Complex morphological processing has been extensively studied in the past decades. However, most of this work has either focused on only certain steps involved in this process, or it has been conducted on a few languages, like English. The purpose of the present study is to investigate the spatiotemporal cortical processing profile of the distinct steps previously reported in the literature, from decomposition to re-composition of morphologically complex items, in a relatively understudied language, Greek. Using magnetoencephalography, we confirm the role of the fusiform gyrus in early, form-based morphological decomposition, we relate the syntactic licensing of stem-suffix combinations to the ventral visual processing stream, somewhat independent from lexical access for the stem, and we further elucidate the role of orbitofrontal regions in semantic composition. Thus, the current study offers the most comprehensive test to date of visual morphological processing and additional, crosslinguistic validation of the steps involved in it.
Currently, variant subtyping in primary progressive aphasia (PPA)
requires an expert neurologist and extensive language and cognitive testing.
Spelling impairments appear early in the development of the disorder, and the
three PPA variants (non-fluent - nfvPPA; semantic - svPPA; logopenic - lvPPA)
reportedly show fairly distinct spelling profiles. Given the theoretical and
empirical evidence indicating that spelling may serve as a proxy for spoken
language, the current study aimed to determine whether spelling performance
alone, when evaluated with advanced statistical analyses, allows for accurate
PPA variant classification. A spelling to dictation task (with real words and
pseudowords) was administered to 33 PPA individuals: 17 lvPPA, 10 nfvPPA, 6
svPPA. Using machine learning classification algorithms, we obtained pairwise
variant classification accuracies that ranged between 67 and 100%. In additional
analyses that assumed no prior knowledge of each case's variant,
classification accuracies ranged between 59 and 70%. To our knowledge, this is
the first time that all the PPA variants, including the most challenging
logopenic variant, have been classified with such high accuracy when using
information from a single language task. These results underscore the rich
structure of the spelling process and support the use of a spelling task in PPA
variant classification.
We revisit a long-standing question in the psycholinguistic and neurolinguistic literature on comprehending morphologically complex words: are prefixes and suffixes processed using the same cognitive mechanisms? Recent work using Magnetoencephalography (MEG) to uncover the dynamic temporal and spatial responses evoked by visually presented complex suffixed single words provide us with a comprehensive picture of morphological processing in the brain, from early, form-based decomposition, through lexical access, grammatically constrained recomposition, and semantic interpretation. In the present study, we find that MEG responses to prefixed words reveal interesting early differences in the lateralization of the form-based decomposition response compared to the effects reported in the literature for suffixed words, but a very similar post-decomposition profile. These results not only address a question stretching back to the earliest days of modern psycholinguistics, but also add critical support and nuance to our much newer emerging understanding of spatial organization and temporal dynamics of morphological processing in the human brain.
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