文摘
Face recognition is a complex function sustained by a distributed large-scale neural network, with a core system involving the ventral occipitotemporal cortex, the inferior longitudinal fasciculus (ILF), and the splenial commissural fibers. This circuit seems to be bilaterally organized, but with a right hemispheric dominance. According to this anatomic functional model, prosopagnosia is usually, but not exclusively, generated by a damage of the right part of this brain network.Case DescriptionThis report describes an original case of a multicentric diffuse low-grade glioma, with a right occipitotemporal tumor and a left anterior temporoinsular tumor. Awake surgery for the right occipitotemporal lesion, involving fusiform and inferior occipital gyri and ILF, was achieved in a first step without causing any neurologic deficit. A subsequent resection of the left anterior temporoinsular lesion, with removal of the anterior left ILF, was achieved 1 year later. Surprisingly, the patient experienced a strong and permanent prosopagnosia after this second surgery.ConclusionsThe authors investigate the possible causes resulting in this prosopagnosia. Specifically, they suggest a decompensation within a reorganized neural network after the first operation, because of a disconnection syndrome induced by a bilateral surgical damage of the ventral occipitotemporal structural connectivity. These original data can be useful for neurosurgeons, especially when achieving resection for multicentric tumors involving both ventral streams, to inform patients before surgery about the possible risk of face recognition deficit, and to adapt the cognitive tasks intraoperatively during awake procedure.