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Investigating the effect of changing parameters when building prediction models in post-stroke aphasia
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In: Nat Hum Behav (2020)
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Auditory, Phonological, and Semantic Factors in the Recovery From Wernicke’s Aphasia Poststroke: Predictive Value and Implications for Rehabilitation ...
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Auditory, Phonological, and Semantic Factors in the Recovery From Wernicke’s Aphasia Poststroke: Predictive Value and Implications for Rehabilitation ...
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SD-squared revisited: reply to Coltheart, Tree, and Saunders (2010). ...
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Predicting the pattern and severity of chronic post-stroke language deficits from functionally-partitioned structural lesions
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| 6 |
Triangulation of language-cognitive impairments, naming errors and their neural bases post-stroke
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| 7 |
Seeing the Meaning: Top–Down Effects on Letter Identification
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| 8 |
Laterality of anterior temporal lobe repetitive transcranial magnetic stimulation determines the degree of disruption in picture naming
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| 9 |
Reduced neural ‘effort’ after naming treatment in anomia
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Abstract:
One of the most revolutionary scientific concepts for patients with stroke is that of neuroplasticity. Reorganization of brain structure and function allows for measurable behavioural improvements, even years post-stroke (Hope et al., 2017). Yet understanding the process by which regions change functional responsibility, and which patterns of reorganization are most advantageous to stroke outcome, has proven challenging. These issues have been studied extensively with reference to aphasia. This research has produced conflicting results concerning the role of perilesional and contralesional regions in language recovery. For example, there is an ongoing debate concerning the extent to which perilesional and contralesional regions play a facilitatory role, and whether some contralesional regions may in fact impede performance (Geranmayeh et al., 2014). In this issue of Brain, Nardo and co-workers present an exciting advance on previous work by using functional imaging not only to consider therapeutic outcomes, but also to study the processes that support therapeutic improvements (Nardo et al., 2017).
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URL: http://epubs.surrey.ac.uk/845818/1/Reduced%20neural%20%E2%80%98effort%E2%80%99%20after%20naming%20treatment%20in%20anomia.docx
https://doi.org/10.1093/brain/awx264
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| 10 |
Do You Read How I Read? Systematic Individual Differences in Semantic Reliance amongst Normal Readers
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Taking Sides: An Integrative Review of the Impact of Laterality and Polarity on Efficacy of Therapeutic Transcranial Direct Current Stimulation for Anomia in Chronic Poststroke Aphasia
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| 12 |
Lexical is as lexical does: computational approaches to lexical representation
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Opposing Effects of Semantic Diversity in Lexical and Semantic Relatedness Decisions
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| 14 |
Processing deficits for familiar and novel faces in patients with left posterior fusiform lesions
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| 15 |
Triangulation of the neurocomputational architecture underpinning reading aloud
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| 18 |
Capturing multidimensionality in stroke aphasia: mapping principal behavioural components to neural structures
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Capturing multidimensionality in stroke aphasia: mapping principal behavioural components to neural structures
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| 20 |
Connectionist neuropsychology: uncovering ultimate causes of acquired dyslexia
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