Abstract
BackgroundPre-surgical mapping of language using functional MRI aimed principally to determine the dominant hemisphere. This mapping is currently performed using covert linguistic task in way to avoid motion artefacts potentially biasing the results. However, overt task is closer to natural speaking, allows a control on the performance of the task, and may be easier to perform for stressed patients and children. However, overt task, by activating phonological areas on both hemispheres and areas involved in pitch prosody control in the non-dominant hemisphere, is expected to modify the determination of the dominant hemisphere by the calculation of the lateralization index (LI).ObjectiveHere, we analyzed the modifications in the LI and the interactions between cognitive networks during covert and overt speech task.MethodsThirty-three volunteers participated in this study, all but four were right-handed. They performed three functional sessions consisting of (1) covert and (2) overt generation of a short sentence semantically linked with an audibly presented word, from which we estimated the “Covert” and “Overt” contrasts, and a (3) resting-state session. The resting-state session was submitted to spatial independent component analysis to identify language network at rest (LANG), cingulo-opercular network (CO), and ventral attention network (VAN). The LI was calculated using the bootstrapping method.ResultsThe LI of the LANG was the most left-lateralized (0.66 ± 0.38). The LI shifted from a moderate leftward lateralization for the Covert contrast (0.32 ± 0.38) to a right lateralization for the Overt contrast (− 0.13 ± 0.30). The LI significantly differed from each other. This rightward shift was due to the recruitment of right hemispheric temporal areas together with the nodes of the CO.ConclusionAnalyzing the overt speech by fMRI allowed improvement in the physiological knowledge regarding the coordinated activity of the intrinsic connectivity networks. However, the rightward shift of the LI in this condition did not provide the basic information on the hemispheric language dominance. Overt linguistic task cannot be recommended for clinical purpose when determining hemispheric dominance for language.
Highlights
Pre-surgical mapping of language using functional MRI aimed principally to determine the dominant hemisphere
Analyzing the overt speech by functional magnetic nuclear resonance imaging (fMRI) allowed improvement in the physiological knowledge regarding the coordinated activity of the intrinsic connectivity networks
The rightward shift of the lateralization index (LI) in this condi‐ tion did not provide the basic information on the hemispheric language dominance
Summary
Pre-surgical mapping of language using functional MRI aimed principally to determine the dominant hemisphere This mapping is currently performed using covert linguistic task in way to avoid motion artefacts poten‐ tially biasing the results. Described for the study of the audition to ensure that the stimulus was not masked by the scanner noise [2], it has been applied to study the overt speech In such acquisition, one exploits the fact that the hemodynamic response function to neuronal activity is delayed. The acquisition is made during a brief period following an instruction to suspend speech This method has been widely used for scientific purpose aiming to explore all aspects of language including phonology [3, 4]. In this situation the clinician expects statistical mapping at the individual-level, and the sparse acquisition, due to the brief acquisition periods, has a poor signal-tonoise ratio and give poor statistical information at the individual level
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