Evaluation of specific strength and power at the lower extremity of jumpers using the rebound jump test / 体力科学

<p>We aimed to investigate the characteristics of lower-limb strength and power used for lower-limb mechanical variables in rebound jump (RJ) test by using a new system (Quick Motion Analysis System), which calculates mechanical variables in real time. Thirty-three male jumpers performed the RJ test. The performance (RJ index, contact time, and jump height) and joint kinetics (joint work and joint contribution) in RJ were calculated. IAAF Scoring Tables of Athletics were used to calculate jump event performance (IAAF score). IAAF score was positive correlated with RJ index, jump height, and joint work at the ankle and hip joints. Elite jumpers achieved higher RJ performance by larger ankle and hip joint work. As performance variables, jumping height and contact time were converted to T scores, and evaluation method was proposed to use the relative merits of these values to classify athletes into four types. The IAAF score showed no differences among the four types. These results indicate that there is no relation among jump events performance and characteristics of the four types. Moreover, focusing on stiffness, based on the contact time and jump height, jumpers with a longer contact time and higher jump height type showed lower stiffness (compliant spring characteristics), whereas those with the opposite features showed higher stiffness (stiffer spring characteristics). Therefore, for evaluating lower-limb strength and power characteristics, the use of performance and joint kinetics are effective, in addition to focusing on type characteristics based on the contact time and jump height in RJ.</p>

Implicações da cadência de pedalada sobre a potência mecânica e o período de contração muscular no ciclismo / Pedaling cadence effects on mechanical power and muscle contraction timing during cycling

A energia mecânica necessária para a pedalada no ciclismo depende de ações musculares concêntricas e excêntricas. Contudo, até o momento não se tem conhecimento de como variações na cadência de pedalada podem influenciar o tipo de ação muscular utilizada. O presente estudo investigou os efeitos de alterações na cadência nas ações musculares concêntricas e excêntricas durante a pedalada. A absorção e a produção de potência pelas articulações foram calculadas para monitorar possíveis repercussões das mudanças na cadência sobre a cinética articular. Vinte e um ciclistas participaram do estudo (VO2pico: 64,1 ± 5.0 ml/kg/min; volume de treinamento: 368,2 ± 69,5 km/semana). Na primeira sessão de avaliação, a potência máxima (POMAX) e a potência produzida relativa ao segundo limiar ventilatório (POLV2) foram determinadas durante teste incremental até a exaustão. Na segunda sessão, os ciclistas realizaram dois testes de dois minutos de duração a 70 e 90 rpm e carga constante (POLV2). A ativação de seis músculos, a força aplicada no pedal e a cinemática do membro inferior direito foram avaliadas. Um maior tempo de ativação foi observado em fase excêntrica para os músculos vasto medial (8%; p < 0,01) e bíceps femoral (20%; p = 0,04) a 70 rpm em relação a 90 rpm, além de maior tempo de ativação em fase concêntrica para o músculo vasto medial (10%; p = 0,04) a 90 rpm em relação a 70 rpm. Não se observou diferença nas potências articulares entre as cadências testadas. A não alteração da potência articular sugere uma tendência de conservação do padrão do movimento com a alteração da cadência de pedalada. A ativação excêntrica de músculos da articulação do joelho pode estar relacionada com o controle articular, transmissão de força e redução do custo energético

The mechanical energy required to propel the crank may depend on eccentric and concentric muscle actions. However, it is uncertain whether pedaling cadence would elicit changes in concentric and eccentric contributions. Therefore, the purpose of the present study was to investigate the effects of alterations in pedaling cadence on the eccentric and concentric muscle actions. Joint power production and absorption were calculated to assess potential effects from variations in pedaling cadence on joint kinetics. Twenty-one cyclists participated in this study (VO2pico: 64.1 ± 5.0 ml/kg/min; training volume: 368.2 ± 69.5 km/week). In their first session, maximal power output (POMAX) and power output related to the second ventilation threshold (POVT2) were determined during an incremental maximal cycling test to exhaustion. In their second session, cyclists performed two 2-min trials with workload from their POVT2 at two different cadences (70 and 90 rpm). Muscle activation of six muscles, pedal forces and lower limb joint kinematics were evaluated. Longer eccentric contraction at 70 rpm for vastus medialis (8%; p < 0.01) and biceps femoris (20%; p = 0.04) were observed compared to 90 rpm. Longer concentric contraction for vastus medialis muscle (10%; p = 0.04) at 90 rpm was observed compared to 70 rpm. There were no differences in joint power production and absorption among pedaling cadences. No alterations in joint power could indicate maintenance of movement when pedaling cadence is changed. Eccentric contractions from knee muscles could be related to joint control, force transmission and reduced energy cost