Abstract
Physical deconditioning after stroke may induce post-stroke fatigue. However, research on this association is limited. Our primary objective was to investigate the associations of post-stroke fatigue severity with oxygen uptake (dot{mathrm{V}}O2) at peak exercise and the time constant of dot{mathrm{V}}O2 kinetics (τdot{mathrm{V}}O2) at exercise onset. The secondary objective was to examine the associations between fatigue and cardiorespiratory variables potentially affecting dot{mathrm{V}}O2 during exercise. Twenty-three inpatients from a subacute rehabilitation ward were enrolled in this study. The median (interquartile range) Fatigue Severity Scale (FSS) score, as a measure of fatigue, was 32 (range 27–42) points. The FSS score was not associated with dot{mathrm{V}}O2 at peak exercise during a symptom-limited graded exercise test (rho = − 0.264; p = 0.224), whereas it was significantly associated with τdot{mathrm{V}}O2 during a submaximal constant-load exercise test (rho = 0.530; p = 0.009). A higher FSS score also significantly correlated with a longer time constant of cardiac output (CO) kinetics (rho = 0.476; p = 0.022). Our findings suggest that severe post-stroke fatigue is associated with delayed increases in dot{mathrm{V}}O2 and CO at the onset of exercise. Our findings can contribute to the development of an appropriate rehabilitation programme for individuals with post-stroke fatigue.
Highlights
Physical deconditioning after stroke may induce post-stroke fatigue
All participants were recruited from a subacute rehabilitation ward, five participants were in the chronic phase of stroke recovery (≥ 3 months after stroke)[27]
This study showed that a higher Fatigue Severity Scale (FSS) score was associated with a longer τ V O2 at the onset of exercise, but not with V O2 at peak exercise
Summary
Physical deconditioning after stroke may induce post-stroke fatigue Our primary objective was to investigate the associations of post-stroke fatigue severity with oxygen uptake ( V O2) at peak exercise and the time constant of V O2 kinetics (τV O2) at exercise onset. Oxygen uptake ( V O2) at peak exercise, measured during a symptom-limited graded exercise test, is widely accepted as an indicator of cardiorespiratory chaepalatchiytyagine-iannddivsiedxu-amlsatwchitehdsitnrdokivei8d,1u1a,1l2s.1V1 ̇.OM2oarteopveeark, tehxeearscsiessesimneinntdoivf iVdOua2lksiwneittihcsstartotkhee is 26–87% of that in onset of submaximal exercise has been shown to provide objective information on the cardiorespiratory fitness of individuals fswatortsoairsttmeyhustssshr,tVerarseogOtskeht2ieono1k3glai,d1,n4naea.netrTiwedcrascasnltaasestseiasetddihnfeyietne-dtsmoatnarienstyaeetslotiudfoturehfesrmtreiyenxleegeenrp1stc5hus,i1sab6oe.smf,TeVswoa.xmOhTiimci2cmzhiaanelkreaecexfoclteenoracsncltt.iss1as3tnetarh1tne5eo.tp-fAaolVborltiaOoledindt2ygeitxenhoreafprτttch hVτias eVOseecO2aaIt2irIsdaw(aniτaosVssirnoeOgstcrep2ie)naiartshteaieadttryosiwrobnyfiettislehnoyndwspitboveteoimhderenuetravoulehssaneedwtdaiaillttptahho-t stroke than in age-, sex-, and activity-matched healthy adults. There is limited evidence concerning the associations between post-stroke fatigue and these cardiorespiratory fitness variables; this study aimed to investigate these associations. Wu et al.[17] proposed a conceptual model of post-stroke fatigue, wherein biological factors are expected to trigger fatigue at the Scientific Reports | (2021) 11:12780
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