Low-threshold afferent signalling of viscous loads during voluntary movements of the human digits

Penelope A. McNulty, Victoria Galea, James B. Fallon, Leah R. Bent, Vaughan G. Macefield

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    Abstract

    Humans can discriminate changes in load viscosity during voluntary contractions. The afferent signal origin is unknown. Microneurographic recordings from 83 single low-threshold afferents were made while participants performed triangular ramps either unloaded or with a viscous load. The neural discharges for each cycle were compared across load and velocity. Fifty-eight afferents did not respond. Afferents with sufficient activity were classified as ambiguous - discharges correlated to velocity and load (n=4), infinite viscosity - strong load and weak velocity signal (n=6), no viscosity - strong velocity and weak load signal (n=10) and those with neither (n=5). No single class of afferent provides a coherent signal of viscosity. These data suggest that the central nervous system compares the population response of different inputs to discriminate viscosity.
    Original languageEnglish
    Number of pages6
    JournalNeuroReport
    Publication statusPublished - 2008

    Keywords

    • contractions
    • cutaneous mechanoreceptors
    • fingers
    • microneurography
    • muscle spindle endings
    • viscous loads

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