TY - JOUR
T1 - Task-based and resting-state fMRI reveal compensatory network changes following damage to left inferior frontal gyrus
AU - Hallam, Glyn
AU - Thompson, Hannah E
AU - Hymers, Mark
AU - Millman, Rebecca
AU - Rodd, Jennifer
AU - Lambon Ralph, Matthew
AU - Smallwood, Jonathan
AU - Jefferies, Elizabeth
N1 - Funding Information:
We thank the patients and their carers for their generous assistance with this study. GH was supported by a Stroke Association project grant ( TSA/12/02 ). EJ was supported by grants from BBSRC ( BB/J006963/1 ) and the European Research Council (SEMBIND – 283530 ), JS was supported by European Research Council (WANDERINGMINDS – 646927 ) and M.A.L by an MRC programme grant ( MR/J004146/1 ). Funders had no role in study design, collection, analysis and interpretation of data, writing the report, or decision to submit the article for publication. Appendix A
Publisher Copyright:
© 2017
Copyright:
Copyright 2019 Elsevier B.V., All rights reserved.
PY - 2017/10/17
Y1 - 2017/10/17
N2 - Abstract: Damage to left inferior prefrontal cortex in stroke aphasia is associated with semantic deficits reflecting poor control over conceptual retrieval, as opposed to loss of knowledge. However, little is known about how functional recruitment within the semantic network changes in patients with executive-semantic deficits. The current study acquired fMRI data from 14 patients with semantic aphasia, who had difficulty with flexible semantic retrieval following left prefrontal damage, and 16 healthy age-matched controls, allowing us to examine activation and connectivity in the semantic network. We examined neural activity while participants listened to spoken sentences that varied in their levels of lexical ambiguity and during rest. We found group differences in two regions thought to be good candidates for functional compensation: ventral anterior temporal lobe (vATL), which is strongly implicated in comprehension, and posterior middle temporal gyrus (pMTG), which is hypothesized to work together with left inferior prefrontal cortex to support controlled aspects of semantic retrieval. The patients recruited both of these sites more than controls in response to meaningful sentences. Subsequent analysis identified that, in control participants, the recruitment of pMTG to ambiguous sentences was inversely related to functional coupling between pMTG and anterior superior temporal gyrus (aSTG) at rest, while the patients showed the opposite pattern. Moreover, stronger connectivity between pMTG and aSTG in patients was associated with better performance on a test of verbal semantic association, suggesting that this temporal lobe connection supports comprehension in the face of damage to left inferior prefrontal cortex. These results characterize network changes in patients with executive-semantic deficits and converge with studies of healthy participants in providing evidence for a distributed system underpinning semantic control that includes pMTG in addition to left inferior prefrontal cortex.
AB - Abstract: Damage to left inferior prefrontal cortex in stroke aphasia is associated with semantic deficits reflecting poor control over conceptual retrieval, as opposed to loss of knowledge. However, little is known about how functional recruitment within the semantic network changes in patients with executive-semantic deficits. The current study acquired fMRI data from 14 patients with semantic aphasia, who had difficulty with flexible semantic retrieval following left prefrontal damage, and 16 healthy age-matched controls, allowing us to examine activation and connectivity in the semantic network. We examined neural activity while participants listened to spoken sentences that varied in their levels of lexical ambiguity and during rest. We found group differences in two regions thought to be good candidates for functional compensation: ventral anterior temporal lobe (vATL), which is strongly implicated in comprehension, and posterior middle temporal gyrus (pMTG), which is hypothesized to work together with left inferior prefrontal cortex to support controlled aspects of semantic retrieval. The patients recruited both of these sites more than controls in response to meaningful sentences. Subsequent analysis identified that, in control participants, the recruitment of pMTG to ambiguous sentences was inversely related to functional coupling between pMTG and anterior superior temporal gyrus (aSTG) at rest, while the patients showed the opposite pattern. Moreover, stronger connectivity between pMTG and aSTG in patients was associated with better performance on a test of verbal semantic association, suggesting that this temporal lobe connection supports comprehension in the face of damage to left inferior prefrontal cortex. These results characterize network changes in patients with executive-semantic deficits and converge with studies of healthy participants in providing evidence for a distributed system underpinning semantic control that includes pMTG in addition to left inferior prefrontal cortex.
KW - Functional compensation
KW - Resting-state connectivity
KW - Semantic control
KW - Sentence processing
KW - fMRI
U2 - 10.1016/j.cortex.2017.10.004
DO - 10.1016/j.cortex.2017.10.004
M3 - Article
SN - 0010-9452
VL - 99
SP - 150
EP - 165
JO - Cortex
JF - Cortex
ER -