J
Joanna L. Bowtell
Researcher at University of Exeter
Publications - 62
Citations - 2182
Joanna L. Bowtell is an academic researcher from University of Exeter. The author has contributed to research in topics: Glutamine & Electromyography. The author has an hindex of 22, co-authored 62 publications receiving 1799 citations. Previous affiliations of Joanna L. Bowtell include London South Bank University & University of Dundee.
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Montmorency Cherry Juice Reduces Muscle Damage Caused by Intensive Strength Exercise
TL;DR: Montmorency cherry juice consumption improved the recovery of isometric muscle strength after intensive exercise perhaps owing to the attenuation of the oxidative damage induced by the damaging exercise.
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Muscle metabolic and neuromuscular determinants of fatigue during cycling in different exercise intensity domains
Matthew I. Black,Matthew I. Black,Andrew M. Jones,Jamie R. Blackwell,Stephen J. Bailey,Stephen J. Bailey,Lee J. Wylie,Sinead T. J. McDonagh,Christopher Thompson,James Kelly,Paul Sumners,Katya N. Mileva,Joanna L. Bowtell,Anni Vanhatalo +13 more
TL;DR: The gas exchange threshold and the critical power demarcate discrete exercise intensity domains and for the first time it is shown that the limit of tolerance during whole body exercise within these domains is characterized by distinct metabolic and neuromuscular responses.
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Muscle fatigue during dynamic contractions assessed by new spectral indices.
George V. Dimitrov,T.I. Arabadzhiev,Katya N. Mileva,Joanna L. Bowtell,Nicola Crichton,Nonna A. Dimitrova +5 more
TL;DR: The new spectral indices are a valid and reliable tool for assessment of muscle fatigability irrespective of EMG signal variability caused by dynamic muscle contractions, and these indices are more sensitive than those traditionally used.
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Enhanced task-related brain activation and resting perfusion in healthy older adults after chronic blueberry supplementation
TL;DR: Significant increases in brain activity were observed in response to blueberry supplementation relative to the placebo group within Brodmann areas 4/6/10/21/40/44/45, precuneus, anterior cingulate, and insula/thalamus, as well as significant improvements in grey matter perfusion in the parietal lobe.
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Effects of low‐frequency whole‐body vibration on motor‐evoked potentials in healthy men
TL;DR: Increased TA and SOL SICI and decreased TA ICF in response to paired‐pulse TMS during WBV indicate vibration‐induced alteration of the intracortical processes as well, suggesting that WBV increased corticospinal pathway excitability.