Limitations of maximal oxygen uptake during whole-body exercise
Author: Brink-Elfegoun, Thibault
Date: 2007-11-16
Location: Åstrandslaboratoriets bibliotek, Gymnastik- och Idrottshögskolan (GIH), Lidingövägen 2.
Time: 09.00
Department: Institutionen för fysiologi och farmakologi / Department of Physiology and Pharmacology
Abstract
Oxygen uptake increases linearly with increased running speed or rate of
work and finally reaches a maximum beyond which no effort can drive it
further. This phenomenon is referred to as the plateau in oxygen
uptake . The classical and generally accepted view is that the maximal
oxygen uptake plateau is limited by the central circulation s inability
to distribute sufficient oxygen to all the working muscles. Throughout
history several different theories have been proposed as limitation
causes to maximal oxygen uptake, principally Central vs. Peripheral
limitations. Even though there is more than 80 years of scientific
investigation of maximal oxygen uptake, there is still no unarguable
agreement regarding the fundamental question: What sets the upper limit
for maximal oxygen uptake during exercise involving a large muscle mass?
More than a decade ago a new theory named Central Governor was proposed
to challenge the classical concept of maximal oxygen uptake. It suggested
that the absence of an oxygen uptake plateau in a few studies was enough
evidence to support that the oxygen delivery system was not a limiting
factor for maximal oxygen uptake. This theory has been criticized by many
physiologists who have provided important evidence for the classical
concept of maximal oxygen uptake. The theory also states that the
governor reduces the neuronal output to the heart and active muscles in
order to protect these tissues from becoming ischemic.
Therefore, the main purposes of this Licentiate thesis were: 1) To determine and investigate the importance of the work of the heart as a limiting factor in the attainment of maximal oxygen uptake during maximal or supramaximal workloads, 2) To elucidate the relationship between maximal oxygen uptake during maximal and supramaximal workloads and the neuronal output to active skeletal muscles in order to evaluate the model of regulation of the Central Governor theory. The main hypothesis was that after different combined arm and leg exercises with different maximal work rates, the mechanical work of the heart and the active skeletal muscles would not be hindered by a command from the central nervous system.
Sixteen subjects, healthy, endurance trained males participated in the studies. Three different maximal combined arm and leg exercises were used to determine maximal oxygen uptake. Oxygen uptake, pulmonary ventilation and heart rate were measured continuously. Electrocardiography signals were recorded in the end of every maximal exercise. Blood samples were taken and electromyography activities were measured during exercise at various time points.
The main findings were: 1) During all the maximal combined arm and leg exercises, despite large variations in maximal work rates there was a clear plateau in oxygen uptake both with rate of work and with time for all participants. 2) During the plateau phase both the electromyography activity of the activated muscles and the work of the heart increased with increased rate of work without any increase in oxygen uptake. These studies support the classical view of a limitation of maximal oxygen uptake in the central circulation. This limitation refers to the hearts inability to pump more blood at increasing exercise levels and not the mechanical work of the heart or the heart muscle energetic insufficiency. Furthermore, these data do not support a maximal oxygen uptake limitation based on the Central Governor theory.
Therefore, the main purposes of this Licentiate thesis were: 1) To determine and investigate the importance of the work of the heart as a limiting factor in the attainment of maximal oxygen uptake during maximal or supramaximal workloads, 2) To elucidate the relationship between maximal oxygen uptake during maximal and supramaximal workloads and the neuronal output to active skeletal muscles in order to evaluate the model of regulation of the Central Governor theory. The main hypothesis was that after different combined arm and leg exercises with different maximal work rates, the mechanical work of the heart and the active skeletal muscles would not be hindered by a command from the central nervous system.
Sixteen subjects, healthy, endurance trained males participated in the studies. Three different maximal combined arm and leg exercises were used to determine maximal oxygen uptake. Oxygen uptake, pulmonary ventilation and heart rate were measured continuously. Electrocardiography signals were recorded in the end of every maximal exercise. Blood samples were taken and electromyography activities were measured during exercise at various time points.
The main findings were: 1) During all the maximal combined arm and leg exercises, despite large variations in maximal work rates there was a clear plateau in oxygen uptake both with rate of work and with time for all participants. 2) During the plateau phase both the electromyography activity of the activated muscles and the work of the heart increased with increased rate of work without any increase in oxygen uptake. These studies support the classical view of a limitation of maximal oxygen uptake in the central circulation. This limitation refers to the hearts inability to pump more blood at increasing exercise levels and not the mechanical work of the heart or the heart muscle energetic insufficiency. Furthermore, these data do not support a maximal oxygen uptake limitation based on the Central Governor theory.
List of papers:
I. Brink-Elfegoun T, Holmberg HC, Ekblom MN, Ekblom B (2007). "Neuromuscular and circulatory adaptation during combined arm and leg exercise with different maximal work loads." Eur J Appl Physiol 101(5): 603-11. Epub 2007 Aug 10
Pubmed
II. Brink-Elfegoun T, Kaijser L, Gustafsson T, Ekblom B (2007). "Maximal oxygen uptake is not limited by a central nervous system governor." J Appl Physiol 102(2): 781-6. Epub 2006 Oct 26
Pubmed
I. Brink-Elfegoun T, Holmberg HC, Ekblom MN, Ekblom B (2007). "Neuromuscular and circulatory adaptation during combined arm and leg exercise with different maximal work loads." Eur J Appl Physiol 101(5): 603-11. Epub 2007 Aug 10
Pubmed
II. Brink-Elfegoun T, Kaijser L, Gustafsson T, Ekblom B (2007). "Maximal oxygen uptake is not limited by a central nervous system governor." J Appl Physiol 102(2): 781-6. Epub 2006 Oct 26
Pubmed
Issue date: 2007-10-26
Publication year: 2007
ISBN: 978-91-7357-509-6
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