Effect of Computational Method on Accumulated O2 Deficit
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https://hdl.handle.net/10037/25117Dato
2022-03-07Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
The aim of this study was to examine how relationships between exercise intensity and
the rate of energy release established in different ways, affect the calculated O2 deficit
accumulated during strenuous exercise. Aerobic energy release is readily measured by
the O2 uptake, while anaerobic energy release is by definition independent of O2. The
latter is not easily measured during strenuous exercise, but it can be estimated using the
accumulated O2 deficit principle. We have calculated it using nine different approaches.
Thirteen moderately trained persons (three women) volunteered to serve as subjects for
cycle ergometry. Their maximal O2 uptake was 2.9 ± 0.6 mmol s−1
(x¯ ± s; 3.9 ± 0.8
LSTPD min−1
). Our reference method (M0) is based on measuring the steady state O2
uptake at the end of at least ten bouts of 10 min of exercise at constant intensity, varying
between 30 and 40% of that corresponding to the maximal O2 uptake and up to a
power >90% of the maximal O2 uptake, which is a rather time-consuming method. The
outcomes of eight different simpler approaches have been compared with those of the
reference method. The main result is that the accumulated O2 deficit calculated depends
a great deal on the relationship used to calculate it. A protocol of stepwise increases in
exercise intensity every 4 min appeared to work well. A gross efficiency method showed
the poorest performance. Another important result is that at constant power the O2
uptake continued to increase beyond 4 min of exercise at all powers examined, also at
powers well-below those corresponding to the lactate threshold. Finally, the O2 uptake
during loadless pedaling was considerably higher than resting O2 uptake, and it appeared
to follow a cubic function of the pedaling frequency. In conclusion, to obtain reliable
values of the anaerobic energy release using the accumulated O2 deficit principle, reliable
relationships between exercise intensity and O2 demand must be established.
Forlag
Frontiers MediaSitering
Medbø JI and Welde B (2022) Effect of Computational Method on Accumulated O2 Deficit. Front. Sports Act. Living 4Metadata
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