Distinct loci of lexical and semantic access deficits in aphasia: Evidence from voxel-based lesion-symptom mapping and diffusion tensor imaging

Naming pictures and matching words to pictures belonging to the same semantic category negatively affects language production and comprehension. By most accounts, semantic interference arises when accessing lexical representations in naming (e.g., Damian, Vigliocco, & Levelt, 2001) and semantic...

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Bibliographic Details
Published in:Cortex 2015-06, Vol.67 (Jun), p.37-58
Main Authors: Harvey, Denise Y., Schnur, Tatiana T.
Format: Article
Language:English
Subjects:
Adult
Aged
Aged, 80 and over
Aphasia - etiology
Aphasia - pathology
Aphasia - physiopathology
Brain - pathology
Brain - physiopathology
Brain Mapping
Comprehension
Diffusion Tensor Imaging
Female
Humans
Language
Language production and comprehension
Lesion-symptom mapping
Lexical-semantic deficits
Magnetic Resonance Imaging
Male
Middle Aged
Neural Pathways
Neuropsychological Tests
Prefrontal Cortex - pathology
Prefrontal Cortex - physiopathology
Semantic interference
Semantics
Stroke - complications
Stroke - pathology
Stroke - physiopathology
Temporal Lobe - pathology
Temporal Lobe - physiopathology
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Summary:Naming pictures and matching words to pictures belonging to the same semantic category negatively affects language production and comprehension. By most accounts, semantic interference arises when accessing lexical representations in naming (e.g., Damian, Vigliocco, & Levelt, 2001) and semantic representations in comprehension (e.g., Forde & Humphreys, 1997). Further, damage to the left inferior frontal gyrus (LIFG), a region implicated in cognitive control, results in increasing semantic interference when items repeat across cycles in both language production and comprehension (Jefferies, Baker, Doran, & Lambon Ralph, 2007). This generates the prediction that the LIFG via white matter connections supports resolution of semantic interference arising from different loci (lexical vs semantic) in the temporal lobe. However, it remains unclear whether the cognitive and neural mechanisms that resolve semantic interference are the same across tasks. Thus, we examined which gray matter structures [using whole brain and region of interest (ROI) approaches] and white matter connections (using deterministic tractography) when damaged impact semantic interference and its increase across cycles when repeatedly producing and understanding words in 15 speakers with varying lexical-semantic deficits from left hemisphere stroke. We found that damage to distinct brain regions, the posterior versus anterior temporal lobe, was associated with semantic interference (collapsed across cycles) in naming and comprehension, respectively. Further, those with LIFG damage compared to those without exhibited marginally larger increases in semantic interference across cycles in naming but not comprehension. Lastly, the inferior fronto-occipital fasciculus, connecting the LIFG with posterior temporal lobe, related to semantic interference in naming, whereas the inferior longitudinal fasciculus (ILF), connecting posterior with anterior temporal regions related to semantic interference in comprehension. These neuroanatomical-behavioral findings have implications for models of the lexical-semantic language network by demonstrating that semantic interference in language production and comprehension involves different representations which differentially recruit a cognitive control mechanism for interference resolution.
ISSN:0010-9452
1973-8102
DOI:10.1016/j.cortex.2015.03.004