APA
Maté Muñoz, José Luis & Domínguez Herrera, Raúl & Barba Ruiz, Manuel & Monroy, Antonio J. & Rodríguez, Bárbara & Ruiz Solano, Pedro & Garnacho Castaño, Manuel V. (2015-08 ) .Cardiorespiratory and Metabolic Responses to Loaded Half Squat Exercise Executed at an Intensity Corresponding to the Lactate Threshold.
ISO 690
Maté Muñoz, José Luis & Domínguez Herrera, Raúl & Barba Ruiz, Manuel & Monroy, Antonio J. & Rodríguez, Bárbara & Ruiz Solano, Pedro & Garnacho Castaño, Manuel V.. 2015-08 .Cardiorespiratory and Metabolic Responses to Loaded Half Squat Exercise Executed at an Intensity Corresponding to the Lactate Threshold.
https://hdl.handle.net/20.500.12080/39512
Abstract:
Abstract
This study was designed to identify the blood lactate threshold
(LT2) for the half squat (HS) and to examine cardiorespiratory
and metabolic variables during a HS test performed at a work
intensity corresponding to the LT2. Twenty-four healthy men
completed 3 test sessions. In the first, their one-repetition maxi mum (1RM) was determined for the HS. In the second session, a
resistance HS incremental-load test was performed to determine
LT2. Finally, in the third session, subjects performed a constant load HS exercise at the load corresponding to the LT2 (21 sets
of 15 repetitions with 1 min of rest between sets). In this last
test, blood samples were collected for lactate determination
before the test and 30 s after the end of set (S) 3, S6, S9, S12,
S15, S18 and S21. During the test, heart rate (HR) was telemet rically monitored and oxygen consumption (VO2), carbon diox ide production (VCO2), minute ventilation (VE), respiratory
exchange ratio (RER), ventilatory equivalent for O2 (VE·VO2
-1)
and ventilatory equivalent for CO2 (VE·VCO2
-1) were monitored
using a breath-by-breath respiratory gas analyzer. The mean
LT2 for the participants was 24.8 ± 4.8% 1RM. Blood lactate
concentrations showed no significant differences between sets 3
and 21 of exercise (p = 1.000). HR failed to vary between S6
and S21 (p > 1.000). The respiratory variables VO2, VCO2, and
VE·VCO2
-1 stabilized from S3 to the end of the constant-load
HS test (p = 0.471, p = 0.136, p = 1.000), while VE and
VE·VO2
-1 stabilized from S6 to S21. RER did not vary significantly across exercise sets (p = 0.103). The LT2 was readily
identified in the incremental HS test. Cardiorespiratory and
metabolic variables remained stable during this resistance exer cise conducted at an exercise intensity corresponding to the
LT2. These responses need to be confirmed for other resistance
exercises and adaptations in these responses after a training
program also need to be addressed.
Key words: Aerobic fitness/VO2max, anaerobic threshold, exercise physiology, strength training.