AI Article Synopsis
- This study explored how oxygen levels change in skeletal muscles during body-weight exercises like Bulgarian split squats and push-ups, focusing on slow movements and sustained force.
- Thirteen untrained young males participated, and researchers used near-infrared spectroscopy to measure changes in oxygenated and deoxygenated hemoglobin in specific muscles during the exercises.
- Results indicated that oxygen dynamics varied significantly between different muscles, showing continuous deoxygenation in some areas during squats while revealing distinct patterns in push-ups, suggesting that individual variations in exercise skills could affect outcomes.
Article Abstract
The aim of this study was to investigate the skeletal muscle O dynamics during body-weight resistance exercise with slow movement and tonic force generation. Thirteen untrained, healthy, young males performed Bulgarian split squats and push-ups until volitional failure. Relative changes from rest in oxygenated haemoglobin (oxy-Hb) and deoxygenated haemoglobin (deoxy-Hb) concentrations were continuously monitored at the vastus lateralis (VL) and rectus femoris (RF) muscles during squats, and pectoralis major (PM) and triceps brachii (TB) muscles during push-ups using spatial resolved near-infrared spectroscopy oximetry. During the squat exercise, deoxy-Hb continuously increased at RF until failure (10.8 ± 7.0 μmol/L), while at VL, deoxy-Hb was relatively maintained during 25-100% of the number of maximum repetitions (18.0 ± 7.4 μmol/L at volitional failure). During the push-up exercise, a significant increase in deoxy-Hb was observed during exercise from rest at PM and TB. We found a significant increase in oxy-Hb during exercise at PM (28.1 ± 15.8 μmol/L at volitional failure), while at TB, no significant difference was observed from rest (-2.7 ± 13.7 μmol/L at volitional failure). Our findings suggest that the deoxygenation patterns during body-weight squat exercise were heterogeneous within the quadriceps muscles. Moreover, differences in O dynamics between the trunk and extremity muscles may be partly explained by convective O supply during resistance exercise. However, future studies are needed due to inter-individual differences in skills for body-weight resistance exercise.
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| http://dx.doi.org/10.1007/978-3-031-67458-7_59 | DOI Listing |
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