ABSTRACT
Estudos prévios sugerem que jovens atletas nascidos nos primeiros meses do ano podem ser beneficiados no processo de seleção e formação quando comparados a atletas de mesma idade nascidos nos últimos meses do ano. Esse fenômeno é descrito na literatura como o efeito da idade relativa (EIR). O objetivo do presente estudo foi analisar o EIR nas delegações brasileiras participantes dos Jogos Olímpicos de Atenas 2004, Pequim 2008 e Londres 2012. Para esta investigação, a amostra foi composta por 543 atletas olímpicos (masculino e feminino). O teste Qui-Quadrado (x 2 ) foi adotado para a comparação entre a distribuição esperada e a distribuição observada. O nível de significância adotado foi de p<0,05. Os resultados do presente estudo não indicam diferença significante para distribuição de nascimentos entre os quartis do ano para a amostra investigada (p>0,05). Considerando que a análise principal foi realizada com agrupamentos das modalidades, é possível especular que esse resultado pode ser atribuído a diversos fatores, como: i) menor demanda por uma vaga nas categorias de base em determinadas modalidades esportivas, ii) divisões por categorias competitivas que além da idade também levam em consideração outras variáveis, iii) adoção de diferentes abordagens de formação de jovens atletas.(AU)
Previous studies suggest that young athletes born in the first months of the year may have an advantage during selection and development process compared to athletes of the same age born in the last months of the year. This phenomenon is described in the literature as the relative age effect (RAE). The aim of this study was to analyze the occurrence of RAE in participants of Brazilian delegations of the Olympic Games Athens 2004, Beijing 2008 and London 2012. For this study, the sample consisted of 543 Olympic athletes (male and female). The chi-square (x 2 ) was adopted to compare the expected distribution and the observed distribution. The significance level was set at p <0.05. The results of this study do not indicate significant difference in the birth distribution among quarters of the year for the population investigated (p> 0.05). Considering that the main analysis was conducted by pooled data, it is reasonable to speculate this outcome might be due to multiple factors such: i) lower demand for a place in the early categories in some sports, ii) rating for competitive categories beyond age also take into account other variables such as weight and height iii) the adoption of different long-term youth training approaches.(AU)
Subject(s)
Humans , Male , Female , Adult , Physical Education and Training , Adolescent , Athletes , Age Groups , SportsABSTRACT
The aim of this study was to investigate the effects of an acute bout of eccentric actions, performed at fast velocity (210º.s-1) and at slow velocity (20º.s-1), on the gene expression of regulatory components of the myostatin (MSTN) signalling pathway. Participants performed an acute bout of eccentric actions at either a slow or a fast velocity. Muscle biopsy samples were taken before, immediately after, and 2 h after the exercise bout. The gene expression of the components of the MSTN pathway was assessed by real-time PCR. No change was observed in MSTN, ACTRIIB, GASP-1 or FOXO-3a gene expression after either slow or fast eccentric actions (p > 0.05). However, the MSTN inhibitors follistatin (FST), FST-like-3 (FSTL3) and SMAD-7 were significantly increased 2 h after both eccentric actions (p < 0.05). No significant difference between bouts was found before, immediately after, or 2 h after the eccentric actions (slow and fast velocities, p > 0.05). The current findings indicate that a bout of eccentric actions activates the expression of MSTN inhibitors. However, no difference was observed in MSTN inhibitors' gene expression when comparing slow and fast eccentric actions. It is possible that the greater time under tension induced by slow eccentric (SE) actions might compensate the effect of the greater velocity of fast eccentric (FE) actions. Additional studies are required to address the effect of eccentric action (EA) velocities on the pathways related to muscle hypertrophy.
