ABSTRACT
Reducing bodyweight within a short-time participating in kicking combat sports can adversely affect health. This study's aim creating an improved model to categorize athletes in kicking combat sports. The investigation focused on 795 athletes (11-24 years), participating in the Croatian National Taekwondo Championship. The sample included athletes from both sexes (371 males), cadets (n = 325), juniors (n = 247) and seniors (n = 223). Data were collected during the preparatory period and prior to the athletes competing, using a bioelectrical impedance analysis device. According to current categorization rules, athletes are categorized by arbitrarily determined ranges in bodyweight, whereas, in this current study, the authors have devised an improved model, based on body height and the analysis of data collected. The difference in coefficients between the official model and the proposed, improved categorization method in terms of body height (2.70 and 0.71, respectively), showed that the improved model homogenized athletes almost four times more than the official model, reducing the maximal difference in body height from 29 to 9 cm within specific categories. Proposed, improved model had same number of categories as the official structure and directly homogenized differences in height within a category up to a 3-cm maximum for the middle categories and a 9-cm maximum on the periphery of the bands. We expect this improved combat sports categorization model will indirectly reduce differences between other longitudinal body dimensions within categories (thus making match results less predictable) as well as reduce bodyweight manipulation potentially endangering athletes' health.
Subject(s)
Athletes/classification , Body Height , Martial Arts , Models, Statistical , Adolescent , Body Composition , Body Weight , Child , Croatia , Electric Impedance , Female , Humans , Male , Sex Factors , Weight Loss , Young AdultABSTRACT
This study examined the perceived talent development environment (TDE) of youth track and field athletes within the Caribbean region and explores the relationship with their subjective wellbeing and burnout levels. A sample of 400 Caribbean youth track and field athletes (male = 198, and female = 202; age 13-20 years) participated in this cross-sectional study. Athletes responded to a survey which included the Talent Development Environment Questionnaire (TDEQ-5), the World Health Organization Wellbeing Index (WHO-5) and the Athlete Burnout Questionnaire (ABQ). Structural equation modelling showed that a positive and supportive TDE was associated with better athlete wellbeing and lower athlete burnout. Moreover, gender and hours of training moderated relationships of athletes' perceptions of their development environment with wellbeing and burnout levels respectively. Furthermore, there was a positive association between the support network and athlete wellbeing, while holistic quality preparation was negatively associated with athlete burnout. Development environments perceived as supportive and geared towards a holistic athlete-centred approach were associated with better athlete wellbeing and lower burnout.
Subject(s)
Aptitude , Athletes/psychology , Burnout, Psychological/psychology , Social Environment , Track and Field/psychology , Adolescent , Age Factors , Athletes/classification , Burnout, Psychological/epidemiology , Caribbean Region/epidemiology , Cross-Sectional Studies , Female , Health Status , Humans , Male , Mental Health , Physical Conditioning, Human/psychology , Physical Conditioning, Human/statistics & numerical data , Sex Factors , Surveys and Questionnaires , Time Factors , Track and Field/classification , Track and Field/physiology , West Indies/epidemiology , Young AdultABSTRACT
Santos, JFS and Franchini, E. Frequency speed of kick test performance comparison between female taekwondo athletes of different competitive levels. J Strength Cond Res 32(10): 2934-2938, 2018-Construct validity is a desirable characteristic in any performance test to differentiate athletes. However, no taekwondo-specific test was investigated with this purpose. The purpose of this study was to compare female taekwondo athletes grouped in different competitive levels. Forty-two female taekwondo athletes divided into International/National (median [interquartile range]; n = 21, age: 20 [18-25] years; body mass: 60 [53-72] kg; height: 164 [161-170] cm; and practice time: 8 [5-13] years) and State/Regional group (median [interquartile range]; n = 21; age: 18 [17-25] years; body mass: 57 [52-63] kg; height: 165 [160-172] cm; and practice time: 5 [2-8] years) volunteered to participate in this study. The female taekwondo athletes performed frequency speed of kick test (FSKT) with 10 seconds (FSKT10s) and intermittent 90 seconds (FSKTmult) during the competitive period. Differences between international/national and state/regional group were observed, with superiority to international/national group, for FSKT10s (U = 114.5, p = 0.007, ESr (effect size) = -0.42 [small]), FSKT1 (U = 127.0, p = 0.016, ESr = -0.37 [small]), FSKT2 (U = 108.5, p = 0.004, ESr = -0.45 [small]), FSKT3 (U = 127.0, p = 0.015, ESr = -0.37 [small]), and FSKTtotal (U = 124.0, p = 0.015, ESr = -0.38 [small]). Based on the results of this study, the FSKT seems to be a good tool to discriminate performance of female taekwondo athletes and could be used by coaches and athletes in their evaluation routines.
Subject(s)
Athletes/classification , Athletic Performance , Martial Arts , Adolescent , Adult , Competitive Behavior , Cross-Sectional Studies , Female , Humans , Male , Young AdultABSTRACT
Objetivo. Comparar el efecto de 2 métodos de electroestimulación en las siguientes variables: fuerza y antropometría. Método. Se realizó una investigación experimental, aleatoria y simple ciego. Se evaluó a 18 sujetos, distribuidos en: Grupo Corriente TENS Modificada (CTM: n = 6), Grupo Corriente Rusa (CR: n = 6) y Grupo Control (TC: n = 6, sometido a corriente TENS Convencional, considerada en la presente investigación como placebo). Resultados. Al cabo de 8 semanas, solo CTM incrementó la fuerza máxima (p < 0.035) y redujo el grosor del pliegue subcutáneo de la pierna derecha (p < 0.03). Conclusiones. La técnica de electroestimulación con corriente TENS Modificada es efectiva para el entrenamiento muscular (AU)
Objetivo. Comparar o efeito de 2 métodos de eletroestimulação nas seguintes variáveis: força e antropometria. Método. Um estudo experimental, randomizado, cego simples. Foram avaliados 18 indivíduos, distribuídos em: grupo de corrente TENS modificada (CTM: n = 6), grupo corrente russa (CR: n = 6) e grupo controle (TC: n = 6, submetido a corrente TENS convencional, considerada nesta investigação como placebo). Resultados. Após 8 semanas, CTM aumentou a força máxima (p < 0,035) e reduziu a espessura de pregas subcutâneas da coxa direita (p < 0,03). Conclusões. A técnica de eletroestimulação com corrente TENS modificada é eficaz para treinamento muscular (AU)
Objective. To compare the effect of two methods of electrostimulation on the following variables: strength and anthropometry. Method. An experimental, randomized, and simple blind investigation was performed. Eighteen subjects were evaluated distributed into a Modified TENS Current Group (CTM: n = 6), Russian Current Group (CR: n = 6), and a Control Group (TC: n = 6, submitted to traditional TENS current, considered as placebo in this research). Results. After 8 weeks, only CTM obtained an increase in maximal strength (p < 0.035), and a reduction in the subcutaneous fat thickness of the right thigh (p < 0.03). Conclusions. A Modified TENS Current is effective for muscular training (AU)
Subject(s)
Humans , Male , Female , Breathing Exercises/methods , Transcutaneous Electric Nerve Stimulation/instrumentation , Transcutaneous Electric Nerve Stimulation/methods , Anthropometry/methods , Randomized Controlled Trials as Topic/methods , Resistance Training/methods , Athletes/education , Physical Education and Training/methods , Breathing Exercises/standards , Transcutaneous Electric Nerve Stimulation/standards , Transcutaneous Electric Nerve Stimulation , Anthropometry/instrumentation , Randomized Controlled Trials as Topic , Resistance Training/classification , Athletes/classification , Helsinki Declaration , Physical Education and Training/standardsABSTRACT
Continuous physical exercise leads the athlete to maintain an unstable balance between dietary intake, energy expenditure and the additional demands of a high amount of physical activity. Thus, an accurate assessment of nutritional status is essential to optimize the performance, since it affects health, body composition, and the recovery of the athlete. Specific aspects like the type of sport, specialty or playing position, training schedule and competition calendar, category, specific objectives, which differ from the general population, must be considered. A biochemical assessment can give us a general idea of the nutritional status, lipid profile, liver or kidney function, if diet is too high in proteins or fats, as well as possible nutritional deficiencies and the need for supplementation. Sport kinanthropometry has great utility that enables the assessment of body mass, height, length, diameter, perimeter and skinfolds, where information is processed by applying different equations, obtaining information on somatotype, body composition, and the proportionality of different parts of the body. To give proper nutritional counselling, energy needs of the athlete must be known. If objective measurement is not possible, there are tables including theoretically established energy requirements of different sports. Dietary assessment should include information about food consumption and nutrient intake to establish the relationship between diet, health status and athletes performance. On the other hand, an adequate hydration status in athletes is essential to maintain adequate performance. Hence, the knowledge of fluid intake by the athlete is a matter of the utmost importance. Dehydration can cause harmful effects on athletes health. As there is no gold standard, urine gravidity and urine colour are the most extended methods for analyzing hydration status. There is consensus that due to complexity, the combination of different methods assures an effective data collection which will be useful to proceed in dietary and nutritional intervention (AU)
El ejercicio físico continuo conduce al atleta a mantener un equilibrio inestable entre la ingesta dietética, el gasto de energía y las exigencias adicionales de un alto grado de actividad física. Por lo tanto, una evaluación precisa del estado nutricional es esencial para optimizar el rendimiento, ya que afecta a la salud, la composición corporal, y la recuperación del atleta. Aspectos específicos como tipo de deporte, especialidad o posición de juego, programa de entrenamiento y calendario de competiciones, la categoría, objetivos específicos, que difieran de la población en general, deben ser tenidos en cuenta. La evaluación bioquímica nos puede dar una idea general del estado nutricional, del perfil lipídico, del funcionamiento de hígado o riñón, de si la dieta es demasiado alta en proteínas o grasas, así como las posibles deficiencias nutricionales y la necesidad de suplementación. La cineantropometría deportiva tiene gran utilidad ya que permite la evaluación de la masa corporal, altura, longitud, diámetro, perímetro y pliegues cutáneos, donde la información se procesa mediante la aplicación de diferentes ecuaciones, obteniendo información sobre el somatotipo, la composición corporal y la proporcionalidad de las distintas partes del cuerpo. Para poder dar una orientación nutricional adecuada, las necesidades de energía de los atletas deben ser conocidas. Si la medición objetiva no es posible, existen tablas que incluyen los requerimientos de energía teóricamente establecidos para diferentes deportes. La evaluación dietética debe incluir información sobre el consumo de alimentos y nutrientes para establecer la relación entre la dieta, el estado de salud y el rendimiento del atleta. Por otro lado, un estado adecuado de hidratación en los atletas es esencial para mantener un rendimiento óptimo. Se debe valorar específicamente la ingesta de líquidos por parte del deportista. La deshidratación puede causar efectos nocivos en la salud de los atletas. Como no existe un método 'gold standard', la gravidez y el color de la orina son los métodos más extendidos para analizar el estado de hidratación. Hay consenso en que la combinación de diferentes métodos asegura una captura efectiva de datos para la valoración nutricional del deportista que permitirá proceder a la intervención dietética y nutricional (AU)
Subject(s)
Humans , Male , Female , Athletes/classification , Athletes/statistics & numerical data , Nutritive Value/physiology , Nutritional Status/physiology , Athletic Performance/physiology , Body Composition/physiology , Antioxidants/therapeutic use , Anthropometry/instrumentation , Anthropometry/methods , Body Mass Index , Antioxidants/metabolismABSTRACT
El triatlón combina 3 modalidades deportivas de resistencia y necesita unas características físicas para optimizar el rendimiento de cada segmento. El objetivo fue determinar el perfil morfológico del triatleta. Se analizaron retrospectivamente 153 protocolos incluyendo: peso, talla, perímetros, diámetros, longitudes y pliegues cutáneos. Se dividieron las muestras masculina y femenina en sénior y junior, y los sénior en primer y segundo nivel competitivo. El somatotipo fue ecto-mesomórfico, excepto en mujeres junior, que fue central. Los sénior tuvieron menor porcentaje graso (Whiters, 1987) que los junior (varones 7,4 vs 8,5; mujeres 13,9 vs 16,8), y las mujeres de nivel 1 respecto al 2 (11,8 vs 16,2). La masa muscular (Lee, 2000) fue mayor en sénior respecto a los junior, en varones en kilos (32,1 vs 30,9) y en mujeres en porcentaje (42,8 vs 41); las mujeres de nivel 1 respecto al 2 (44,2 vs 41,2). Las áreas musculares transversales (Heysmfield, 1982) fueron mayores en sénior varones en brazo y muslo respecto al junior, y mujeres sénior de nivel 1 mayor en muslo en relación al 2. Los índices se situaron en rango medio, teniendo los sénior varones un mayor índice braquial que los junior. Los varones hasta la etapa sénior no alcanzan el desarrollo musculoesquelético del tren superior; mientras que las mujeres lo alcanzan en la etapa junior. En las mujeres sénior su nivel de rendimiento lo marca una mayor edad y niveles de grasa más bajos. Los triatletas deberán tener un peso con bajo porcentaje graso y un componente musculoesquelético en rango medio
The triathlon combines three resistance sport disciplines and requires physical characteristics to optimize the performance of each segment. The aim of this study was to determine the morphological profile of the triathlete. A retrospective analysis was performed on 153 protocols including: weight, height, perimeters, diameters, lengths, and skin folds. The male and female samples were divided into senior and junior, and senior into first and second ranking levels. The somatotype was ecto-mesomorph, except for junior females, for which it was central. The senior category had a fat percentage (Withers, 1987) lower than the junior, men 7.4 vs.8.5; females 13.9 vs. 16.8; and level 1 compared to level 2 in females, 11.8 vs. 16.2. Muscle mass (Lee, 2000) for the senior was higher than for the junior, in males in kilograms (32.1 vs.30.9), and females in percentage (42.8 vs. 41); level 1 female compared to 2 (44.2 vs. 41.2).Muscle cross-section areas (Heysmfield, 1982) in arm and thigh were higher in senior male than in junior male; and for senior female in the thigh it was higher in level 1 than in level 2. The indices were in the middle range, the senior male having a brachial index greater than the junior male. Males only reached the senior phase in the upper body musculoskeletal development; while females reach it in the junior phase. The performance in the senior females is marked by greater age and lower fat levels. Triathletes should have a weight with low percentage of body fat and a musculoskeletal component in the medium range
Subject(s)
Humans , Male , Female , Young Adult , Adult , Body Composition/physiology , Athletes/classification , Athletes/statistics & numerical data , Somatotypes/physiology , Body Height/physiology , Muscle Development/physiology , Biotypology , Body Weight/physiologyABSTRACT
PURPOSE: To identify the prevalence, magnitude, and methods of rapid weight loss among judo competitors. METHODS: Athletes (607 males and 215 females; age = 19.3 T 5.3 yr, weight = 70 T 7.5 kg, height = 170.6 T 9.8 cm) completed a previously validated questionnaire developed to evaluate rapid weight loss in judo athletes, which provides a score. The higher the score obtained, the more aggressive the weight loss behaviors. Data were analyzed using descriptive statistics and frequency analyses. Mean scores obtained in the questionnaire were used to compare specific groups of athletes using, when appropriate, Mann-Whitney U-test or general linear model one-way ANOVA followed by Tamhane post hoc test. RESULTS: Eighty-six percent of athletes reported that have already lost weight to compete. When heavy weights are excluded, this percentage rises to 89%.Most athletes reported reductions of up to 5% of body weight (mean T SD: 2.5 T 2.3%). The most weight ever lost was 2%-5%,whereas a great part of athletes reported reductions of 5%-10% (mean T SD: 6 T 4%). The number of reductions underwent in a season was 3 T 5. The reductions usually occurred within 7 T 7 d. Athletes began cutting weight at 12.6 T 6.1 yr. No significant differences were found in the score obtained by male versus female athletes as well as by athletes from different weight classes. Elite athletes scored significantly higher in the questionnaire than non elite. Athletes who began cutting weight earlier also scored higher than those who began later. CONCLUSIONS: Rapid weight loss is highly prevalent in judo competitors. The level of aggressiveness in weight management behaviors seems to not be influenced by the gender or by the weight class, but it seems to be influenced by competitive level and by the age at which athletes began cutting weight.