Regional motor cortex dysfunction in amyotrophic lateral sclerosis

Menon, Parvathi; Yiannikas, Con; Kiernan, Matthew C.; Vucic, Steve

doi:10.1002/acn3.50819

Cited by 20 publications

(12 citation statements)

References 51 publications

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“…20 A recent transcranial magnetic stimulation study showed abnormal motor evoked potentials in both thumb abductors and plantar extensors. 39 These conclusions are further complemented by recent MRI studies of fractional anisotropy of corticofugal fibers which show that, as a rule, the corticospinal tracts are affected by the disease process, even in progressive muscular atrophy (PMA), a disease traditionally seen by many as a "lower motor neuron" disease. [40][41][42] It may be that, in the vast majority of ALS patients, involvement of the corpus callosum linking cortical motor areas and associated clinical phenomena is explained by cortical spreading.…”

Section: Discussionmentioning

confidence: 90%

Pattern of paresis in ALS is consistent with the physiology of the corticomotoneuronal projections to different muscle groups

Ludolph

Emilian

Dreyhaupt

et al. 2020

J Neurol Neurosurg Psychiatry

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ObjectiveA recent neuroanatomical staging scheme of amyotrophic lateral sclerosis (ALS) indicates that a cortical lesion may spread, as a network disorder, both at the cortical level and via corticofugal tracts, including corticospinal projections providing direct monosynaptic input to α-motoneurons. These projections are involved preferentially and early in ALS. If these findings are clinically relevant, the pattern of paresis in ALS should primarily involve those muscle groups that receive the strongest direct corticomotoneuronal (CM) innervation.MethodsIn a large cohort (N=436), we analysed retrospectively the pattern of muscle paresis in patients with ALS using the UK Medical Research Council (MRC) scoring system; we subsequently carried out two independent prospective studies in two smaller groups (N=92 and N=54).ResultsThe results indicated that a characteristic pattern of paresis exists. When pairs of muscle groups were compared within patients, the group known to receive the more pronounced CM connections was significantly weaker. Within patients, there was greater relative weakness (lower MRC score) in thumb abductors versus elbow extensors, for hand extensors versus hand flexors and for elbow flexors versus elbow extensors. In the lower limb, knee flexors were relatively weaker than extensors, and plantar extensors were weaker than plantar flexors.ConclusionsThese findings were mostly significant (p<0.01) for all six pairs of muscles tested and provide indirect support for the concept that ALS may specifically affect muscle groups with strong CM connections. This specific pattern could help to refine clinical and electrophysiological ALS diagnostic criteria and complement prospective clinicopathological correlation studies.

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Section: Discussionmentioning

confidence: 90%

Pattern of paresis in ALS is consistent with the physiology of the corticomotoneuronal projections to different muscle groups

Ludolph

Emilian

Dreyhaupt

et al. 2020

J Neurol Neurosurg Psychiatry

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“…Clinical findings suggest an important role for upper motor neuron (UMN) dysfunction in mediating disease progression in ALS 3,4 . Neurophysiological and imaging studies have also disclosed early cortical abnormalities in ALS that have been associated with lower motor neuron (LMN) dysfunction 5‐9 . Identifying the precise mechanisms which mediate ALS progression is of vital importance in the understanding of ALS pathogenesis and potentially the development of novel therapeutic agents 10 …”

Section: Introductionmentioning

confidence: 99%

Pathophysiological associations of transcallosal dysfunction in ALS

Bos

Higashihara

Geevasinga

et al. 2020

Euro J of Neurology

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Aim Involvement of the corpus callosum has been identified as a feature of amyotrophic lateral sclerosis (ALS), particularly through neuropathological studies. The aim of the present study was to determine whether alteration in transcallosal function contributed to the development of ALS, disease progression and thereby functional disability. Methods Transcallosal function and motor cortex excitability were assessed in 17 ALS patients with results compared to healthy controls. Transcallosal inhibition (interstimulus intervals (ISI) of 8–40 ms), short interval intracortical facilitation (SICF) and inhibition (SICI) were assessed in both cerebral hemispheres. Patients were staged utilising clinical and neurophysiological staging assessments. Results In ALS, there was prominent reduction of transcallosal inhibition (TI) when recorded from the primary and secondary motor cortices compared to controls (F = 23.255, p < 0.001). This reduction of TI was accompanied by features indicative of cortical hyperexcitability, including reduction of SICI and increase in SICF. There was a significant correlation between the reduction in TI and the rate of disease progression (R = −0.825, p < 0.001) and reduction in muscle strength (R = 0.54, p = 0.031). Conclusion The present study has established that dysfunction of transcallosal circuits was an important pathophysiological mechanism in ALS, correlating with greater disability and a faster rate of disease progression. Therapies aimed at restoring the function of transcallosal circuits may be considered for therapeutic approaches in ALS.

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“…Notably, these correlations were not present for ALS patients, which may represent the compensatory engagement of alternative cortical resources. Alternatively, the established malfunction of inhibitory cells of the motor system ( Menon et al. 2019 ) in addition to upper motor neurons may lead to reduction in NoGo N2 in combination with slowing reaction times.…”

Section: Discussionmentioning

confidence: 99%

Localization of Brain Networks Engaged by the Sustained Attention to Response Task Provides Quantitative Markers of Executive Impairment in Amyotrophic Lateral Sclerosis

et al. 2020

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Objective: To identify cortical regions engaged during the sustained attention to response task (SART) and characterize changes in their activity associated with the neurodegenerative condition amyotrophic lateral sclerosis (ALS). Methods: High-density electroencephalography (EEG) was recorded from 33 controls and 23 ALS patients during a SART paradigm. Differences in associated event-related potential peaks were measured for Go and NoGo trials. Sources active during these peaks were localized, and ALS-associated differences were quantified. Results: Go and NoGo N2 and P3 peak sources were localized to the left primary motor cortex, bilateral dorsolateral prefrontal cortex (DLPFC), and lateral posterior parietal cortex (PPC). NoGo trials evoked greater bilateral medial PPC activity during N2 and lesser left insular, PPC and DLPFC activity during P3. Widespread cortical hyperactivity was identified in ALS during P3. Changes in the inferior parietal lobule and insular activity provided very good discrimination (AUROC > 0.75) between patients and controls. Activation of the right precuneus during P3 related to greater executive function in ALS, indicative of a compensatory role. Interpretation: The SART engages numerous frontal and parietal cortical structures. SART–EEG measures correlate with specific cognitive impairments that can be localized to specific structures, aiding in differential diagnosis.

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Regional motor cortex dysfunction in amyotrophic lateral sclerosis

Cited by 20 publications

References 51 publications

Pattern of paresis in ALS is consistent with the physiology of the corticomotoneuronal projections to different muscle groups

Pattern of paresis in ALS is consistent with the physiology of the corticomotoneuronal projections to different muscle groups

Pathophysiological associations of transcallosal dysfunction in ALS

Localization of Brain Networks Engaged by the Sustained Attention to Response Task Provides Quantitative Markers of Executive Impairment in Amyotrophic Lateral Sclerosis

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