Elucidation of peripheral nerve myelination by bimodal waveform analysis

Purpose: As the myelin sheath of the peripheral nerves is immaturely developed in children, a bimodal waveform may be evoked when sensory nerve conduction studies are performed in them. However, there has been no study regarding the relationship between age and the frequency of appearance of the bimodal waveform or the interpeak latency. Herein, we examined how the bimodal waveform changes with age. Methods: A total of 218 sensory nerves (109 median and 109 ulnar nerves) in 86 children (0 to 15 years old) were analyzed. The frequency of the bimodal waveform and the distance-corrected inter-peak latency were examined with antidromic sensory nerve conduction studies of the upper limbs on proximal stimulation. Results: The frequency of bimodal waveforms and distance-corrected inter-peak latency decreased with age. Analysis of the slope line of the scatter plot demonstrated that the bimodal waveform was present until the age of 15-16 years. Conclusion: The bimodal waveform of sensory nerves faded with growth. Given that development-associated temporal dispersion is considered to be the cause of the differences in the bimodal waveform, our findings suggest that the underlying cause of the bimodal waveform is an immature myelin sheath, which may not be fully developed until the age of 15-16 years.

Automated summary

This study examined the relationship between the immature development of the myelin sheath in children and the occurrence of bimodal waveforms in sensory nerve conduction studies. The findings showed that the frequency of bimodal waveforms and interpeak latency decreased with age, indicating that the bimodal waveform is present until the age of 15-16 years. This suggests that the underlying cause of the bimodal waveform is an immature myelin sheath.