensity up to the level of the exhaustion intensity (W _ex = 4.7 MMR units). A sharp increase in the rate of an alactic anaerobic process was found at the relative intensity values of 2.5 MMR units, and this increase grew linearly up to values of the maximal anaerobic intensity (W _max = 9.5 MMR units).     

Sex and age-level differences of walking time in preschool children on an obstacle frame

Background

Stepping over an obstacle is a kind of compound movement that makes walking more difficult, especially for preschool children. This study examines sex and age-level differences in walking time in preschool children on an obstacle frame.

Methods

The participants included 324 healthy preschool children: four-year-old boys (51) and girls (51), five-year-old boys (50) and girls (60), and six-year-old boys (62) and girls (50). A 5 cm- or 10 cm-high obstacle (depth 11.5 cm, width 23.5 cm) was set at the halfway point of a 200 cm × 10 cm walking course.

Results

The participants walked to the end of the course and back as fast as possible under three conditions: no obstacle, low obstacle and high obstacle. Walking time showed age-level differences in all conditions, but there were no differences in sex. Age levels were divided into two groups, with one group within the first six months of their birthday, and the second group within the last six months of that year. Walking time for children in the first half of their fourth year was longer than that of the five- and six-year-old children. In addition, for children in the last half of their fourth year, walking time was longer than both sexes in the last half of their fifth and sixth years. The children in the latter half of their fifth year had a longer walking time in the high obstacle condition than those in the last half of their sixth year. In the four-year-old participants, walking time was shorter with no obstacles than with a high obstacle frame.

Conclusions

In the above data, obstacle course walking time does not show a gender difference, except that the four-year-old participants needed longer than the five- and six-year-old children. Setting the obstacle 10 cm high also produced a different walking time in the five- and six-year-old participants. The high obstacle step test (10 cm) best evaluated the dynamic balance of preschool children.     

Fitness profile of elite Croatian female taekwondo athletes

The aim of the study was to assess fitness profile of elite Croatian female taekwondo athletes and to determine which physical, physiological and motor characteristics differentiate mostly the successful from the less successful fighters. Thirteen national taekwondo champions were divided into two groups according to their senior international competitive achievements. Physiological characteristics, including maximal oxygen uptake (VO2max), were assessed during a continuous progressive treadmill test. The measured motor abilities included explosive and elastic leg strength, maximal strength, muscular endurance, anaerobic alactic power, agility and flexibility. Differences between the successful and less successful athletes were determined using independent t-test. Even though the differences were not statistically significant, the successful athletes had somewhat less fat (2.3%) and were taller by 5.8 cm. The successful athletes achieved significantly higher maximum running speed (15.8 +/- 0.5 versus 14.9 +/- 0. 7 km h(-1); p < 0.05), their ventilatory anaerobic threshold was significantly higher (41.4 +/- 4.1 versus 37.6 +/- 2.0 ml kg(-1) min(-1); p < 0.05) at a significantly lower heart rate (166.8 +/- 6.8 versus 171.0 +/- 8.2 beats min(-1); p < 0.05) than in the less successful athletes. Significant differences were also found in three tests of explosive power (p < 0.05), anaerobic alactic power (p < 0.01), and lateral agility (p < 0.05). The performance of taekwondo female athletes primarily depends on the anaerobic alactic power, explosive power expressed in the stretch-shortening cycle movements, agility and aerobic power.     

On the kinetics of anaerobic power

ABSTRACT: BACKGROUND: This study investigated two different mathematical models for the kinetics of anaerobic power. Model 1 assumes that the work power is linear with the work rate, while model 2 assumes a linear relationship between the alactic anaerobic power and the rate of change of the aerobic power. In order to test these models, a cross country skier ran with poles on a treadmill at different exercise intensities. The aerobic power, based on the measured oxygen uptake, was used as input to the models, whereas the simulated blood lactate concentration was compared with experimental results. Thereafter, the metabolic rate from phosphocreatine break down was calculated theoretically. Finally, the models were used to compare phosphocreatine break down during continuous and interval exercises. RESULTS: Good similarity was found between experimental and simulated blood lactate concentration during steady state exercise intensities. The measured blood lactate concentrations were lower than simulated for intensities above the lactate threshold, but higher than simulated during recovery after high intensity exercise when the simulated lactate concentration was averaged over the whole lactate space. This fit was improved when the simulated lactate concentration was separated into two compartments; muscles + internal organs and blood. Model 2 gave a better behavior of alactic energy than Model 1 when compared against invasive measurements presented in the literature. During continuous exercise, model 2 showed that the alactic energy storage decreased with time, whereas model 1 showed a minimum value when steady state aerobic conditions were achieved. During interval exercise the two models showed similar patterns of alactic energy. CONCLUSIONS: The current study provides useful insight on the kinetics of anaerobic power. Overall, our data indicates that blood lactate levels can be accurately modeled during steady state, and suggests a linear relationship between the alactic anaerobic power and the rate of change of the aerobic power.     

Physical working capacity and energy supply of muscle function during postnatal human ontogeny

On the basis of the results of our studies and literature data, an analysis of the physiological mechanisms responsible for the multifold increase in the physical working capacity during human development has been performed. Physiological and biochemical studies have shown that the aerobic energy system already has a high capacity during the second period of childhood, and the further increase in working capacity is mainly provided by the development of anaerobic mechanisms of energy supply. The maturation of mechanisms of energy production is related to considerable changes in the activity of tissue enzymes and radical rearrangement of the composition of muscular fibers. Puberty considerably influences the development of anaerobic muscle energetics in boys due to stimulation of the growth of type II fibers by testosterone. It has been shown that widespread tests for assessment of physical working capacity mainly reflect changes in the power of energy systems and only in rare cases may be used to characterize changes in their capacity. However, the capacity parameters, which depend to a greater extent on the quality of regulation at the cellular, tissue, and body levels, show multifold growth during ontogeny, which corresponds to the actual increase in the working capacity in the period from childhood to youth. A classification of tests of physical working capacity is proposed. The use and development of this classification may facilitate the development of new tests and an increased efficiency of testing involved in solving various applied and fundamental problems.     

Relationships between EEG θ and α spectral amplitudes and cognitive ability in preschool children

Relationships between individual θ and α EEG amplitudes and intelligence were studied in five- to six-year-old children. EEG was recorded in 83 children in three functional states: eyes closed, sustained visual attention, and attention to adult’s speech. Intelligence was assessed using Kaufman’s K-ABC test. Relationships between the EEG parameters and intelligence were studied using correlational and regression analyses. The results suggest that stable individual differences in local spectral amplitudes (SA) in the EEG θ and α bands predict reliably (when the covariant proportions of their variances is controlled) the level of simultaneous data processing in children under the conditions of sustained attention but not at rest. Thus, the individual features of the limbic thalamocortical and corticothalamic attentional systems are expected to influence cognitive abilities at the preschool age.     

Physiological and anthropometric characteristics of elite women rugby league players

This study investigated the physiological and anthropometric characteristics of elite women rugby league players and developed physical performance standards for these athletes. Thirty-two elite women rugby league players underwent measurements of standard anthropometry (body mass, height, sum of 7 skinfolds), muscular power (vertical jump), speed (10-, 20-, and 40-m sprint), agility (505 test), glycolytic capacity (glycolytic agility test), and estimated maximal aerobic power (multistage fitness test). The skinfold thickness, speed, agility, vertical jump height, glycolytic capacity, and estimated maximal aerobic power results were 6.0-38.1% poorer than previously reported for elite women team sport athletes (e.g., rugby union, soccer, and hockey). Although no significant differences (p > 0.05) were detected between selected and nonselected players for any of the physiological or anthropometric characteristics, significant differences (p < 0.05) were detected between forwards and backs for body mass, skinfold thickness, 10-, 20-, and 40-m speed, and estimated maximal aerobic power. When data were analyzed according to positional similarities, it was found that the hit-up forwards positional group were heavier, had greater skinfold thickness, and had lower 10-, 20-, and 40-m speed, muscular power, glycolytic capacity, and estimated maximal aerobic power than the adjustables and outside backs positional groups. The results of this study show that elite women rugby league players have slower speed and agility, lower muscular power, glycolytic capacity, and estimated maximal aerobic power, and greater body mass and skinfold thickness than previously reported for other elite women team sport athletes. These findings show the need to develop all physiological parameters to allow elite women rugby league players to more effectively tolerate the physiological demands of competition, reduce fatigue-related errors in skill execution, and decrease the risk of injury.     

Control of Aerobic Training with Individualized Physical Loads

A method was used for organizing training for aerobic working capacity. Its salient feature was individualization of the main components of the training process: dosing of the physical load at a level of 90–95% of the anaerobic threshold and optimizing the duration of rest on the basis of revealing the phase of superrecovery of the aerobic working capacity. The study, which enrolled 64 healthy males and females aged 16–20 years, provided evidence for the high effectiveness of the method. After 12 weeks of training, the anaerobic threshold, the systolic work index, and the results of Cooper’s 12-min test increased, respectively, by 9.7, 24, and 16% in the males and by 9.2, 32, and 25% in the females. The method of organizing the training process is proposed not only for the development of aerobic working capacity in healthy individuals but also for primary and secondary prophylaxis of cardiovascular diseases such as arterial hypertension and atherosclerosis.__________Translated from Fiziologiya Cheloveka, Vol. 31, No. 4, 2005, pp. 131–133.Original Russian Text Copyright © 2005 by El’chaninova, Varshavskii, Ladanov, Kalachev, Filippova.     

Ergometric Criteria of Anaerobic Working Capacity in Athletes of Different Age and Gender

The ergometric assessment of anaerobic working capacity in athletes of different age (11–32 years) and gender was carried out. The results showed a well-defined interrelationship between the level of the anaerobic working capacity, the total body sizes, and such a physical (motive) quality as quickness. Athletes with more pronounced signs of an athletic heart and a more perfect reaction of the circulatory system under conditions of submaximum physical loads performed short-term muscular work of maximal intensity with greater power, which evidenced their higher level of anaerobic working capacity.     

Development of the Energetics of Muscular Exercise with Age: Summary of a 30-Year Study: I. Structural and Functional Rearrangements

The series of articles summarizes a 30-year study on the development of skeletal muscles, bioenergetics of muscular exercise, and physical working capacity with age in elementary and secondary school students. Communication I deals with the growth of human skeletal muscles and age-related changes in their fiber composition and the main parameters of aerobic working capacity. The key periods of growth were determined and a substantial rearrangement of skeletal muscle composition and associated age-related changes in aerobic and anaerobic working capacity were found in 7- to 17-year-old boys.__________Translated from Fiziologiya Cheloveka, Vol. 31, No. 4, 2005, pp. 37–42.Original Russian Text Copyright © 2005 by Kornienko, Son’kin, Tambovtseva.     

Time to exhaustion and time spent at a high percentage of VO2max in severe intensity domain in children and adults

The aim of the study was to compare time spent at a high percentage of VO2max (>90% of VO2max) (ts90%), time to achieve 90% of VO2max (ta90%), and time to exhaustion (TTE) for exercise in the severe intensity domain in children and adults. Fifteen prepubertal boys (10.3 ± 0.9 years) and 15 men (23.5 ± 3.6 years) performed a maximal graded exercise to determine VO2max, maximal aerobic power (MAP) and power at ventilatory threshold (PVTh). Then, they performed 4 constant load exercises in a random order at PVTh plus 50 and 75% of the difference between MAP and PVTh (PΔ50 and PΔ75) and 100 and 110% of MAP (P100 and P110). VO2max was continuously monitored. The P110 test was used to determine maximal accumulated oxygen deficit (MAOD). No significant difference was found in ta90% between children and adults. ts90% and TTE were not significantly different between children and adults for the exercises at PΔ50 and PΔ75. However, ts90% and TTE during P100 (p < 0.05 and p < 0.01, respectively) and P110 (p < 0.001) exercises were significantly shorter in children. Children had a significantly lower MAOD than adults (34.3 ± 9.4 ml · kg vs. 53.6 ± 11.1 ml · kg). A positive relationship (p < 0.05) was obtained between MAOD and TTE values during the P100 test in children. This study showed that only for intensities at, or higher than MAP, lower ts90% in children was linked to a reduced TTE, compared to adults. Shorter TTE in children can partly be explained by a lower anaerobic capacity (MAOD). These results give precious information about exercise intensity ranges that could be used in children's training sessions. Moreover, they highlight the implication of both aerobic and anaerobic processes in endurance performances in both populations.     

Regulation of fermentative capacity and levels of glycolytic enzymes in chemostat cultures of Saccharomyces cerevisiae

Regulation of fermentative capacity was studied in chemostat cultures of two Saccharomyces cerevisiae strains: the laboratory strain CEN.PK113-7D and the industrial bakers’ yeast strain DS28911. The two strains were cultivated at a fixed dilution rate of 0.10 h⁻¹ under various nutrient limitation regimes: aerobic and anaerobic glucose limitation, aerobic and anaerobic nitrogen limitation on glucose, and aerobic ethanol limitation. Also the effect of specific growth rate on fermentative capacity was compared in glucose-limited, aerobic cultures grown at dilution rates between 0.05 h⁻¹ and 0.40 h⁻¹. Biomass yields and metabolite formation patterns were identical for the two strains under all cultivation conditions tested. However, the way in which environmental conditions affected fermentative capacity (assayed off-line as ethanol production rate under anaerobic conditions) differed for the two strains. A different regulation of fermentative capacity in the two strains was also evident from the levels of the glycolytic enzymes, as determined by in vitro enzyme assays. With the exception of phosphofructokinase and pyruvate decarboxylase in the industrial strain, no clear-cut correlation between the activities of glycolytic enzymes and the fermentative capacity was found. These results emphasise the need for controlled cultivation conditions in studies on metabolic regulation in S. cerevisiae and demonstrate that conclusions from physiological studies cannot necessarily be extrapolated from one S. cerevisiae strain to the other.     

Psychophysiological factors of school readiness in six-year-old children

The research was carried out in accordance with the principles of biomedical ethics in healthy six-year-old children (n = 120). The following psychophysiological factors determining the school readiness of six-year-old children were identified in the course of the research: selectivity of voluntary attention (factor I); general work capacity (factor II); physiological maturity (factor III); and sensorimotor coordination of voluntary movement (factor IV). Factors I, II, and IV are related to the activities of the information, energy, and regulatory units of the central nervous system singled out by Luria in the context of the structural-functional model of performance of the brain as a substrate of mental activity. The research has revealed an interrelation between some indicators of school readiness and the parameters of the capacity for physical work.