Abstract
Brain activity knowledge of healthy subjects is an important reference in the context of motor control and reeducation. While the normal brain behavior for upper-limb motor control has been widely explored, the same is not true for lower-limb control. Also the effects that different stimuli can evoke on movement and respective brain activity are important in the context of motor potentialization and reeducation. For a better understanding of these processes, a functional magnetic resonance imaging (fMRI) was used to collect data of 10 healthy subjects performing lower-limb multijoint functional movement under three stimuli: verbal stimulus, manual facilitation, and verbal + manual facilitation. Results showed that, with verbal stimulus, both lower limbs elicit bilateral cortical brain activation; with manual facilitation, only the left lower limb (LLL) elicits bilateral activation while the right lower limb (RLL) elicits contralateral activation; verbal + manual facilitation elicits bilateral activation for the LLL and contralateral activation for the RLL. Manual facilitation also elicits subcortical activation in white matter, the thalamus, pons, and cerebellum. Deactivations were also found for lower-limb movement. Manual facilitation is stimulus capable of generating brain activity in healthy subjects. Stimuli need to be specific for bilateral activation and regarding which brain areas we aim to activate.
Highlights
The knowledge of normal brain activity during several tasks gives insight for both normal and abnormal behavior [1]
It is known that, in addition to motor and premotor areas, other areas such as somatosensory and limbic areas and basal nuclei and cerebellum structures are involved in the process of motor control [7, 8] of healthy subjects
The identification of somatotopic maps of brain activity during complex movements of lower limbs on healthy subjects is still needed for the understanding of mechanisms underlying motor control of lower limb
Summary
The knowledge of normal brain activity during several tasks gives insight for both normal and abnormal behavior [1]. Brain activity knowledge of healthy subjects is an important reference in the context of motor control. This understanding of mechanisms underlying motor control and relearning is the basis for neurosciences development of frameworks for motor performance potentialization or reeducation. Brain behavior is a complex task, being related with several aspects like somatotopic identification, activations and deactivations [6], sequences and differentiations of activations, interconnectivity, metabolic changes, and synaptic transmissions, among others. While the normal brain behavior for upper-limb motor control has been widely explored, the same is not true for lower-limb control. The identification of somatotopic maps of brain activity during complex movements of lower limbs on healthy subjects is still needed for the understanding of mechanisms underlying motor control of lower limb
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