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57. Triangulation of language-cognitive impairments, naming errors and their neural bases post-stroke

Author

Halai, Ajay D., Woollams, Anna M., and Lambon Ralph, Matthew A.

Subjects
Speech production, Male, Brain Mapping, Principal Component Analysis, Models, Neurological, Brain, Regular Article, Middle Aged, Neuropsychological Tests, Phonology, lcsh:Computer applications to medicine. Medical informatics, Naming errors, Magnetic Resonance Imaging, Lesion-mapping, lcsh:RC346-429, Stroke, Aphasia, Humans, lcsh:R858-859.7, Female, Semantic, lcsh:Neurology. Diseases of the nervous system, Aged
Abstract

In order to gain a better understanding of aphasia one must consider the complex combinations of language impairments along with the pattern of paraphasias. Despite the fact that both deficits and paraphasias feature in diagnostic criteria, most research has focused only on the lesion correlates of language deficits, with minimal attention on the pattern of patients' paraphasias. In this study, we used a data-driven approach (principal component analysis - PCA) to fuse patient impairments and their pattern of errors into one unified model of chronic post-stroke aphasia. This model was subsequently mapped onto the patients' lesion profiles to generate the triangulation of language-cognitive impairments, naming errors and their neural correlates. Specifically, we established the pattern of co-occurrence between fifteen error types, which avoids focussing on a subset of errors or the use of experimenter-derived methods to combine across error types. We obtained five principal components underlying the patients' errors: omission errors; semantically-related responses; phonologically-related responses; dysfluent responses; and a combination of circumlocutions with mixed errors. In the second step, we aligned these paraphasia-related principal components with the patients' performance on a detailed language and cognitive assessment battery, utilising an additional PCA. This omnibus PCA revealed seven unique fused impairment-paraphasia factors: output phonology; semantics; phonological working memory; speech quanta; executive-cognitive skill; phonological (input) discrimination; and the production of circumlocution errors. In doing so we were able to resolve the complex relationships between error types and impairments. Some are relatively straightforward: circumlocution errors formed their own independent factor; there was a one-to-one mapping for phonological errors with expressive phonological abilities and for dysfluent errors with speech fluency. In contrast, omission-type errors loaded across both semantic and phonological working memory factors, whilst semantically-related errors had the most complex relationship by loading across four factors (phonological ability, speech quanta, executive-cognitive skills and circumlocution-type errors). Three components had unique lesion correlates: phonological working memory with the primary auditory region; semantics with the anterior temporal region; and fluency with the pre-central gyrus, converging with existing literature. In conclusion, the data-driven approach allowed derivation of the triangulation of deficits, error types and lesion correlates in post-stroke aphasia., Highlights • Using principal component analysis to identify structure in naming errors. • Determining the relationship between language impairments and naming errors. • Identifying neural correlates of behavioural deficits in performance and errors. • Seven independent factors identified to describe performance and error pattern. • Phonological working memory, semantic skill and speech quanta had lesion correlates.

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58. Dual-echo fMRI can detect activations in inferior temporal lobe during intelligible speech comprehension

Author

Halai, Ajay D., Parkes, Laura M., and Welbourne, Stephen R.

Subjects
Magnetic susceptibility, Intelligible speech, Neurology, Cognitive Neuroscience, Inferior temporal lobe, Dual gradient-echo
Abstract

The neural basis of speech comprehension has been investigated intensively during the past few decades. Incoming auditory signals are analysed for speech-like patterns and meaningful information can be extracted by mapping these sounds onto stored semantic representations. Investigation into the neural basis of speech comprehension has largely focused on the temporal lobe, in particular the superior and posterior regions. The ventral anterior temporal lobe (vATL), which includes the inferior temporal gyrus (ITG) and temporal fusiform gyrus (TFG) is consistently omitted in fMRI studies. In contrast, PET studies have shown the involvement of these ventral temporal regions. One crucial factor is the signal loss experienced using conventional echo planar imaging (EPI) for fMRI, at tissue interfaces such as the vATL. One method to overcome this signal loss is to employ a dual-echo EPI technique. The aim of this study was to use intelligible and unintelligible (spectrally rotated) sentences to determine if the vATL could be detected during a passive speech comprehension task using a dual-echo acquisition. A whole brain analysis for an intelligibility contrast showed bilateral superior temporal lobe activations and a cluster of activation within the left vATL. Converging evidence implicates the same ventral temporal regions during semantic processing tasks, which include language processing. The specific role of the ventral temporal region during intelligible speech processing cannot be determined from this data alone, but the converging evidence from PET, MEG, TMS and neuropsychology strongly suggest that it contains the stored semantic representations, which are activated by the speech decoding process.

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59. Evaluating the granularity and statistical structure of lesions and behaviour in post-stroke aphasia

Author

Zhao, Ying, Halai, Ajay D., Ralph, Matthew A. Lambon, Zhao, Ying [0000-0002-1601-0428], Lambon Ralph, Matthew [0000-0001-5907-2488], and Apollo - University of Cambridge Repository

Subjects
Inferior frontal gyrus, lesion–symptom mapping, 050105 experimental psychology, Temporal lobe, Angular gyrus, 03 medical and health sciences, 0302 clinical medicine, Supramarginal gyrus, Aphasia, cortical vascular branches, medicine, Middle frontal gyrus, Arcuate fasciculus, 0501 psychology and cognitive sciences, 030304 developmental biology, 0303 health sciences, middle cerebral artery, AcademicSubjects/SCI01870, 05 social sciences, Neuropsychology, General Engineering, Precentral gyrus, stroke, aphasia, medicine.anatomical_structure, Original Article, AcademicSubjects/MED00310, medicine.symptom, Psychology, Neuroscience, 030217 neurology & neurosurgery
Abstract

The pursuit of relating the location of neural damage to the pattern of acquired language and general cognitive deficits post-stroke stems back to the 19th century behavioural neurology. While spatial specificity has improved dramatically over time, from the large areas of damage specified by post-mortem investigation to the millimetre precision of modern MRI, there is an underlying issue that is rarely addressed, which relates to the fact that damage to a given area of the brain is not random but constrained by the brain’s vasculature. Accordingly, the aim of this study was to uncover the statistical structure underlying the lesion profile in chronic aphasia post-stroke. By applying varimax-rotated principal component analysis to the lesions of 70 patients with chronic post-stroke aphasia, we identified 17 interpretable clusters, largely reflecting the vascular supply of middle cerebral artery sub-branches and other sources of individual variation in vascular supply as shown in classical angiography studies. This vascular parcellation produced smaller displacement error in simulated lesion–symptom analysis compared with individual voxels and Brodmann regions. A second principal component analysis of the patients’ detailed neuropsychological data revealed a four-factor solution reflecting phonological, semantic, executive-demand and speech fluency abilities. As a preliminary exploration, stepwise regression was used to relate behavioural factor scores to the lesion principal components. Phonological ability was related to two components, which covered the posterior temporal region including the posterior segment of the arcuate fasciculus, and the inferior frontal gyrus. Three components were linked to semantic ability and were located in the white matter underlying the anterior temporal lobe, the supramarginal gyrus and angular gyrus. Executive-demand related to two components covering the dorsal edge of the middle cerebral artery territory, while speech fluency was linked to two components that were located in the middle frontal gyrus, precentral gyrus and subcortical regions (putamen and thalamus). Future studies can explore in formal terms the utility of these principal component analysis-derived lesion components for relating post-stroke lesions and symptoms., Brain damage post-stroke is not random but is constrained by the neurovascular system. Zhao et al. applied principal component analysis to post-stroke lesions to construct a parcellation of the middle cerebral artery cortical supply. This parcellation was used in lesion–symptom mapping, and mis-localization analyses showed lower error compared to Brodmann areas., Graphical Abstract Graphical Abstract

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60. Damage to temporoparietal cortex is sufficient for impaired semantic control

Author

Thompson, Hannah E., Noonan, Krist A., Halai, Ajay D., Hoffman, Paul, Stampacchia, Sara, Hallam, Glyn, Rice, Grace E., De Dios Perez, Blanca, Lambon Ralph, Matthew A., Jefferies, Elizabeth, Thompson, Hannah E., Noonan, Krist A., Halai, Ajay D., Hoffman, Paul, Stampacchia, Sara, Hallam, Glyn, Rice, Grace E., De Dios Perez, Blanca, Lambon Ralph, Matthew A., and Jefferies, Elizabeth

Abstract

Semantic control allows us to focus semantic activation on currently relevant aspects of knowledge, even in the face of competition or when the required information is weakly encoded. Diverse cortical regions, including left prefrontal and posterior temporal cortex, are implicated in semantic control, however; the relative contribution of these regions is unclear. For the first time, we compared semantic aphasia (SA) patients with damage restricted to temporoparietal cortex (TPC; N=8) to patients with infarcts encompassing prefrontal cortex (PF+; N=22), to determine if prefrontal lesions are necessary for semantic control deficits. These SA groups were also compared with semantic dementia (SD; N=10), characterised by degraded semantic representations. We asked whether TPC cases with semantic impairment show controlled retrieval deficits equivalent to PF+ cases or conceptual degradation similar to patients with SD. Independent of lesion location, the SA subgroups showed similarities, whereas SD patients showed a qualitatively distinct semantic impairment. Relative to SD, both TPC and PF+ SA subgroups: (1) showed few correlations in performance across tasks with differing control demands, but a strong relationship between tasks of similar difficulty; (2) exhibited attenuated effects of lexical frequency and concept familiarity, (3) showed evidence of poor semantic regulation in their verbal output – performance on picture naming was substantially improved when provided with a phonological cue, and (4) showed effects of control demands, such as retrieval difficulty, which were equivalent in severity across TPC and PF+ groups. These findings show that semantic impairment in SA is underpinned by damage to a distributed semantic control network, instantiated across anterior and posterior cortical areas.

61. Damage to temporoparietal cortex is sufficient for impaired semantic control

Author

Thompson, Hannah E., Noonan, Krist A., Halai, Ajay D., Hoffman, Paul, Stampacchia, Sara, Hallam, Glyn, Rice, Grace E., De Dios Perez, Blanca, Lambon Ralph, Matthew A., Jefferies, Elizabeth, Thompson, Hannah E., Noonan, Krist A., Halai, Ajay D., Hoffman, Paul, Stampacchia, Sara, Hallam, Glyn, Rice, Grace E., De Dios Perez, Blanca, Lambon Ralph, Matthew A., and Jefferies, Elizabeth

Abstract

Semantic control allows us to focus semantic activation on currently relevant aspects of knowledge, even in the face of competition or when the required information is weakly encoded. Diverse cortical regions, including left prefrontal and posterior temporal cortex, are implicated in semantic control, however; the relative contribution of these regions is unclear. For the first time, we compared semantic aphasia (SA) patients with damage restricted to temporoparietal cortex (TPC; N=8) to patients with infarcts encompassing prefrontal cortex (PF+; N=22), to determine if prefrontal lesions are necessary for semantic control deficits. These SA groups were also compared with semantic dementia (SD; N=10), characterised by degraded semantic representations. We asked whether TPC cases with semantic impairment show controlled retrieval deficits equivalent to PF+ cases or conceptual degradation similar to patients with SD. Independent of lesion location, the SA subgroups showed similarities, whereas SD patients showed a qualitatively distinct semantic impairment. Relative to SD, both TPC and PF+ SA subgroups: (1) showed few correlations in performance across tasks with differing control demands, but a strong relationship between tasks of similar difficulty; (2) exhibited attenuated effects of lexical frequency and concept familiarity, (3) showed evidence of poor semantic regulation in their verbal output – performance on picture naming was substantially improved when provided with a phonological cue, and (4) showed effects of control demands, such as retrieval difficulty, which were equivalent in severity across TPC and PF+ groups. These findings show that semantic impairment in SA is underpinned by damage to a distributed semantic control network, instantiated across anterior and posterior cortical areas.

62. Distance-dependent distribution thresholding in probabilistic tractography

Author

Ya-Ning Chang, Ajay D. Halai, Matthew A. Lambon Ralph, Chang, Ya-Ning [0000-0001-5248-0761], Halai, Ajay D [0000-0003-1725-7948], Lambon Ralph, Matthew A [0000-0001-5907-2488], and Apollo - University of Cambridge Repository

Subjects
probabilistic tractography, Diffusion Tensor Imaging, language connectome, diffusion-weighted imaging, Connectome, Humans, Brain, threshold selection
Abstract

Tractography is widely used in human studies of connectivity with respect to every brain region, function, and is explored developmentally, in adulthood, ageing, and in disease. However, the core issue of how to systematically threshold, taking into account the inherent differences in connectivity values for different track lengths, and to do this in a comparable way across studies has not been solved. By utilising 54 healthy individuals' diffusion-weighted image data taken from HCP, this study adopted Monte Carlo derived distance-dependent distributions (DDDs) to generate distance-dependent thresholds with various levels of alpha for connections of varying lengths. As a test case, we applied the DDD approach to generate a language connectome. The resulting connectome showed both short- and long-distance structural connectivity in the close and distant regions as expected for the dorsal and ventral language pathways, consistent with the literature. The finding demonstrates that the DDD approach is feasible to generate data-driven DDDs for common thresholding and can be used for both individual and group thresholding. Critically, it offers a standard method that can be applied to various probabilistic tracking datasets.

Published
2022

63. Assessing executive functions in post-stroke aphasia-utility of verbally based tests

Author

Ajay Halai, Matthew Lambon Ralph, Rahel Schumacher, Schumacher, Rahel [0000-0001-7500-7491], Halai, Ajay D [0000-0003-1725-7948], Lambon Ralph, Matthew A [0000-0001-5907-2488], Apollo - University of Cambridge Repository, Halai, Ajay [0000-0003-1725-7948], and Lambon Ralph, Matthew [0000-0001-5907-2488]

Subjects
voxel-based correlational methodology, General Engineering, neuropsychological test, 610 Medicine & health, executive functions, behavioral disciplines and activities, stroke, aphasia
Abstract

It is increasingly acknowledged that, often, patients with post-stroke aphasia not only have language impairments but also deficits in other cognitive domains (e.g. executive functions) that influence recovery and response to therapy. Many assessments of executive functions are verbally based and therefore usually not administered in this patient group. However, the performance of patients with aphasia in such tests might provide valuable insights both from a theoretical and clinical perspective. We aimed to elucidate (i) if verbal executive tests measure anything beyond the language impairment in patients with chronic post-stroke aphasia, (ii) how performance in such tests relates to performance in language tests and nonverbal cognitive functions, and (iii) the neural correlates associated with performance in verbal executive tests. In this observational study, three commonly used verbal executive tests were administered to a sample of patients with varying aphasia severity. Their performance in these tests was explored by means of principal component analyses, and the relationships with a broad range of background tests regarding their language and nonverbal cognitive functions were elucidated with correlation analyses. Furthermore, lesion analyses were performed to explore brain–behaviour relationships. In a sample of 32 participants, we found that: (i) a substantial number of patients with aphasia were able to perform the verbal executive tests; (ii) variance in performance was not explained by the severity of an individual’s overall language impairment alone but was related to two independent behavioural principal components per test; (iii) not all aspects of performance were related to the patient’s language abilities; and (iv) all components were associated with separate neural correlates, some overlapping partly in frontal and parietal regions. Our findings extend our clinical and theoretical understanding of dysfunctions beyond language in patients with aphasia.

Published
2022

64. Mapping lesion, structural disconnection, and functional disconnection to symptoms in semantic aphasia

Author

Katya Krieger-Redwood, Elizabeth Jefferies, H. Thompson, M. Thiebaut de Schotten, A. Halai, M. Lambon Ralph, Xuxia Wang, N. E. Souter, Souter, Nicholas E [0000-0002-0999-1811], Wang, Xiuyi [0000-0002-8197-6229], Thompson, Hannah [0000-0002-0679-1961], Krieger-Redwood, Katya [0000-0003-4143-1168], Halai, Ajay D [0000-0003-1725-7948], Lambon Ralph, Matthew A [0000-0001-5907-2488], Thiebaut de Schotten, Michel [0000-0002-0329-1814], Jefferies, Elizabeth [0000-0002-3826-4330], and Apollo - University of Cambridge Repository

Subjects
Histology, Disconnection, Corpus callosum, Lateralization of brain function, Structural, Aphasia, medicine, Humans, Functional disconnection, Temporal cortex, Brain Mapping, Functional, General Neuroscience, Cognition, Magnetic Resonance Imaging, Temporal Lobe, Semantics, Stroke, medicine.symptom, Anatomy, Psychology, Neuroscience, Semantic, Executive dysfunction
Abstract

Funder: H2020 European Research Council; doi: http://dx.doi.org/10.13039/100010663; Grant(s): FLEXSEM – 77186, DISCONNECTOME, Grant agreement No. 818521, GAP: 670428 – BRAIN2MIND_NEUROCOMP, Patients with semantic aphasia have impaired control of semantic retrieval, often accompanied by executive dysfunction following left hemisphere stroke. Many but not all of these patients have damage to the left inferior frontal gyrus, important for semantic and cognitive control. Yet semantic and cognitive control networks are highly distributed, including posterior as well as anterior components. Accordingly, semantic aphasia might not only reflect local damage but also white matter structural and functional disconnection. Here, we characterise the lesions and predicted patterns of structural and functional disconnection in individuals with semantic aphasia and relate these effects to semantic and executive impairment. Impaired semantic cognition was associated with infarction in distributed left-hemisphere regions, including in the left anterior inferior frontal and posterior temporal cortex. Lesions were associated with executive dysfunction within a set of adjacent but distinct left frontoparietal clusters. Performance on executive tasks was also associated with interhemispheric structural disconnection across the corpus callosum. In contrast, poor semantic cognition was associated with small left-lateralized structurally disconnected clusters, including in the left posterior temporal cortex. Little insight was gained from functional disconnection symptom mapping. These results demonstrate that while left-lateralized semantic and executive control regions are often damaged together in stroke aphasia, these deficits are associated with distinct patterns of structural disconnection, consistent with the bilateral nature of executive control and the left-lateralized yet distributed semantic control network.

Published
2021

65. Using in vivo functional and structural connectivity to predict chronic stroke aphasia deficits.

Author

Zhao Y, Cox CR, Lambon Ralph MA, and Halai AD

Subjects
Humans, Brain pathology, Language, Magnetic Resonance Imaging methods, Brain Mapping, Stroke complications, Aphasia etiology, Language Disorders etiology
Abstract

Focal brain damage caused by stroke can result in aphasia and advances in cognitive neuroscience suggest that impairment may be associated with network-level disorder rather than just circumscribed cortical damage. Several studies have shown meaningful relationships between brain-behaviour using lesions; however, only a handful of studies have incorporated in vivo structural and functional connectivity. Patients with chronic post-stroke aphasia were assessed with structural (n = 68) and functional (n = 39) MRI to assess whether predicting performance can be improved with multiple modalities and if additional variance can be explained compared to lesion models alone. These neural measurements were used to construct models to predict four key language-cognitive factors: (i) phonology; (ii) semantics; (iii) executive function; and (iv) fluency. Our results showed that each factor (except executive ability) could be significantly related to each neural measurement alone; however, structural and functional connectivity models did not explain additional variance above the lesion models. We did find evidence that the structural and functional predictors may be linked to the core lesion sites. First, the predictive functional connectivity features were found to be located within functional resting-state networks identified in healthy controls, suggesting that the result might reflect functionally specific reorganization (damage to a node within a network can result in disruption to the entire network). Second, predictive structural connectivity features were located within core lesion sites, suggesting that multimodal information may be redundant in prediction modelling. In addition, we observed that the optimum sparsity within the regularized regression models differed for each behavioural component and across different imaging features, suggesting that future studies should consider optimizing hyperparameters related to sparsity per target. Together, the results indicate that the observed network-level disruption was predicted by the lesion alone and does not significantly improve model performance in predicting the profile of language impairment., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2023
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66. The behavioural patterns and neural correlates of concrete and abstract verb processing in aphasia: A novel verb semantic battery.

Author

Alyahya RSW, Halai AD, Conroy P, and Lambon Ralph MA

Subjects
Adult, Aged, Aged, 80 and over, Brain diagnostic imaging, Brain Mapping, Correlation of Data, Female, Humans, Male, Middle Aged, Names, Neuroimaging, Neuropsychological Tests, Reaction Time, Reproducibility of Results, Aphasia complications, Aphasia diagnostic imaging, Aphasia psychology, Brain pathology, Comprehension physiology, Semantics, Verbal Behavior physiology
Abstract

Typically, processing is more accurate and efficient for concrete than abstract concepts in both healthy adults and individuals with aphasia. While, concreteness effects have been thoroughly documented with respect to noun processing, other words classes have received little attention despite tending to be less concrete than nouns. The aim of the current study was to explore concrete-abstract differences in verbs and identify their neural correlates in post-stroke aphasia. Given the dearth of comprehension tests for verbs, a battery of neuropsychological tests was developed in this study to assess the comprehension of concrete and abstract verbs. Specifically, a sensitive verb synonym judgment test was generated that varied both the items' imageability and frequency, and a picture-to-word matching test with numerous concrete verbs. Normative data were then collected and the tests were administered to a cohort of 48 individuals with chronic post-stroke aphasia to explore the behavioural patterns and neural correlates of verb processing. The results revealed significantly better comprehension of concrete than abstract verbs, aligning with the existing aphasiological literature on noun processing. In addition, the patients performed better during verb comprehension than verb production. Lesion-symptom correlational analyses revealed common areas that support processing of concrete and abstract verbs, including the left anterior temporal lobe, posterior supramarginal gyrus and superior lateral occipital cortex. A direct contrast between them revealed additional regions with graded differences. Specifically, the left frontal regions were associated with processing abstract verbs; whereas, the left posterior temporal and occipital regions were associated with processing concrete verbs. Moreover, overlapping and distinct neural correlates were identified in association with the comprehension and production of concrete verbs. These patient findings align with data from functional neuroimaging and neuro-stimulation, and existing models of language organisation.

Published
2017
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67. Triangulation of language-cognitive impairments, naming errors and their neural bases post-stroke.

Author

Halai AD, Woollams AM, and Lambon Ralph MA

Subjects
Aged, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Models, Neurological, Neuropsychological Tests, Principal Component Analysis, Aphasia complications, Aphasia pathology, Brain pathology, Stroke complications, Stroke pathology
Abstract

In order to gain a better understanding of aphasia one must consider the complex combinations of language impairments along with the pattern of paraphasias. Despite the fact that both deficits and paraphasias feature in diagnostic criteria, most research has focused only on the lesion correlates of language deficits, with minimal attention on the pattern of patients' paraphasias. In this study, we used a data-driven approach (principal component analysis - PCA) to fuse patient impairments and their pattern of errors into one unified model of chronic post-stroke aphasia. This model was subsequently mapped onto the patients' lesion profiles to generate the triangulation of language-cognitive impairments, naming errors and their neural correlates. Specifically, we established the pattern of co-occurrence between fifteen error types, which avoids focussing on a subset of errors or the use of experimenter-derived methods to combine across error types. We obtained five principal components underlying the patients' errors: omission errors; semantically-related responses; phonologically-related responses; dysfluent responses; and a combination of circumlocutions with mixed errors. In the second step, we aligned these paraphasia-related principal components with the patients' performance on a detailed language and cognitive assessment battery, utilising an additional PCA. This omnibus PCA revealed seven unique fused impairment-paraphasia factors: output phonology; semantics; phonological working memory; speech quanta; executive-cognitive skill; phonological (input) discrimination; and the production of circumlocution errors. In doing so we were able to resolve the complex relationships between error types and impairments. Some are relatively straightforward: circumlocution errors formed their own independent factor; there was a one-to-one mapping for phonological errors with expressive phonological abilities and for dysfluent errors with speech fluency. In contrast, omission-type errors loaded across both semantic and phonological working memory factors, whilst semantically-related errors had the most complex relationship by loading across four factors (phonological ability, speech quanta, executive-cognitive skills and circumlocution-type errors). Three components had unique lesion correlates: phonological working memory with the primary auditory region; semantics with the anterior temporal region; and fluency with the pre-central gyrus, converging with existing literature. In conclusion, the data-driven approach allowed derivation of the triangulation of deficits, error types and lesion correlates in post-stroke aphasia.

Published
2017
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