Lower fatigue and faster recovery of ultra-short race pace swimming training sessions.

Ultra-short race-pace training (USRPT) is a high-intensity training modality used in swimming for the development of specific race-technique. However, there is little information about the fatigue associated to this modality. In a crossover design, acute responses of two volume-equated sessions (1000-m) were compared on 14 national swimmers: i) USRPT: 20×50-m; ii) RPT: 10×100-m. Both protocols followed an equivalent work-recovery ratio (1:1) based on individual 200-m race-pace. The swimming times and the arm-strokes count were monitored on each set and compared by mixed-models. Blood lactate [La-] and countermovement jump-height (CMJ) were compared within and between conditions 2 and 5 min after the protocols. The last bouts in RPT were 1.5-3% slower than the target pace, entailing an arm-strokes increase of ~0.22 for every second increase in swimming time. USRPT produced lower [La-] ([Mean ± standard deviation], 2 min: 8.2±2.4 [p = 0.021]; 5 min: 6.9±2.8 mM/L [p = 0.008]), than RPT (2 min: 10.9±2.3; 5 min: 9.9±2.4 mM/L). CMJ was lowered at min 2 after RPT (-11.09%) and USRPT (-5.89%), but returned to baseline in USRPT at min 5 of recovery (4.07%). In conclusion, lower fatigue and better recovery were achieved during USRPT compared to traditional high-volume set.

Swimming Warm-Up and Beyond: Dryland Protocols and Their Related Mechanisms-A Scoping Review.

In swimming, the beneficial effects of the in-water warm-up are often undermined by the long transition periods before competition (≥ 20 min). For that reason, studies comparing the effects of in-water warm-ups followed by dryland activities have been conducted in the swimming literature. This has brought conflicting evidence due to large combinations of supervised and unsupervised warm-up procedures used. Therefore, a scoping review was performed to discuss (1) why warm-up strategies are important for competitive swimming; to identify (2) what are the different warm-up approaches available in the literature, and; to establish (3) what are the main conclusions, considerations and gaps that should be addressed in further research to provide clearer guidance for interventions. The search was conducted on PubMed, Web of Science, Scopus, and SPORTDiscus databases. To be considered eligible, studies must have assessed acute short-term responses of warm-up procedures in swimmers by using randomized controlled trials or pre-post study designs. A total of 42 articles were included in this review. The effectiveness of warm-up responses was evaluated based on the inclusion or not of warm-up, the type of conditioning activity (in-water exercise, in-water exercise combined with dryland or dryland exercise only), its duration, and intensity. (1) Warm-up mechanisms have been mainly related to temperature changes associated to cardiovascular adaptations and short-term specific neuromuscular adaptations. Thus, maintaining muscle activity and body temperature during the transition phase immediately prior to competition could help swimmers' performance; (2) the most common approach before a race usually included a moderate mileage of in-water warm-up (~ 1000 m) performed at an intensity of ≤ 60% of the maximal oxygen consumption, followed by dryland protocols to keep the muscle activity and body temperature raised during the transition phase. Dryland activities could only optimize performance in sprint swimming if performed after the in-water warm-up, especially if heated clothing elements are worn. Using tethered swimming and hand-paddles during warm-ups does not provide superior muscular responses to those achieved by traditional in-water warm-ups, possibly because of acute alterations in swimming technique. In contrast, semi-tethered resisted swimming may be considered as an appropriate stimulus to generate post-activation performance enhancements; (3) nothing has yet been investigated in backstroke, butterfly or individual medley, and there is a paucity of research on the effects of experimental warm-ups over distances greater than 100 m. Women are very under-represented in warm-up research, which prevents conclusions about possible sex-regulated effects on specific responses to the warm-up procedures.

Post-Eccentric Flywheel Underwater Undulatory Swimming Potentiation in Competitive Swimmers.

Underwater undulatory swimming (UUS) influences overall swimming performance, therefore swimmers should try to maximize it. This research aimed to: 1) assess the effects of an activation protocol based on post-activation performance enhancements upon UUS; and 2) evaluate the differences between males and females. Seventeen competitive swimmers (male = 10; female = 7) participated in a cross-sectional study designed to test performance in UUS at 10 m after a traditional swimming warm-up (TRA) and after adding to the TRA 4 maximal half-squat repetitions on an inertial flywheel device (PAPE). A speedometer and an electronic timing system were used to obtain kinematic variables such as time, frequency and velocity at 10-m, which were processed with MATLAB®. A paired sample t test was applied to determine the differences of the kinematic variables between the TRA and PAPE. An independent sample t test was used to determine the effects of the PAPE in males and females. Participants reduced the time to cover 10 m after PAPE compared to the TRA (males: 5.77 ± 0.44 to 5.64 ± 0.46; females 6.34 ± 0.80 to 6.09 ± 0.66; p < 0.05). In addition, trends towards improvements in UUS velocity were obtained for males and females. However, push-off velocity and frequency showed a different tendency between genders (p < 0.05). In conclusion, the warm-up including repetitions on the flywheel device improved UUS performance. Some differences were obtained between genders after PAPE. Further research should confirm if the benefits obtained after the eccentric overload would depend either on gender or on other components such as fiber type composition.

Protocolización de la post-activación potenciación estimulada en natación y su relación con la fuerza relativa / Protocolization of post-activation performance enhancements in swimming and its relationship with the relative strength

OBJETIVO: Este estudio experimentó un protocolo de post-activación potenciación estimulada en 16 nadadores de competición. MÉTODO: En primer lugar, se aplicaron ejercicios de acondicionamiento para extremidades superiores e inferiores y se exploraron los efectos producidos tras 5, 8, 12 y 20 minutos de descanso en un test que implicaba tres saltos verticales y tres flexiones explosivas. En una sesión posterior, se aplicaron ejercicios de acondicionamiento específico en ambas extremidades proporcionando el mismo tiempo de descanso que había inducido los mejores resultados en la evaluación exploratoria (8 min), y sus efectos se evaluaron en una prueba de natación sprint (50 m). Finalmente, también se obtuvo el índice de fuerza relativa de los participantes y se estudió su relación con el rendimiento. RESULTADOS: Las variables relacionadas con la salida de natación mejoraron. La velocidad en el despegue fue mayor debido al incremento de las fuerzas desarrolladas en el poyete. El tiempo de nado en la prueba de 50-m se mantuvo igual a la situación estándar aunque la velocidad fue mayor en los primeros metros. CONCLUSIONES: Los sujetos con mayor índice de fuerza obtuvieron mejores resultados y reaccionaron mejor a la post-activación potenciación estimulada posiblemente porque sus efectos son más efectivos en las fibras tipo II y estas, son más comunes en sujetos entrenados

OBJETIVO: Este estudo tentou um protocolo de aprimoramento de desempenho pós-ativação (PAPE) em 16 nadadores treinados. MÉTODO: Primeiro, exercícios de condicionamento máximo para membros superiores e inferiores foram aplicados e testados após 5, 8, 12 e 20 minutos de descanso através do teste de contrações voluntárias máximas (3 repetições de salto vertical e 3 repetições de flexão voadora). Em uma sessão subsequente, exercícios específicos de condicionamento foram aplicados novamente em ambos os membros e seus efeitos foram avaliados em uma corrida de natação de 50 m após proporcionar o mesmo tempo de descanso em que o melhor desempenho foi detectado (8 min). Por fim, o índice de força relativa foi obtido em todos os participantes para estudar a relação com as variáveis de desempenho na natação. RESULTADOS: Todas as variáveis relacionadas à natação iniciaram o desempenho. A velocidade durante o vôo foi maior devido ao aumento das forças produzidas contra o bloco. O tempo de natação para 50-m foi semelhante ao obtido após a condição padrão, embora as velocidades de natação fossem maiores no início da corrida. CONCLUSÕES: Os indivíduos com maior índice de força relativa obtiveram melhores resultados e reagiram melhor ao aprimoramento de desempenho pós-ativação, possivelmente por seus efeitos serem maiores nas fibras do tipo II e serem mais frequentes em indivíduos treinados