Constancy of central conduction delays during development in man: investigation of motor and somatosensory pathways.

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Constancy of central conduction delays during development in man: investigation of motor and somatosensory pathways.

J A Eyre, S Miller and V Ramesh

Department of Child Health, Newcastle upon Tyne University.

1. A cross-sectional study has been performed on 457 normalsubjects to determine changes in conduction delays with agein central and peripheral motor and somatosensory pathways tothe upper limb. 2. Electromagnetic stimulation was used to investigatecentral and peripheral conduction in motor pathways from thecortex to biceps brachii and hypothenar muscles in 308 normalhuman subjects aged from 32 weeks gestation to 55 years. Theresponses were recorded in the surface electromyogram. 3. Somatosensorypotentials evoked by electrical stimulation of the median nervehave been recorded at Erb's point and over the somatosensorycortex in 149 normal subjects aged from 34 weeks gestation to52 years to determine central and peripheral somatosensory conductiondelays. 4. The conduction delays in the central components ofboth motor and somatosensory pathways rapidly decrease overthe first 2 years after birth and thereafter remain constantat adult values. 5. The conduction delays in the peripheralcomponents of both motor and somatosensory pathways also decreaseinitially but then from the age of 5 years progressively increasein proportion to arm length. 6. The threshold stimulus intensityfor evoking muscle responses following electromagnetic stimulationof the cortex is high initially and falls progressively untilthe age of 16 years. A linear relationship exists between thethreshold intensity and height for the height range 70-180 cm.7. The threshold stimulus intensities for exciting peripheralmotor and somatosensory nerves decrease up to the age of 5 yearsand then reach a plateau. 8. The results support the conclusion,already reported in the literature that peripheral nerves attainmaximum value for fibre diameter and conduction velocity atapproximately 5 years of age. 9. In contrast, it is concludedthat the maximum fibre diameters in both motor and somatosensorycentral pathways increase in proportion to height, leading toconstant central conduction delays with growth.

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