Faster adjustment of O<sub>2</sub>delivery does not affect V˙<scp>o</scp> <sub>2</sub> on-kinetics in isolated in situ canine muscle

Grassi, Bruno; Gladden, L. Bruce; Samaja, Michele; Stary, Creed M.; Hogan, Michael C.

doi:10.1152/jappl.1998.85.4.1394

Cited by 221 publications

(310 citation statements)

References 29 publications

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“…Thus, the endurance training of a speci®c muscle might be characterized by a faster rise in V (Figure 3) means less production of early lactate after the onset of exercise, which is in agreement with the values for contracting skeletal muscles in situ gastronemius in dogs. 33 Less lactate production may lead not only to the acceleration of V . O 2 kinetics, but may also contribute to the similar time constant V .…”

Section: Steadymentioning

confidence: 99%

Kinetics and steady-state of V̇O2 responses to arm exercise in trained spinal cord injury humans

et al. 2002

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Study design: Cross-sectional study comparing trained spinal cord injured (SCI) subjects (lesion level: L1*T6) with healthy young subjects (CONT). Objective: To investigate the kinetics of response in oxygen uptake (V . O 2 ) in human upperbody skeletal muscles, nine trained SCI subjects underwent submaximal supine arm exercises. Method: The SCI subjects underwent an incremental arm exercise test until exhaustion. The days after this ®rst round of testing, breath-by-breath V . O 2 and beat-by-beat heart rate (HR) on-and o -kinetics were determined during three repetitions of constant exercise at 50% of V . O 2peak . The overall time course of response was determined from the half time (t 1/2 ). Increased capillary blood lactate production (D[La]b) at the onset of exercise was de®ned as the di erence between at rest and at the end of exercise. Cardiac output (Q . ) was measured using the acetylene rebreathing method during the steady state of exercise. In accordance with the Fick principle, the di erence in arterial-venous O 2 content (Ca-v _ O 2 ) was de®ned as V . O 2 /Q . . Results: During the steady state of the submaximal arm exercise, a more signi®cant increase in the steady state of Q . was obtained in the CONT subjects than in the trained SCI subjects: respectively, 14.9+1.4 l/min versus (12.7+0.8 l/min). There was no di erence in the steady state of V . O 2 between the two groups; as a result, SCI subjects had the greater Ca-v _ O 2 . Meanwhile,V . O 2 on-and o -kinetics became much faster in the trained SCI subjects than in the CONT subjects. In addition, t 1/2 HR on-kinetics was not signi®cantly di erent between the SCI and CONT groups. Increased D[La]b was closely related to larger t 1/2 V . O 2 on-kinetics (r=0.624, P50.05). Conclusion: It is concluded that the acceleration of V . O 2 on-and o -kinetics in the trained SCI subjects was observed even though there was no di erence in HR on-and o -kinetics between the SCI and CONT groups and a lower steady state of Q . in the trained SCI subjects. V . O 2 kinetics would therefore be the limiting factor in oxidative phosphorylation in the upper skeletal muscles, thereby providing a lower lactic O 2 -de®cit (ie D[La]b).

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Section: Steadymentioning

confidence: 99%

Kinetics and steady-state of V̇O2 responses to arm exercise in trained spinal cord injury humans

et al. 2002

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“…[24][25][26][27]29 These whole-muscle studies have provided valuable insights about the effect of altering convective oxygen delivery and peripheral oxygen diffusion on the dynamics of muscle oxygen uptake during moderate and heavy intensity exercise. Nevertheless, they also have some inherent limitations.…”

Section: Introductionmentioning

confidence: 99%

Linking Pulmonary Oxygen Uptake, Muscle Oxygen Utilization and Cellular Metabolism during Exercise

et al. 2007

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Abstract-The energy demand imposed by physical exercise on the components of the oxygen transport and utilization system requires a close link between cellular and external respiration in order to maintain ATP homeostasis. Invasive and non-invasive experimental approaches have been used to elucidate mechanisms regulating the balance between oxygen supply and consumption during exercise. Such approaches suggest that the mechanism controlling the various subsystems coupling internal to external respiration are part of a highly redundant and hierarchical multi-scale system. In this work, we present a ''systems biology'' framework that integrates experimental and theoretical approaches able to provide simultaneously reliable information on the oxygen transport and utilization processes occurring at the various steps in the pathway of oxygen from air to mitochondria, particularly at the onset of exercise. This multi-disciplinary framework provides insights into the relationship between cellular oxygen consumption derived from measurements of muscle oxygenation during exercise and pulmonary oxygen uptake by indirect calorimetry. With a validated model, muscle oxygen dynamic responses is simulated and quantitatively related to cellular metabolism under a variety of conditions.

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“…15). This remains a matter of debate, and the role of O 2 in the transition from rest to contractions may depend on the intensity of contractions (16,17). Of course, it is possible that the role of O 2 in the transition to rattling may be tempered by the high volume density of mitochondria and the high blood supply to this unique muscle complex (13,18).…”

mentioning

confidence: 99%

Lactic acid: New roles in a new millennium

Gladden

2001

Proc. Natl. Acad. Sci. U.S.A.

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Faster adjustment of O₂delivery does not affect V˙o ₂ on-kinetics in isolated in situ canine muscle

Cited by 221 publications

References 29 publications

Kinetics and steady-state of V̇O2 responses to arm exercise in trained spinal cord injury humans

Kinetics and steady-state of V̇O2 responses to arm exercise in trained spinal cord injury humans

Linking Pulmonary Oxygen Uptake, Muscle Oxygen Utilization and Cellular Metabolism during Exercise

Lactic acid: New roles in a new millennium

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Faster adjustment of O2delivery does not affect V˙o 2 on-kinetics in isolated in situ canine muscle

Cited by 221 publications

References 29 publications

Kinetics and steady-state of V̇O2 responses to arm exercise in trained spinal cord injury humans

Kinetics and steady-state of V̇O2 responses to arm exercise in trained spinal cord injury humans

Linking Pulmonary Oxygen Uptake, Muscle Oxygen Utilization and Cellular Metabolism during Exercise

Lactic acid: New roles in a new millennium

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Faster adjustment of O₂delivery does not affect V˙o ₂ on-kinetics in isolated in situ canine muscle