The purpose of this study was to examine the effect of two between set rest intervals (RI) on isokinetic knee extension peak torque (PT) produced by sedentary women and men. Seventeen young women (27.18 ± 4.05 yrs) and 16 young men (26.75 ± 4.73 yrs) performed 3 sets of 10 unilateral isokinetic knee extension at 60° and 180°/s. The RI between sets was 60 and 120 s, counterbalanced across 2 testing days. Statistical evaluation of the data was performed using a 3-way mixed factor ANOVA (gender x rest interval x sets). Males and females exhibited decreases (p<0.05) in PT with 120 s RI at 60°/s. There was no significant decline in PT in the female group during both RI at 180°/s. Men showed a significant decrease in PT only with 60 s RI. Young women and men require more than 120 s of RI to recover full PT at 60°/s. However, full quadriceps's muscle strength recovery can be attained with a 60 and 120 s at 180°/s in women, but in men only with a 120 s at the same velocity.
This study investigated the effects of low-load high-velocity resistance exercises on neuromuscular and functional outcomes in patients with Type 2 diabetes (T2D) during the early-phase of resistance training. Thirty participants with T2D performed 18 training sessions (6 weeks – 3x week) in one of two groups: low-load high-velocity exercises (LLHV, n=15, 62.1±10.5 years) or recreational activities (RA, n=15 56.7 ± 19.4 years). LLHV performed resistance exercises with 3x 8reps as fast as possible with 50-60% 1RM. RA performed light activities. Strength, power, and functional tests were assessed. There was significant increasing in the knee extension peak-torque at 60°/s (7.6%) and 180°/s (12.2%), rate of force development in the LLHV group (P<0.05), whereas there were no changes in the RA group. Significant increases in functional test were observed in the LLHV group (P<0.01) with no changes in the RA group. In conclusion, the LLHV induced marked improvements in neuromuscular parameters, as well as in the functional capacity of participants with T2D.
O presente ensaio discute o possível efeito da adoção do distanciamento social nas curvas de mortalidade por COVID-19 e os respectivos impactos nos sistemas de saúde em quatro países: Itália, Espanha e Estados Unidos, já declarados epicentros da pandemia, e Brasil, apontado como o possível novo epicentro mundial. Foram levantadas informações referentes a indicadores de mobilidade, políticas de distanciamento social, número de mortes e quantitativo de recursos hospitalares. Os resultados mostraram o achatamento das curvas de mortalidade para Estados Unidos e Brasil, onde foi observada já nos estágios iniciais da pandemia a redução significativa da mobilidade, decorrente principalmente das medidas de distanciamento. Contudo, no caso brasileiro, tendência de ascensão da curva de mortalidade indica que o distanciamento social não foi suficiente para reverter o processo de multiplicação da doença, o que requer atenção das autoridades.
O objetivo do artigo é registrar o processo de implantação da gestão estratégica na Câmara dos Deputados, com o propósito de revelar seus antecedentes e motivações, os momentoschave, as facilidades e dificuldades, os resultados alcançados e os desafios futuros. A abordagem escolhida foi a histórico-descritiva, e as ações de pesquisa envolveram revisão bibliográfica, pesquisa documental e entrevistas semiestruturadas. As conclusões apontam que a implantação da gestão estratégica na Câmara dos Deputados é um processo complexo e multifacetado, diante de suas características de órgão público, hierarquizado, com alta divisão de trabalho. O avanço da implantação é lento, devido aos fatores dificultadores observados. O caso traz elementos relevantes para a pesquisa sobre gestão estratégica no setor público, seja por apresentar o processo de forma analítica e confrontada com a teoria, seja por se tratar especificamente de um órgão do Poder Legislativo.Palavras-chave: Administração Pública. Gestão Estratégica. Câmara dos Deputados. Balanced scorecard
Introduction: In the study of human biomechanics, it is often desirable to evaluate fatigue in the muscles that are involved in performing a particular task. Identifying the phenomena responsible for this condition is a problem that in most cases is complex and requires appropriate research mechanisms. Isokinetic dynamometry (ID) and surface electromyography (SEMG) are two techniques widely used in studies on strength and muscle fatigue. Their effectiveness is conditioned upon a good understanding of their limitations and the adoption of procedures to fully exploit the potential of each one. The main goal of the present study is to verify whether the electromyographic parameters, especially the conduction velocity (CV), are sensitive to the fatigue instauration process within sets of maximal isokinetic contractions. CV is a basic physiological parameter directly related to muscle activity and still little explored in experiments combining ID and SEMG. Methods: Instrumentation architecture that combines ID and SEMG was used to estimate electromyographic and biomechanical parameters in protocols of maximum intensity isokinetic knee extension exercises. This architecture allows for limiting the parameter estimates to a specifi c region of isokinetic exercise, called the isokinetic load range (ILR), where one can consider that the angular velocity is constant and the SEMG signals are cyclo-stationary. Electromyographic signals were acquired using an array of electrodes. Conclusion: The results suggest that CV and the other SEMG parameters, including amplitude and frequency descriptors, are sensitive to detect a fatigue process only in protocols that restrict the analysis to ILR and that also bring the subject to a state of fatigue quickly.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.