We aimed to investigate cortical and radicular TMS-evoked motor evoked potentials (MEPs) in children with neurological disorders (n = 57, mean age: 5.45 years) and agematched healthy controls (n = 46). Four TMS parameters were analyzed: MEP amplitudes, the latencies of MEP, the latency jump (cortical MEP latency at rest - cortical active-MEP latency at with slightly contracted targeted muscle), and central motor conduction time. Children with neurological disorders were categorized according to the two major types of neuronal plasticity; excessive plasticity: 29 children with cerebral palsy and impaired plasticity: 28 children with neurodegenerative diseases, stroke, and central nervous system infections. The active-MEP abnormalities (absent and prolonged latencies) were correlated with the location of cortical involvement on MRI patterns. We obtained a significantly increased rate of abnormal cortical active-MEPs in children with impaired plasticity (21/28, 75%) compared with excessive plasticity (18/29, 62%). The rate of absent MEP response is three times more in children with impaired plasticity (43%) than in children with excessive plasticity (14%). A more reduced latency jump was measured in children with impaired plasticity compared to children with excessive plasticity. TMS-evoked active-MEPs and latency jumping are valuable parameters for characterizing neuronal plasticity in children with neurological disorders.
Keywords: Cerebral palsy; Magnetic resonance imaging; Neurodegenerative disorders; Neurological syndrome; Plasticity; Transcranial magnetic stimulation.
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