Abstract
Previously we showed, using task-evoked fMRI, that compensatory intact hand usage after amputation facilitates remapping of limb representations in the cortical territory of the missing hand (Makin et al., 2013a). Here we show that compensatory arm usage in individuals born without a hand (one-handers) reflects functional connectivity of spontaneous brain activity in the cortical hand region. Compared with two-handed controls, one-handers showed reduced symmetry of hand region inter-hemispheric resting-state functional connectivity and corticospinal white matter microstructure. Nevertheless, those one-handers who more frequently use their residual (handless) arm for typically bimanual daily tasks also showed more symmetrical functional connectivity of the hand region, demonstrating that adaptive behaviour drives long-range brain organisation. We therefore suggest that compensatory arm usage maintains symmetrical sensorimotor functional connectivity in one-handers. Since variability in spontaneous functional connectivity in our study reflects ecological behaviour, we propose that inter-hemispheric symmetry, typically observed in resting sensorimotor networks, depends on coordinated motor behaviour in daily life.
Highlights
The relationship between deprivation-triggered brain plasticity and adaptive behaviour following visual loss has been a focus of much research and debate (Merabet and Pascual-Leone, 2010; Baseler et al, 2011; Espinosa and Stryker, 2012)
We recently showed using task-evoked fMRI that the way individuals use their bodies to compensate for their disability when missing a hand is reflected in the way the cortical territory of the missing hand is recruited during limb movements (Makin et al, 2013a)
Fractional anisotropy (FA), an index commonly derived from diffusion MRI, was used as a probe of tissue microstructure
Summary
The relationship between deprivation-triggered brain plasticity and adaptive behaviour following visual loss has been a focus of much research and debate (Merabet and Pascual-Leone, 2010; Baseler et al, 2011; Espinosa and Stryker, 2012). Amputees that lost a hand later in life tended to use their remaining hand (i.e., intact hand) more frequently and showed greater activation in the territory of the missing hand when moving the intact hand. These results provide evidence that whichever body part is being over-used to compensate for the absence of a hand gains increased representation in the cortical territory of the missing hand
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