2021
DOI: 10.1113/jp280771
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Post‐exercise intramuscular O2 supply is tightly coupled with a higher proximal‐to‐distal ATP synthesis rate in human tibialis anterior

Abstract: Key points The post‐exercise recovery of phosphocreatine, a measure of the oxidative capacity of muscles, as assessed by 31P MR spectroscopy, shows a striking increase from distal to proximal along the human tibialis anterior muscle. To investigate why this muscle exhibits a greater oxidative capacity proximally, we tested whether the spatial variation in phosphocreatine recovery rate is related to oxygen supply, muscle fibre type or type of exercise. We revealed that oxygen supply also increases from distal … Show more

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Cited by 15 publications
(12 citation statements)
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References 54 publications
(126 reference statements)
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“…Moreover, the significant interaction effects between time postexercise and slice location indicate a faster microvascular response to exercise in the proximal slice, reflected by faster MBF recovery, an earlier peak in T 2 *, and a lower ATT (i.e., shorter arrival times) during the first 2 min postexercise. The difference in muscle perfusion and microvascular response to exercise between two separated slices along the proximodistal axis is in line with data in the literature assessing oxidative capacity in muscle 7,8,11 . The specific delayed response in T 2 * in the distal slice is in line with the findings reported by Boss et al 7 The reason for the proximodistal differences is still under debate.…”
Section: Discussionsupporting
confidence: 89%
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“…Moreover, the significant interaction effects between time postexercise and slice location indicate a faster microvascular response to exercise in the proximal slice, reflected by faster MBF recovery, an earlier peak in T 2 *, and a lower ATT (i.e., shorter arrival times) during the first 2 min postexercise. The difference in muscle perfusion and microvascular response to exercise between two separated slices along the proximodistal axis is in line with data in the literature assessing oxidative capacity in muscle 7,8,11 . The specific delayed response in T 2 * in the distal slice is in line with the findings reported by Boss et al 7 The reason for the proximodistal differences is still under debate.…”
Section: Discussionsupporting
confidence: 89%
“…The difference in muscle perfusion and microvascular response to exercise between two separated slices along the proximodistal axis is in line with data in the literature assessing oxidative capacity in muscle. 7,8,11 The specific delayed response in T 2 * in the distal slice is in line with the findings reported by Boss et al 7 The reason for the proximodistal differences is still under debate. One possible reason could be that the number of oxidative fibers increases from the distal to the proximal end, as was found in rodents.…”
Section: Discussionsupporting
confidence: 87%
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