scholarly article | Q13442814 |
P2093 | author name string | Tino Zaehle | |
Hans-Jochen Heinze | |||
Marina Fiene | |||
Stefanie Linnhoff | |||
P2860 | cites work | Fatigue and declines in cognitive functioning in multiple sclerosis. | Q51972539 |
Reaction time in ambulant multiple sclerosis patients. Part I. Influence of prolonged cognitive effort. | Q52070056 | ||
Long term effects of prefrontal tDCS on multiple sclerosis fatigue: A case study. | Q52093519 | ||
The cognitive performance of patients with multiple sclerosis during periods of high and low fatigue | Q52106420 | ||
Improved detection of differential information-processing speed deficits between two disease-course types of multiple sclerosis. | Q52125991 | ||
Functional Connectivity Analysis of Mental Fatigue Reveals Different Network Topological Alterations Between Driving and Vigilance Tasks. | Q52325159 | ||
Cognitive fatigue in multiple sclerosis: findings from a two-wave screening project. | Q52570110 | ||
A Longitudinal Evaluation of Cognitive Fatigue on a Task of Sustained Attention in Early Relapsing-Remitting Multiple Sclerosis. | Q55032076 | ||
Non-invasive Brain Stimulation: A Paradigm Shift in Understanding Brain Oscillations. | Q55069002 | ||
Transcranial alternating current stimulation enhances individual alpha activity in human EEG | Q21136069 | ||
Updating P300: an integrative theory of P3a and P3b | Q24645237 | ||
Fatigue in Multiple Sclerosis: Neural Correlates and the Role of Non-Invasive Brain Stimulation | Q26773166 | ||
Evoked-Potential Correlates of Stimulus Uncertainty | Q28256736 | ||
Fatigue in multiple sclerosis is associated with the disruption of frontal and parietal pathways | Q28299922 | ||
EEG alpha and theta oscillations reflect cognitive and memory performance: a review and analysis | Q29619431 | ||
Excitability changes induced in the human motor cortex by weak transcranial direct current stimulation | Q29620089 | ||
Event-related potentials and cognitive performance in multiple sclerosis patients with fatigue. | Q30374926 | ||
Is there a cognitive signature for MS-related fatigue? | Q30855268 | ||
Attention related performance in two cognitively different subgroups of patients with multiple sclerosis | Q33734435 | ||
Fatigue and basal ganglia | Q34071789 | ||
Subjective cognitive fatigue in multiple sclerosis depends on task length. | Q34406640 | ||
The representation of inflammatory signals in the brain - a model for subjective fatigue in multiple sclerosis | Q34677503 | ||
Cognitive fatigue defined in the context of attention networks | Q34684338 | ||
Multiple sclerosis: clinical aspects | Q57294050 | ||
Everything is (still) illuminated: Dual right cathodal-left anodal tDCS of PPC prevents fatigue on a visual detection task | Q57489754 | ||
Deep Gray Matter Perfusion in Multiple Sclerosis | Q57530335 | ||
Abnormal functional connectivity of thalamic sub-regions contributes to fatigue in multiple sclerosis | Q57911626 | ||
Voxelwise Assessment of the Regional Distribution of Damage in the Brains of Patients with Multiple Sclerosis and Fatigue | Q57911771 | ||
Transcranial Direct Current Stimulation Does Not Counteract Cognitive Fatigue, but Induces Sleepiness and an Inter-Hemispheric Shift in Brain Oxygenation | Q59798876 | ||
Clinical and demographic predictors of cognitive performance in multiple sclerosis. Do diagnostic type, disease duration, and disability matter? | Q68411792 | ||
The fatigue severity scale. Application to patients with multiple sclerosis and systemic lupus erythematosus | Q69772148 | ||
MRI and motor evoked potential findings in nondisabled multiple sclerosis patients with and without symptoms of fatigue | Q74331636 | ||
Cognitive fatigue during a test requiring sustained attention: a pilot study | Q79217828 | ||
Cognitive fatigue in multiple sclerosis: comment on Schwid SR, Tyler CM, Scheid EA, Weinstein A, Goodman AD and McDermott MR | Q80254696 | ||
Neural correlates of cognitive fatigue in multiple sclerosis using functional MRI | Q80861117 | ||
["Fatigue" in multiple sclerosis. Development and and validation of the "Würzburger Fatigue Inventory for MS"] | Q81210594 | ||
Cognitive and physical fatigue in multiple sclerosis: relations between self-report and objective performance | Q81553922 | ||
The effects of fatigue on neuropsychological performance in patients with chronic fatigue syndrome, multiple sclerosis, and depression | Q81553976 | ||
Detecting cognitive fatigue in multiple sclerosis: method matters | Q83453038 | ||
Alerting network dysfunction in early multiple sclerosis | Q84202515 | ||
Fatigue-related diurnal variations of cognitive performance in multiple sclerosis and stroke patients | Q84325114 | ||
Subjective fatigue is not associated with cognitive impairment in multiple sclerosis: cross-sectional and longitudinal analysis | Q84377813 | ||
Counteracting the Slowdown of Reaction Times in a Vigilance Experiment With 40-Hz Transcranial Alternating Current Stimulation | Q91402718 | ||
Modulation of large-scale cortical coupling by transcranial alternating current stimulation | Q92123500 | ||
Electrical stimulation of alpha oscillations stabilizes performance on visual attention tasks | Q93027951 | ||
Uncovering the association between fatigue and fatigability in multiple sclerosis using cognitive control | Q93038783 | ||
Dynamics of alpha control: preparatory suppression of posterior alpha oscillations by frontal modulators revealed with combined EEG and event-related optical signal. | Q34919560 | ||
Examination of cognitive fatigue in multiple sclerosis using functional magnetic resonance imaging and diffusion tensor imaging | Q35041040 | ||
Apathy/depression, but not subjective fatigue, is related with cognitive dysfunction in patients with multiple sclerosis | Q35083857 | ||
Longitudinal study of cognitive dysfunction in multiple sclerosis: neuropsychological, neuroradiological, and neurophysiological findings | Q35475021 | ||
The P300 wave of the human event-related potential | Q35596888 | ||
Modulation of cortical excitability by weak direct current stimulation--technical, safety and functional aspects. | Q35608391 | ||
Brain Plasticity Effects of Neuromodulation Against Multiple Sclerosis Fatigue | Q35812967 | ||
Fatigue and fatigability in neurologic illnesses: proposal for a unified taxonomy | Q36659579 | ||
Prefrontal tDCS Decreases Pain in Patients with Multiple Sclerosis | Q36777981 | ||
Origin of fatigue in multiple sclerosis: review of the literature | Q36780439 | ||
The Development of Muscle Fatigue Suppresses Auditory Sensory Gating (P50) during Sustained Contraction | Q37077617 | ||
Counteracting Fatigue in Multiple Sclerosis with Right Parietal Anodal Transcranial Direct Current Stimulation | Q37270741 | ||
Prelude to and resolution of an error: EEG phase synchrony reveals cognitive control dynamics during action monitoring | Q37342763 | ||
Thalamo-striato-cortical determinants to fatigue in multiple sclerosis | Q37403706 | ||
Regional brain wave activity changes associated with fatigue | Q37983079 | ||
Effects of weak transcranial alternating current stimulation on brain activity-a review of known mechanisms from animal studies | Q38156162 | ||
The roles of cortical oscillations in sustained attention. | Q38375822 | ||
Imaging human brain networks to improve the clinical efficacy of non-invasive brain stimulation | Q38593415 | ||
Simple index of functional connectivity at rest in Multiple Sclerosis fatigue | Q38740151 | ||
A study of cognitive fatigue in Multiple Sclerosis with novel clinical and electrophysiological parameters utilizing the event related potential P300. | Q39129260 | ||
Multiple sclerosis fatigue relief by bilateral somatosensory cortex neuromodulation | Q39206640 | ||
Fatigue in multiple sclerosis - Insights into evaluation and management | Q39246792 | ||
Basic and functional effects of transcranial Electrical Stimulation (tES)-An introduction | Q39422747 | ||
Electroencephalography-Derived Sensory and Motor Network Topology in Multiple Sclerosis Fatigue | Q39637623 | ||
Living with multiple sclerosis: longitudinal changes in employment and the importance of symptom management | Q39908823 | ||
Clinical Response to tDCS Depends on Residual Brain Metabolism and Grey Matter Integrity in Patients With Minimally Conscious State | Q40427026 | ||
Fatigue is associated with metabolic and density alterations of cortical and deep gray matter in Relapsing-Remitting-Multiple Sclerosis patients at the earlier stage of the disease: A PET/MR study. | Q41067707 | ||
Transcranial Alternating Current Stimulation (tACS) Mechanisms and Protocols | Q41463009 | ||
Two types of mental fatigue affect spontaneous oscillatory brain activities in different ways | Q42152577 | ||
Relationship Between Fatigability and Perceived Fatigue Measured Using the Neurological Fatigue Index in People with Multiple Sclerosis | Q42667359 | ||
Correlates of cognitive dysfunction in multiple sclerosis | Q42973704 | ||
Self-reported sleep problems, but not fatigue, lead to decline in sustained attention in MS patients | Q43511851 | ||
Paced auditory serial-addition task: a measure of recovery from concussion | Q43974735 | ||
Pharmacological approach to the mechanisms of transcranial DC-stimulation-induced after-effects of human motor cortex excitability | Q44147102 | ||
Induction of late LTP-like plasticity in the human motor cortex by repeated non-invasive brain stimulation | Q44553134 | ||
The relationship between total and regional corpus callosum atrophy, cognitive impairment and fatigue in multiple sclerosis patients | Q44635866 | ||
Cognitive impairment in MS: impact of white matter integrity, gray matter volume, and lesions | Q44760115 | ||
The relationship of cognitive impairment with neurological and psychiatric variables in multiple sclerosis patients. | Q45091753 | ||
Frontal networks play a role in fatigue perception in multiple sclerosis | Q45897462 | ||
A comparison of the effects of transcranial direct current stimulation and caffeine on vigilance and cognitive performance during extended wakefulness | Q46678680 | ||
Functional cortical connectivity analysis of mental fatigue unmasks hemispheric asymmetry and changes in small-world networks. | Q50663565 | ||
Individual variability in speed of information processing: an index of cognitive impairment in multiple sclerosis. | Q50758845 | ||
How to detect cognitive dysfunction at early stages of multiple sclerosis? | Q50928772 | ||
Disrupted sensorimotor gating due to mental fatigue: preliminary evidence. | Q50936532 | ||
The impact of fatigue on patients with multiple sclerosis. | Q51136354 | ||
Fatigue and progression of corpus callosum atrophy in multiple sclerosis. | Q51461532 | ||
Response variability is associated with self-reported cognitive fatigue in multiple sclerosis. | Q51757867 | ||
Personalized, bilateral whole-body somatosensory cortex stimulation to relieve fatigue in multiple sclerosis. | Q51834404 | ||
Qualitative and quantitative assessment of fatigue in multiple sclerosis (MS). | Q51903658 | ||
The relationship between subjective fatigue and cognitive fatigue in advanced multiple sclerosis. | Q51907000 | ||
Effects of mental fatigue on attention: an ERP study. | Q51929802 | ||
Fatigue in multiple sclerosis: a comparison of different rating scales and correlation to clinical parameters. | Q51951778 | ||
The basal ganglia: a substrate for fatigue in multiple sclerosis. | Q46936365 | ||
Long-term effects of tDCS on fatigue, mood and cognition in multiple sclerosis. | Q47294702 | ||
Neural mechanisms of mental fatigue elicited by sustained auditory processing | Q47312178 | ||
Effects of left DLPFC versus right PPC tDCS on multiple sclerosis fatigue | Q47359723 | ||
Remotely supervised transcranial direct current stimulation for the treatment of fatigue in multiple sclerosis: Results from a randomized, sham-controlled trial | Q47647943 | ||
Transcranial direct current stimulation versus caffeine as a fatigue countermeasure | Q47691868 | ||
Electrophysiological and behavioral effects of frontal transcranial direct current stimulation on cognitive fatigue in multiple sclerosis | Q47847561 | ||
What you get from what you see: Parametric assessment of visual processing capacity in multiple sclerosis and its relation to cognitive fatigue | Q47955173 | ||
Neural correlates of effort-dependent and effort-independent cognitive fatigue components in patients with multiple sclerosis | Q47958537 | ||
Basal ganglia and frontal/parietal cortical atrophy is associated with fatigue in relapsing—remitting multiple sclerosis | Q48106940 | ||
Estimation of the cortical functional connectivity by directed transfer function during mental fatigue | Q48153653 | ||
Relationship of cortical atrophy to fatigue in patients with multiple sclerosis | Q48239025 | ||
The Fatigue Scale for Motor and Cognitive Functions (FSMC): validation of a new instrument to assess multiple sclerosis-related fatigue | Q48242005 | ||
Enhancing vigilance in operators with prefrontal cortex transcranial direct current stimulation (tDCS). | Q48256047 | ||
Forceps minor damage and co-occurrence of depression and fatigue in multiple sclerosis | Q48311935 | ||
Modulation of alertness by sustained cognitive demand in MS as surrogate measure of fatigue and fatigability | Q48319408 | ||
Impact of transcranial direct current stimulation on fatigue in multiple sclerosis | Q48350815 | ||
Transcranial direct current stimulation (tDCS) for fatigue in multiple sclerosis. | Q48394335 | ||
Fatigue and processing speed are related in multiple sclerosis | Q48445074 | ||
P300 in multiple sclerosis: a preliminary report | Q48513180 | ||
Cognitive impairment has a strong relation to nonsomatic symptoms of depression in relapsing-remitting multiple sclerosis | Q48546465 | ||
Induction of cognitive fatigue in MS patients through cognitive and physical load | Q48578977 | ||
Deep gray matter and fatigue in MS: a T1 relaxation time study | Q48623729 | ||
Reduced glucose metabolism in the frontal cortex and basal ganglia of multiple sclerosis patients with fatigue: a 18F-fluorodeoxyglucose positron emission tomography study | Q48695940 | ||
Regional but not global brain damage contributes to fatigue in multiple sclerosis | Q48717013 | ||
Frontal theta activity reflects distinct aspects of mental fatigue. | Q48824336 | ||
The effects of rivastigmine on processing speed and brain activation in patients with multiple sclerosis and subjective cognitive fatigue | Q48946667 | ||
Frontal oscillatory dynamics predict feedback learning and action adjustment | Q48966732 | ||
Correlation of self-assessed fatigue and alertness in multiple sclerosis | Q49137885 | ||
Changes in neuropsychological test performance over the workday in multiple sclerosis. | Q49238826 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 5 | |
P921 | main subject | multiple sclerosis | Q8277 |
P577 | publication date | 2019-05-02 | |
P1433 | published in | Brain Sciences | Q27724596 |
P1476 | title | Cognitive Fatigue in Multiple Sclerosis: An Objective Approach to Diagnosis and Treatment by Transcranial Electrical Stimulation. | |
P478 | volume | 9 |