Muscle Fatigability During a Sustained Index Finger Abduction and Depression Scores Are Associated With Perceived Fatigue in Patients With Relapsing-Remitting Multiple Sclerosis

Introduction. Fatigue is a common and debilitating symptom in patients with multiple sclerosis (MS). Self-reported levels of perceived fatigue are associated with both patient characteristics and clinical measures. Pilot analysis indicated that muscle fatigability combined with depression scores was highly associated with perceived fatigue in patients with MS. Studies that combine physiological and psychological constructs to explain MS-related fatigue are scarce. Therefore, the present study aimed to evaluate the robustness of the association between perceived fatigue, muscle fatigability, and depression scores in MS. Methods. Eighty-six patients with relapsing-remitting MS completed 2 fatigue questionnaires (Fatigue Severity Scale [FSS] and Modified Fatigue Impact Scale [MFIS]) and a depression questionnaire (Hospital Anxiety and Depression Scale [HADS]). Maximal index finger abduction force (maximum voluntary contraction [MVC]) was measured, as well as muscle fatigability during a 2-minutes sustained maximal contraction. Multivariable regression analyses were used to analyze the association between perceived fatigue, and muscle fatigability and depression scores. Results. Perceived fatigue was associated with depression, muscle fatigability, and, depending on the questionnaire, to sex or to MVC. The model explained 40% and 48% of the variation in perception of fatigue as indexed with FSS questionnaire (rpartial: HADS 0.45, muscle fatigability 0.45, MVC −0.14, sex 0.32), and MFIS physical questionnaire (rpartial: HADS 0.59, muscle fatigability 0.49, MVC −0.38), respectively. Conclusions. The found association accentuates the importance of including both physiological fatigability-related and psychological mood–related constructs in models to explain perceived fatigue in patients with MS. The model also directs future research toward applying effortful conditions and emphasizes the importance of assessing different constructs when evaluating rehabilitation strategies to reduce MS-related fatigue.

[1]  C Trenkwalder,et al.  Fatigue in multiple sclerosis: a comparison of different rating scales and correlation to clinical parameters , 2002, Multiple sclerosis.

[2]  R. Bergamaschi,et al.  Fatigue in multiple sclerosis: multidimensional assessment and response to symptomatic treatment , 2004, Multiple sclerosis.

[3]  Dalia Mickeviciene,et al.  The effect of multiple sclerosis and gender on central and peripheral fatigue during 2-min MVC , 2011, Clinical Neurophysiology.

[4]  Arja Virtanen,et al.  Assessment of muscle strength and motor fatigue with a knee dynamometer in subjects with multiple sclerosis: a new fatigue index , 2004, Clinical rehabilitation.

[5]  Inge Zijdewind,et al.  Voluntary activation and cortical activity during a sustained maximal contraction: An fMRI study , 2009, Human brain mapping.

[6]  G. Nagels,et al.  Origin of Fatigue in Multiple Sclerosis: Review of the Literature , 2008, Neurorehabilitation and neural repair.

[7]  Roger M Enoka,et al.  Fatigue and fatigability in neurologic illnesses , 2013, Neurology.

[8]  M. Amato,et al.  Quality of life in multiple sclerosis: the impact of depression, fatigue and disability , 2001, Multiple sclerosis.

[9]  A. Ghezzi,et al.  Every-other-day interferon beta-1b versus once-weekly interferon beta-1a for multiple sclerosis: results of a 2-year prospective randomised multicentre study (INCOMIN) , 2002, The Lancet.

[10]  N. Larocca,et al.  The fatigue severity scale. Application to patients with multiple sclerosis and systemic lupus erythematosus. , 1989, Archives of neurology.

[11]  Jing Z. Liu,et al.  Human brain activation during sustained and intermittent submaximal fatigue muscle contractions: an FMRI study. , 2003, Journal of neurophysiology.

[12]  Inge Zijdewind,et al.  MR compatible strain gauge based force transducer , 2007, Journal of Neuroscience Methods.

[13]  R. Enoka,et al.  Muscle fatigue: what, why and how it influences muscle function , 2008, The Journal of physiology.

[14]  L. Krupp,et al.  Fatigue in multiple sclerosis , 2001, Archives of neurology.

[15]  W. Ammann,et al.  Reduced glucose metabolism in the frontal cortex and basal ganglia of multiple sclerosis patients with fatigue , 1997, Neurology.

[16]  R. C. Oldfield The assessment and analysis of handedness: the Edinburgh inventory. , 1971, Neuropsychologia.

[17]  R Bakshi,et al.  Fatigue in multiple sclerosis and its relationship to depression and neurologic disability , 2000, Multiple sclerosis.

[18]  D. Allen,et al.  Skeletal muscle fatigue: cellular mechanisms. , 2008, Physiological reviews.

[19]  Steven J. Petruzzello,et al.  Effects of Exercise Training on Fatigue in Multiple Sclerosis: A Meta-Analysis , 2013, Psychosomatic medicine.

[20]  S. Gandevia,et al.  The response to paired motor cortical stimuli is abolished at a spinal level during human muscle fatigue , 2009, The Journal of physiology.

[21]  G. Scotti,et al.  Functional Magnetic Resonance Imaging Correlates of Fatigue in Multiple Sclerosis , 2002, NeuroImage.

[22]  J. Jakobsen,et al.  Fatigued patients with multiple sclerosis have impaired central muscle activation , 2009, Multiple sclerosis.

[23]  Anneke Steens,et al.  Mechanisms underlying muscle fatigue differ between multiple sclerosis patients and controls: A combined electrophysiological and neuroimaging study , 2012, NeuroImage.

[24]  R. Snaith,et al.  The hospital anxiety and depression scale. , 2013, Acta psychiatrica Scandinavica.

[25]  S. Pandya,et al.  Quantitative assessment of motor fatigue and strength in MS , 1999, Neurology.

[26]  R. Enoka Muscle fatigue--from motor units to clinical symptoms. , 2012, Journal of biomechanics.

[27]  David K Bilkey,et al.  Neural encoding of competitive effort in the anterior cingulate cortex , 2012, Nature Neuroscience.

[28]  Inge Zijdewind,et al.  Fatigue Perceived by Multiple Sclerosis Patients Is Associated With Muscle Fatigue , 2012, Neurorehabilitation and neural repair.

[29]  Inge Zijdewind,et al.  Reduced Dual-Task Performance in MS Patients Is Further Decreased by Muscle Fatigue , 2015, Neurorehabilitation and neural repair.

[30]  R M Enoka,et al.  Sex differences in the fatigability of arm muscles depends on absolute force during isometric contractions. , 2001, Journal of applied physiology.