Does the left inferior longitudinal fasciculus play a role in language? A brain stimulation study

doi:10.1093/brain/awl361

Brain Advance Access published online on January 29, 2007
Brain, doi:10.1093/brain/awl361

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Does the left inferior longitudinal fasciculus play a role in language? A brain stimulation study

Emmanuel Mandonnet¹^,2, Aurélien Nouet¹, Peggy Gatignol³, Laurent Capelle¹^,2 and Hugues Duffau²^,3^,4

Departments of ¹Neurosurgery, ²INSERM U678 and ³Laboratoire de la Cognition et du Comportement, FRE 2987 (CNRS/Université de Paris V René Descartes), Institut de Psychologie, 71 Av Edouard Vaillant, 92774 Boulogne Billancourt and ⁴Department of Neurosurgery, Hôpital Gui de Chauliac, CHU Montpellier, Montpellier, France

Correspondence to: Hugues Duffau, Department of Neurosurgery, Hôpital Gui de Chauliac, CHU Montpellier, 80 Av Augustin Fliche, 34295 Montpellier, France E-mail: h-duffau{at}chu-montpellier.fr

Although advances in diffusion tensor imaging have enabled usto better study the anatomy of the inferior longitudinal fasciculus(ILF), its function remains poorly understood. Recently, itwas suggested that the subcortical network subserving the languagesemantics could be constituted, in parallel with the inferioroccipitofrontal fasciculus, by the left ILF, joining the posterioroccipitotemporal regions to the temporal pole, then relayedby the uncinate fasciculus connecting the anterior temporalpole to the frontobasal areas. Nevertheless, this hypothesiswas solely based on neurofunctional imaging, allowing a corticalmapping but with no anatomofunctional information regardingthe white matter. Here, we report a series of 12 patients operatedon under local anaesthesia for a cerebral low-grade glioma locatedwithin the left temporal lobe. Before and during resection,we used the method of intraoperative direct electrostimulation,enabling us to perform accurate and reliable anatomofunctionalcorrelations both at cortical and subcortical levels. In orderto map the ILF. Using postoperative MRI, we correlated thesefunctional findings with the anatomical locations of the siteswhere language disturbances were elicited by stimulations, bothat cortical and subcortical levels. Our goal was to study thepotential existence of parallel and distributed language networkscrossing the left dominant temporal lobe, subserved by distinctsubcortical pathways—namely the inferior occipitofrontalfasciculus and the ILF. Intraoperative stimulation of the anteriorand middle temporal cortex elicited anomia in four patients.At the subcortical level, semantic paraphasia were induced inseven patients during stimulation of the inferior occipitofrontalfasciculus, and phonological paraphasia was generated in sevenpatients by stimulating the arcuate fasciculus. Interestingly,subcortical stimulation never elicited any language disturbanceswhen performed at the level of the ILF. In addition, followinga transient postoperative language deficit, all patients recovered,despite the resection of at least one part of the ILF, as confirmedby control MRI. On the basis of these results, we suggest thatthe "semantic ventral stream" could be constituted by at leasttwo parallel pathways within the left dominant temporal lobe:(i) a direct pathway, the inferior occipitofrontal fasciculus,that connects the posterior temporal areas and the orbitofrontalregion, crucial for language semantic processing, since it elicitssemantic paraphasia when stimulated; (ii) and also possiblyan indirect pathway subserved by the ILF, not indispensablefor language, since it can be compensated both during stimulationand after resection.

Key Words: language; inferior longitudinal fasciculus; direct electrical stimulation; connectivity; brain mapping

Abbreviations: AMTLA, anterior and middle temporal language areas; ILF, inferior longitudinal fasciculus; DES, direct electrical stimulations

Received August 12, 2006. Revised November 2, 2006. Accepted November 29, 2006.

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