RESUMO
OBJECTIVES: Despite advancements in resistance training (RT) methods, the acute metabolic and neuromuscular responses to time under tension (TUT) and load remains poorly understood. The aim of the present study was to investigate how TUT or resistance load impact muscular activation and blood lactate during an RT session. DESIGN: A randomized cross-over design. METHODS: Participants performed a squat exercise in three different conditions: baseline protocol (BPRO; three sets of eight repetitions with four second repetitions at 60% of 1RM) long duration protocol (LDPRO: six second repetitions) and high load protocol (HLPRO: 70% 1RM). RESULTS: Muscular activation of the vastus lateralis and biceps femoris, and blood lactate were assessed. Blood lactate was â¼19% and â¼26% higher after set one and three in LDPRO compared to BPRO (P≤0.011) and â¼17% higher for LDPRO compared to HLPRO (P=0.002). Additionally, blood lactate was â¼17% higher for HLPRO compared to BPRO after the third set of exercise (P=0.003). Vastus lateralis activation was â¼10% higher for HLPRO compared to BPRO and LDPRO for sets one and two. Biceps femoris activation was â¼17% higher for HLPRO compared to BPRO for set one (P= 0.023) while for set two HLPRO was greater than BPRO and LDPRO (â¼19% and â¼14%, respectively; P≤0.007). CONCLUSIONS: Squatting with higher TUT caused a greater impact on the metabolic responses than lower TUT or higher loads, whereas an increase in training load resulted in greater muscle activation than higher TUT or lower training load.