Publications (28) View all
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Article: Neuromagnetic imaging reveals timing of volitional and anticipatory motor control in bimanual load lifting.
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ABSTRACT: During bimanual load lifting, the brain not only contends with muscle activations in the load-lifting arm, but also has to pre-emptively modulate muscle activations in the load-bearing arm with temporal precision in order to minimize upward arm deflection. Premature or late inhibition in the load-bearing arm activity would result in augmented arm deflection. Little is currently known about the timing operation of motor systems subserving coordinated, bimanual actions. In this study, we measured neuromagnetic brain activity with whole-head magnetoencephalography while 15 participants performed a bimanual load-lifting task. To investigate neural processes prior to load lifting, a beamformer was applied to 6 contiguous 200ms time epochs spanning the entire premovement phase of the motor task. The sequence of neural activations, following a signal to lift the weight, was chronologically ordered: firstly, the primary motor cortex contralateral to the load-lifting arm was activated, then the cerebellum, and lastly, the basal ganglia, thalamus and primary-/pre- motor areas contralateral to the load-bearing arm. The current data extend our understanding of the neural underpinnings of bimanual coordination. A model is proposed to account for the central organization of volitional and anticipatory motor control in bimanual load lifting.Behavioural brain research 03/2013; · 3.22 Impact Factor -
Dataset: Langdon 2008
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Article: Neuromagnetic brain activity associated with anticipatory postural adjustments for bimanual load lifting.
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ABSTRACT: During bimanual load lifting, the brain must anticipate the effects of unloading upon the load-bearing arm. Little is currently known about the neural networks that coordinate these anticipatory postural adjustments. We measured neuromagnetic brain activity with whole-head magnetoencephalography while participants performed a bimanual load-lifting task. Anticipatory adjustments were associated with reduction in biceps brachii muscle activity of the load-bearing arm and pre-movement desynchronization of the cortical beta rhythm. Beamforming analyses localized anticipatory brain activity to the precentral gyrus, basal ganglia, supplementary motor area, and thalamus, contralateral to the load-bearing arm. To our knowledge this is the first human neuroimaging study to directly investigate anticipatory postural adjustments and to explicitly partition the anticipatory and volitional aspects of brain activity in bimanual load lifting. These data contribute to our understanding of the neural systems supporting anticipatory postural adjustments in healthy adults.NeuroImage 10/2012; · 5.89 Impact Factor -
Article: Visual scan paths and recognition of facial identity in autism spectrum disorder and typical development.
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ABSTRACT: Previous research suggests that many individuals with autism spectrum disorder (ASD) have impaired facial identity recognition, and also exhibit abnormal visual scanning of faces. Here, two hypotheses accounting for an association between these observations were tested: i) better facial identity recognition is associated with increased gaze time on the Eye region; ii) better facial identity recognition is associated with increased eye-movements around the face. Eye-movements of 11 children with ASD and 11 age-matched typically developing (TD) controls were recorded whilst they viewed a series of faces, and then completed a two alternative forced-choice recognition memory test for the faces. Scores on the memory task were standardized according to age. In both groups, there was no evidence of an association between the proportion of time spent looking at the Eye region of faces and age-standardized recognition performance, thus the first hypothesis was rejected. However, the 'Dynamic Scanning Index'--which was incremented each time the participant saccaded into and out of one of the core-feature interest areas--was strongly associated with age-standardized face recognition scores in both groups, even after controlling for various other potential predictors of performance. In support of the second hypothesis, results suggested that increased saccading between core-features was associated with more accurate face recognition ability, both in typical development and ASD. Causal directions of this relationship remain undetermined.PLoS ONE 01/2012; 7(5):e37681. · 4.09 Impact Factor -
Article: Recognition of own- and other-race faces in autism spectrum disorders.
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ABSTRACT: Empirical data regarding the extent of face recognition abnormalities in autism spectrum disorder (ASD) is inconsistent. Here, 27 ASD and 47 typically developing (TD) children completed an immediate two-alternative forced-choice identity matching task. We contrasted recognition of own- and other-race faces, and, counter to prediction, we found a typical advantage for recognizing own- over other-race faces in both the ASD and TD groups. In addition, ASD and TD groups responded similarly to stimulus manipulations (use of identical or different photographs for identity matching and cropping stimuli to remove hair information). However, age-standardized scores varied widely within the ASD sample, and a subgroup of ASD participants with impaired face recognition did not exhibit a significant own-race recognition advantage. An explanation regarding early experience with faces is considered, and implications for research of individual variation within ASD are discussed.Quarterly journal of experimental psychology (2006) 07/2011; 64(10):1939-54. · 1.96 Impact Factor
