35 research outputs found
Use of electromyography to detect muscle exhaustion in finishing barrows fed ractopamine HCl
Citation: Noel, J. A., Broxterman, R. M., McCoy, G. M., Craig, J. C., Phelps, K. J., Burnett, D. D., . . . Gonzalez, J. M. (2016). Use of electromyography to detect muscle exhaustion in finishing barrows fed ractopamine HCl. Journal of Animal Science, 94(6), 2344-2356. doi:10.2527/jas2016-0398The objectives of this study were to determine the effects of dietary ractopamine HCl (RAC) on muscle fiber characteristics and electromyography (EMG) measures of finishing barrow exhaustion when barrows were subjected to increased levels of activity. Barrows (n = 34; 92 +/- 2 kg initial BW) were assigned to 1 of 2 treatments: a conventional swine finishing diet containing 0 mg/kg ractopamine HCl (CON) or a diet formulated to meet the requirements of finishing barrows fed 10 mg/kg RAC (RAC+). After 32 d on feed, barrows were individually moved around a track at 0.79 m/s until subjectively exhausted. Wireless EMG sensors were affixed to the deltoideus (DT), triceps brachii lateral head (TLH), tensor fasciae latae (TFL), and semitendinosus (ST) muscles to measure median power frequency (MdPF) and root mean square (RMS) as indicators of action potential conduction velocity and muscle fiber recruitment, respectively. After harvest, samples of each muscle were collected for fiber type, succinate dehydrogenase (SDH), and capillary density analysis. Speed was not different (P = 0.82) between treatments, but RAC+ barrows reached subjective exhaustion earlier and covered less distance than CON barrows (P 0.29). There was a treatment x muscle interaction (P = 0.04) for end-point RMS values. The RAC diet did not change end-point RMS values in the DT or TLH (P > 0.37); however, the diet tended to decrease and increase end-point RMS in the ST and TFL, respectively (P 0.10). Muscles of RAC+ barrows tended to have less type I fibers and more capillaries per fiber (P < 0.07). Type I and IIA fibers of RAC+ barrows were larger (P < 0.07). Compared with all other muscles, the ST had more (P < 0.01) type IIB fibers and larger type I, IIA, and IIX fibers (P < 0.01). Type I, IIA, and IIX fibers of the ST also contained less SDH compared with the other muscles (P < 0.01). Barrows fed a RAC diet had increased time to subjective exhaustion due to loss of active muscle fibers in the ST, possibly due to fibers being larger and less oxidative in metabolism. Size increases in type I and IIA fibers with no change in oxidative capacity could also contribute to early exhaustion of RAC+ barrows. Overall, EMG technology can measure real-time muscle fiber loss to help explain subjective exhaustion in barrows
Estimativa das contribuições dos sistemas anaeróbio lático e alático durante exercícios de cargas constantes em intensidades abaixo do VO2max
O objetivo do estudo foi estimar as contribuições do metabolismo anaeróbio lático (MAL) e alático (MAA) em intensidades abaixo do consumo máximo de oxigênio (VO2max). Dez homens (23 ± 4 anos, 176,4 ± 6,8 cm, 72,4 ± 8,2 kg, 12,0 ± 4,5 % de gordura corporal) realizaram um teste progressivo até a exaustão voluntária para identificação do VO2max, da potência correspondente ao VO2max (WVO2max) e do segundo limiar ventilatório (LV2). Na segunda e na terceira visita foram realizados seis testes de cargas constantes (três testes por sessão) com intensidades abaixo do VO2max. Houve uma predominância do MAL sobre o MAA durante os exercícios submáximos a partir da intensidade correspondente ao LV2, sendo significativamente maior em 90% VO2max (p < 0,05). Dessa forma, esses resultados podem auxiliar treinadores a aplicarem cargas de treinamento adequadas aos seus atletas, de acordo com a exigência metabólica da competição
A Variação do método de incremento de cargas não altera a determinação do limiar de lactato em exercício resistido Variation in the incremental workload method does not change the lactate threshold determination in resistance exercise
Com o objetivo de analisar e comparar diferentes protocolos incrementais (PI) em exercício resistido para a identificação do limiar de lactato (LL), 12 voluntários homens (23,3 ± 1,6 anos) adaptados ao exercício resistido foram submetidos a dois testes incrementais realizados em leg press 45º (LP). Os PI's foram: 1) relativo ao teste da carga máxima (PI%1RM), com incrementos de 19, 28, 32, 37, 41, 45, 55 e 60% de 1RM; 2) relativo ao peso corporal (PI%PC), com incrementos de 17, 33, 50, 67, 83, 100, 117 e 133% do PC. Em ambos os PI's a duração de cada estágio foi de 1 min, sendo realizadas 30 repetições em cada. Durante os intervalos entre cada estágio (2 min para o PI%1RM e de 1 min para o PI%PC) foram coletados do lóbulo da orelha, 25µL de sangue capilarizado, os quais foram depositados em microtúbulos Eppendorff para posterior dosagem das concentrações de lactato sanguíneo [Lac]. Foi possível identificar o LL a partir da resposta das [Lac] nos diferentes protocolos. Não foram observadas diferenças significativas entre o LL determinado por cargas absolutas (PI%1RM - 72,3 ± 12,5 vs. PI%PC - 65,9 ± 11,5kg; p > 0,05) e relativas (PI%1RM - 32,3 ± 4,2 vs. PI%PC - 31,6 ± 4,3%; p > 0,05). Alta correlação foi observada entre os PI's, tanto para cargas absolutas (r = 0,90; p < 0,01) como relativas (r = 0,83; p < 0,01). Concluiu-se que, apesar de modificações realizadas nos protocolos adotados, foi possível identificar o LL em LP na amostra estudada, em que as intensidades relativas e absolutas a esses limiares não diferiram e apresentaram correlação entre si. Sugere-se a identificação do LL em exercício resistido através de protocolo com incrementos relativos ao PC, tendo em vista a vantagem de não ser necessário submeter o avaliado à aplicação prévia de um teste de carga máxima.<br>The aim of this investigation was to analyze and compare different incremental protocols (IP) to identify the lactate threshold (LT) in resistance exercise. 12 male volunteers (23.3 ± 1.6 years) adapted to resistance exercise were submitted to two incremental tests performed in leg-press 45º (LP). The IP were: 1) concerned with the maximum workload test (IP%1RM), with incremental load corresponding to 19, 28, 32, 37, 41, 45, 55 and 60% of 1RM; 2) concerned with the body weight (IP%BW), with incremental load of 17, 33, 50, 67, 83, 100, 117 and 133% of the BW. Both IP had stage duration of 1-min, each with 30 repetitions. During intervals between stages (2-min to IP%1RM and 1-min to IP%BW), 25 µL of blood were collected from ear lobe and then placed in Eppendorff microtubes for blood lactate concentration [Lac] dosing. It was possible to identify LT from the responses of the [Lac] in both protocols. No significant differences were observed between the LT intensities determined by absolute (IP%1RM - 72.3 ± 12.5 vs. IP%BW - 65.9 ± 11.5 kg; p > 0.05) and relative loads (IP%1RM - 32.3 ± 4.2 vs. IP%BW - 31.6 ± 4.3 %1-RM; p > 0.05). High correlation was observed between the IP%1RM and IP%BW both for absolute (r = 0.90; p < 0.01) as well as for relative loads (r = 0.83; p < 0.01). In conclusion, despite protocols modifications during the incremental test on resistance exercise, it was possible to identify the LT in LP in the studies sample in which relative and absolute intensities did not differ from each other and presented high correlation between them. The results suggest that LT in resistance exercise should be identified through a protocol with increments based on the BW %. Such procedure has the advantage of not submitting the participant to a previous 1 RM incremental test