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I-waves in motor cortex revisited

Ulf Ziemann

2020Experimental Brain Research94 citationsDOIOpen Access PDF

Abstract

I-waves represent high-frequency (~ 600 Hz) repetitive discharge of corticospinal fibers elicited by single-pulse stimulation of motor cortex. First detected and examined in animal preparations, this multiple discharge can also be recorded in humans from the corticospinal tract with epidural spinal electrodes. The exact underpinning neurophysiology of I-waves is still unclear, but there is converging evidence that they originate at the cortical level through synaptic input from specific excitatory interneuronal circuitries onto corticomotoneuronal cells, controlled by GABAAergic interneurons. In contrast, there is at present no supportive evidence for the alternative hypothesis that I-waves are generated by high-frequency oscillations of the membrane potential of corticomotoneuronal cells upon initial strong depolarization. Understanding I-wave physiology is essential for understanding how TMS activates the motor cortex.

Topics & Concepts

NeuroscienceMotor cortexExcitatory postsynaptic potentialTranscranial magnetic stimulationDepolarizationNeurophysiologyCorticospinal tractCortex (anatomy)StimulationPsychologyBiologyInhibitory postsynaptic potentialMedicineBiophysicsMagnetic resonance imagingRadiologyDiffusion MRINeuroscience and Neural EngineeringTranscranial Magnetic Stimulation StudiesNeural dynamics and brain function
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