Your search keyword '"language network"' showing total 617 results

1. Continuous theta-burst stimulation demonstrates language-network-specific causal effects on syntactic processing

Author

Gao, Chenyang, Wu, Junjie, Cheng, Yao, Ke, Yuming, Qu, Xingfang, Yang, Mingchuan, Hartwigsen, Gesa, and Chen, Luyao

Published

2025

2. The language network ages well: Preserved selectivity, lateralization, and within-network functional synchronization in older brains

Author

Billot, Anne, Jhingan, Niharika, Varkanitsa, Maria, Blank, Idan, Ryskin, Rachel, Kiran, Swathi, and Fedorenko, Evelina

Subjects

Linguistics, Applied and Developmental Psychology, Biological Psychology, Cognitive and Computational Psychology, Language, Communication and Culture, Psychology, Aging, Behavioral and Social Science, Neurosciences, Clinical Research, Basic Behavioral and Social Science, 1.2 Psychological and socioeconomic processes, 1.1 Normal biological development and functioning, Mental health, aging, functional connectivity, functional localization, language network, lateralization, multiple demand network

Abstract

Healthy aging is associated with structural and functional brain changes. However, cognitive abilities differ from one another in how they change with age: whereas executive functions, like working memory, show age-related decline, aspects of linguistic processing remain relatively preserved (Hartshorne et al., 2015). This heterogeneity of the cognitive-behavioral landscape in aging predicts differences among brain networks in whether and how they should change with age. To evaluate this prediction, we used individual-subject fMRI analyses ('precision fMRI') to examine the language-selective network (Fedorenko et al., 2024) and the Multiple Demand (MD) network, which supports executive functions (Duncan et al., 2020), in older adults (n=77) relative to young controls (n=470). In line with past claims, relative to young adults, the MD network of older adults shows weaker and less spatially extensive activations during an executive function task and reduced within-network functional synchronization. However, in stark contrast to the MD network, we find remarkable preservation of the language network in older adults. Their language network responds to language as strongly and selectively as in younger adults, and is similarly lateralized and internally synchronized. In other words, the language network of older adults looks indistinguishable from that of younger adults. Our findings align with behavioral preservation of language skills in aging and suggest that some networks remain young-like, at least on standard measures of function and connectivity.

Published

2024

3. The Language Network Reliably “Tracks” Naturalistic Meaningful Nonverbal Stimuli

Author

Sueoka, Yotaro, Paunov, Alexander, Tanner, Alyx, Blank, Idan A, Ivanova, Anna, and Fedorenko, Evelina

Subjects

Linguistics, Biological Psychology, Cognitive and Computational Psychology, Language, Communication and Culture, Psychology, Neurosciences, Brain Disorders, Clinical Research, Mental Health, Basic Behavioral and Social Science, Behavioral and Social Science, 1.1 Normal biological development and functioning, 1.2 Psychological and socioeconomic processes, fMRI, intersubject correlation, language network, naturalistic stimuli, nonverbal semantics

Abstract

The language network, comprised of brain regions in the left frontal and temporal cortex, responds robustly and reliably during language comprehension but shows little or no response during many nonlinguistic cognitive tasks (e.g., Fedorenko & Blank, 2020). However, one domain whose relationship with language remains debated is semantics-our conceptual knowledge of the world. Given that the language network responds strongly to meaningful linguistic stimuli, could some of this response be driven by the presence of rich conceptual representations encoded in linguistic inputs? In this study, we used a naturalistic cognition paradigm to test whether the cognitive and neural resources that are responsible for language processing are also recruited for processing semantically rich nonverbal stimuli. To do so, we measured BOLD responses to a set of ∼5-minute-long video and audio clips that consisted of meaningful event sequences but did not contain any linguistic content. We then used the intersubject correlation (ISC) approach (Hasson et al., 2004) to examine the extent to which the language network "tracks" these stimuli, that is, exhibits stimulus-related variation. Across all the regions of the language network, meaningful nonverbal stimuli elicited reliable ISCs. These ISCs were higher than the ISCs elicited by semantically impoverished nonverbal stimuli (e.g., a music clip), but substantially lower than the ISCs elicited by linguistic stimuli. Our results complement earlier findings from controlled experiments (e.g., Ivanova et al., 2021) in providing further evidence that the language network shows some sensitivity to semantic content in nonverbal stimuli.

Published

2024

4. Semantic Integration Demands Modulate Large‐Scale Network Interactions in the Brain.

Author

Nieberlein, Laura, Martin, Sandra, Williams, Kathleen A., Gussew, Alexander, Cyriaks, Sophia D., Scheer, Maximilian, Rampp, Stefan, Prell, Julian, and Hartwigsen, Gesa

Subjects

*FUNCTIONAL magnetic resonance imaging, *STIMULUS & response (Psychology), *TASK performance, *FUNCTIONAL connectivity, *SUPPLY & demand

Abstract

The ability to integrate semantic information into the context of a sentence is essential for human communication. Several studies have shown that the predictability of a final keyword based on the sentence context influences semantic integration on the behavioral, neurophysiological, and neural level. However, the architecture of the underlying network interactions for semantic integration across the lifespan remains unclear. In this study, 32 healthy participants (30–75 years) performed an auditory cloze probability task during functional magnetic resonance imaging (fMRI), requiring lexical decisions on the sentence's final words. Semantic integration demands were implicitly modulated by presenting sentences with expected, unexpected, anomalous, or pseudoword endings. To elucidate network interactions supporting semantic integration, we combined univariate task‐based fMRI analyses with seed‐based connectivity and between‐network connectivity analyses. Behavioral data revealed typical semantic integration effects, with increased integration demands being associated with longer response latencies and reduced accuracy. Univariate results demonstrated increased left frontal and temporal brain activity for sentences with higher integration demands. Between‐network interactions highlighted the role of task‐positive and default mode networks for sentence processing with increased semantic integration demands. Furthermore, increasing integration demands led to a higher number of behaviorally relevant network interactions, suggesting that the increased between‐network coupling becomes more relevant for successful task performance as integration demands increase. Our findings elucidate the complex network interactions underlying semantic integration across the aging continuum. Stronger interactions between various task‐positive and default mode networks correlated with more efficient processing of sentences with increased semantic integration demands. These results may inform future studies with healthy old and clinical populations. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Novel Directed Seed-Based Connectivity Analysis Toolbox Applied to Human and Marmoset Resting-State FMRI.

Author

Takuto Okuno, Junichi Hata, Chino Kawai, Hideyuki Okano, and Woodward, Alexander

Subjects

*DEFAULT mode network, *MARMOSETS, *FUNCTIONAL magnetic resonance imaging, *RECEIVER operating characteristic curves, *TEMPORAL lobe, *PREFRONTAL cortex

Abstract

Estimating the direction of functional connectivity (FC) can help further elucidate complex brain function. However, the estimation of directed FC at the voxel level in fMRI data, and evaluating its performance, has yet to be done. We therefore developed a novel directed seed-based connectivity analysis (SCA) method based on normalized pairwise Granger causality that provides greater detail and accuracy over ROI-based methods. We evaluated its performance against 145 cortical retrograde tracer injections in male and female marmosets that were used as ground truth cellular connectivity on a voxel-by-voxel basis. The receiver operating characteristic (ROC) curve was calculated for each injection, and we achieved area under the ROC curve of 0.95 for undirected and 0.942 for directed SCA in the case of high cell count threshold. This indicates that SCA can reliably estimate the strong cellular connections between voxels in fMRI data. We then used our directed SCA method to analyze the human default mode network (DMN) and found that dlPFC (dorsolateral prefrontal cortex) and temporal lobe were separated from other DMN regions, forming part of the languagenetwork that works together with the core DMN regions. We also found that the cerebellum (Crus I-II) was strongly targeted by the posterior parietal cortices and dlPFC, but reciprocal connections were not observed. Thus, the cerebellum may not be a part of, but instead a target of, the DMN and language-network. Summarily, our novel directed SCA method, visualized with a new functional flat mapping technique, opens a new paradigm for whole-brain functional analysis. [ABSTRACT FROM AUTHOR]

Published

2024

6. Experientially-grounded and distributional semantic vectors uncover dissociable representations of conceptual categories.

Author

Carota, Francesca, Nili, Hamed, Kriegeskorte, Nikolaus, and Pulvermüller, Friedemann

Subjects

*BRAIN physiology, *SEMANTIC Web, *DESCRIPTIVE statistics, *THEMATIC analysis, *DATA analysis software, *LANGUAGE acquisition, *BRAIN mapping

Abstract

Neuronal populations code similar concepts by similar activity patterns across the human brain's semantic networks. However, it is unclear to what extent such meaning-to-symbol mapping reflects distributional statistics, or experiential information grounded in sensorimotor and emotional knowledge. We asked whether integrating distributional and experiential data better distinguished conceptual categories than each method taken separately. We examined the similarity structure of fMRI patterns elicited by visually presented action- and object-related words using representational similarity analysis (RSA). We found that the distributional and experiential/integrative models respectively mapped the high-dimensional semantic space in left inferior frontal, anterior temporal, and in left precentral, posterior inferior/middle temporal cortex. Furthermore, results from model comparisons uncovered category-specific similarity patterns, as both distributional and experiential models matched the similarity patterns for action concepts in left fronto-temporal cortex, whilst the experiential/integrative (but not distributional) models matched the similarity patterns for object concepts in left fusiform and angular gyrus. [ABSTRACT FROM AUTHOR]

Published

2024

7. Non-literal language processing is jointly supported by the language and theory of mind networks: Evidence from a novel meta-analytic fMRI approach.

Author

Hauptman, Miriam, Blank, Idan, and Fedorenko, Evelina

Subjects

Language network, Lateralization, Meta-analysis, Non-literal language, Probabilistic atlas, Theory of mind, fMRI, Humans, Magnetic Resonance Imaging, Comprehension, Theory of Mind, Language, Brain, Brain Mapping

Abstract

Going beyond the literal meaning of language is key to communicative success. However, the mechanisms that support non-literal inferences remain debated. Using a novel meta-analytic approach, we evaluate the contribution of linguistic, social-cognitive, and executive mechanisms to non-literal interpretation. We identified 74 fMRI experiments (n = 1,430 participants) from 2001 to 2021 that contrasted non-literal language comprehension with a literal control condition, spanning ten phenomena (e.g., metaphor, irony, indirect speech). Applying the activation likelihood estimation approach to the 825 activation peaks yielded six left-lateralized clusters. We then evaluated the locations of both the individual-study peaks and the clusters against probabilistic functional atlases (cf. anatomical locations, as is typically done) for three candidate brain networks-the language-selective network (Fedorenko, Behr, & Kanwisher, 2011), which supports language processing, the Theory of Mind (ToM) network (Saxe & Kanwisher, 2003), which supports social inferences, and the domain-general Multiple-Demand (MD) network (Duncan, 2010), which supports executive control. These atlases were created by overlaying individual activation maps of participants who performed robust and extensively validated localizer tasks that selectively target each network in question (n = 806 for language; n = 198 for ToM; n = 691 for MD). We found that both the individual-study peaks and the ALE clusters fell primarily within the language network and the ToM network. These results suggest that non-literal processing is supported by both i) mechanisms that process literal linguistic meaning, and ii) mechanisms that support general social inference. They thus undermine a strong divide between literal and non-literal aspects of language and challenge the claim that non-literal processing requires additional executive resources.

Published

2023

8. The neocortical infrastructure for language involves region-specific patterns of laminar gene expression.

Author

Wong, Maggie M. K., Zhiqiang Sha, Lütje, Lukas, Xiang-Zhen Kong, van Heukelum, Sabrina, van de Berg, Wilma D. J., Jonkman, Laura E., Fisher, Simon E., and Francks, Clyde

Subjects

*TEMPORAL lobe, *GENE expression, *FRONTAL lobe, *TRANSCRIPTOMES, *MEDICAL screening, *PEOPLE with schizophrenia

Abstract

The language network of the human brain has core components in the inferior frontal cortex and superior/middle temporal cortex, with left-hemisphere dominance in most people. Functional specialization and interconnectivity of these neocortical regions is likely to be reflected in their molecular and cellular profiles. Excitatory connections between cortical regions arise and innervate according to layer-specific patterns. Here, we generated a gene expression dataset from human postmortem cortical tissue samples from core language network regions, using spatial transcriptomics to discriminate gene expression across cortical layers. Integration of these data with existing single-cell expression data identified 56 genes that showed differences in laminar expression profiles between the frontal and temporal language cortex together with upregulation in layer II/III and/or layer V/VI excitatory neurons. Based on data from large-scale genome-wide screening in the population, DNA variants within these 56 genes showed set-level associations with interindividual variation in structural connectivity between the left-hemisphere frontal and temporal language cortex, and with the brain-related disorders dyslexia and schizophrenia which often involve affected language. These findings identify region-specific patterns of laminar gene expression as a feature of the brain's language network. [ABSTRACT FROM AUTHOR]

Published

2024

9. Detecting language network alterations in mild cognitive impairment using task‐based fMRI and resting‐state fMRI: A comparative study.

Author

Kemik, Kerem, Ada, Emel, Çavuşoğlu, Berrin, Aykaç, Cansu, Savaş, Derya Durusu Emek, and Yener, Görsev

Subjects

*FUNCTIONAL magnetic resonance imaging, *MILD cognitive impairment, *LARGE-scale brain networks, *INDEPENDENT component analysis

Abstract

Objective: The objective of this study was to investigate the functional changes associated with mild cognitive impairment (MCI) using independent component analysis (ICA) with the word generation task functional magnetic resonance imaging (fMRI) and resting‐state fMRI. Methods: In this study 17 patients with MCI and age and education‐matched 17 healthy individuals as control group are investigated. All participants underwent resting‐state fMRI and task‐based fMRI while performing the word generation task. ICA was used to identify the appropriate independent components (ICs) and their associated networks. The Dice Coefficient method was used to determine the relevance of the ICs to the networks of interest. Results: IC‐14 was found relevant to language network in both resting‐state and task‐based fMRI, IC‐4 to visual, and IC‐28 to dorsal attention network (DAN) in word generation task‐based fMRI by Sorento‐Dice Coefficient. ICA showed increased activation in language network, which had a larger voxel size in resting‐state functional MRI than word generation task‐based fMRI in the bilateral lingual gyrus. Right temporo‐occipital fusiform cortex, right hippocampus, and right thalamus were also activated in the task‐based fMRI. Decreased activation was found in DAN and visual network MCI patients in word generation task‐based fMRI. Conclusion: Task‐based fMRI and ICA are more sophisticated and reliable tools in evaluation cognitive impairments in language processing. Our findings support the neural mechanisms of the cognitive impairments in MCI. [ABSTRACT FROM AUTHOR]

Published

2024

10. Developmental surface dyslexia and dysgraphia in a child with corpus callosum agenesis: an approach to diagnosis and treatment.

Author

Bartha-Doering, Lisa, Roberts, Daniel, Baumgartner, Bettina, Yildirim, Mehmet Salih, Giordano, Vito, Spagna, Alfredo, Pal-Handl, Katharina, Javorszky, Susanne Maria, Kasprian, Gregor, and Seidl, Rainer

Subjects

*AGENESIS of corpus callosum, *CHILDREN with dyslexia, *CORPUS callosum, *OCCIPITAL lobe, *DYSLEXIA

Abstract

We present a case study detailing cognitive performance, functional neuroimaging, and effects of a hypothesis-driven treatment in a 10-year-old girl diagnosed with complete, isolated corpus callosum agenesis. Despite having average overall intellectual abilities, the girl exhibited profound surface dyslexia and dysgraphia. Spelling treatment significantly and persistently improved her spelling of trained irregular words, and this improvement generalized to reading accuracy and speed of trained words. Diffusion weighted imaging revealed strengthened intrahemispheric white matter connectivity of the left temporal cortex after treatment and identified interhemispheric connectivity between the occipital lobes, likely facilitated by a pathway crossing the midline via the posterior commissure. This case underlines the corpus callosum's critical role in lexical reading and writing. It demonstrates that spelling treatment may enhance interhemispheric connectivity in corpus callosum agenesis through alternative pathways, boosting the development of a more efficient functional organization of the visual word form area within the left temporo-occipital cortex. [ABSTRACT FROM AUTHOR]

Published

2024

11. Silence Practice Modulates the Resting State Functional Connectivity of Language Network with Default Mode and Dorsal Attention Networks in Long-Term Meditators.

Author

Tripathi, Vaibhav, Devaney, Kathryn J., Lazar, Sara W., and Somers, David C.

Abstract

Objectives: The practice of silence is integral to some meditation traditions. Research is lacking on how silence practice affects brain connectivity. We hypothesized that silent, retreat-based meditation practice would reduce the connection between the language network from core cognitive networks such as the dorsal attention network (DAN) and default mode network (DMN). Method: In a retrospective study, we analyzed resting state functional MRI (rsfMRI) data in 13 long-term Vipassana meditators (LTM) (~ 11,000 average hours of lifetime meditation experience) and healthy controls (n = 34) with no experience in meditation. We also compared our results with a large-scale dataset—Human Connectome Project (n = 169) (HCP). We compared the within and across functional connectivity among the three networks and correlated meditation experience and days spent in silence with the network connectivities. Results: We found that the meditators have decoupled functional connectivity strengths (F(2,204) = 10.27, p < 0.01) between the DMN and language network (M = − 0.05, SD = 0.19) as compared to HCP controls (M = 0.14, SD = 0.14). The DAN had a negatively correlated connectivity strength with the language network in meditators (r = − 0.20) as compared to both control groups (r = 0.02) and a strong inverse relation (r = − 0.54) was found between DAN-language connectivity and the number of days spent in silent retreat. Conclusions: Our study finds a potential role of silence training in changing the connectivities of three cognitive networks, DMN, DAN, and language network, resulting in reduced thoughts during meditation and a deeper experience of meditation. Preregistration: This study is not preregistered. [ABSTRACT FROM AUTHOR]

Published

2024

12. Longitudinal associations between language network characteristics in the infant brain and school-age reading abilities are mediated by early-developing phonological skills

Author

Xinyi Tang, Ted K. Turesky, Elizabeth S. Escalante, Megan Yf Loh, Mingrui Xia, Xi Yu, and Nadine Gaab

Subjects

Infants, Resting-state, Language network, Reading acquisition, Functional connectivity, Phonological skills, Neurophysiology and neuropsychology, QP351-495

Abstract

Reading acquisition is a prolonged learning process relying on language development starting in utero. Behavioral longitudinal studies reveal prospective associations between infant language abilities and preschool/kindergarten phonological development that relates to subsequent reading performance. While recent pediatric neuroimaging work has begun to characterize the neural network underlying language development in infants, how this neural network scaffolds long-term language and reading acquisition remains unknown. We addressed this question in a 7-year longitudinal study from infancy to school-age. Seventy-six infants completed resting-state fMRI scanning, and underwent standardized language assessments in kindergarten. Of this larger cohort, forty-one were further assessed on their emergent word reading abilities after receiving formal reading instructions. Hierarchical clustering analyses identified a modular infant language network in which functional connectivity (FC) of the inferior frontal module prospectively correlated with kindergarten-age phonological skills and emergent word reading abilities. These correlations were obtained when controlling for infant age at scan, nonverbal IQ and parental education. Furthermore, kindergarten-age phonological skills mediated the relationship between infant FC and school-age reading abilities, implying a critical mid-way milestone for long-term reading development from infancy. Overall, our findings illuminate the neurobiological mechanisms by which infant language capacities could scaffold long-term reading acquisition.

Published

2024

13. Sniffing out meaning: Chemosensory and semantic neural network changes in sommeliers.

Author

Carreiras, Manuel, Quiñones, Ileana, Chen, H. Alexander, Vázquez‐Araujo, Laura, Small, Dana, and Frost, Ram

Subjects

*SOMMELIERS, *WINE tasting, *DIFFUSION magnetic resonance imaging, *NEURAL circuitry, *SENSORIMOTOR integration

Abstract

Wine tasting is a very complex process that integrates a combination of sensation, language, and memory. Taste and smell provide perceptual information that, together with the semantic narrative that converts flavor into words, seem to be processed differently between sommeliers and naïve wine consumers. We investigate whether sommeliers' wine experience shapes only chemosensory processing, as has been previously demonstrated, or if it also modulates the way in which the taste and olfactory circuits interact with the semantic network. Combining diffusion‐weighted images and fMRI (activation and connectivity) we investigated whether brain response to tasting wine differs between sommeliers and nonexperts (1) in the sensory neural circuits representing flavor and/or (2) in the neural circuits for language and memory. We demonstrate that training in wine tasting shapes the microstructure of the left and right superior longitudinal fasciculus. Using mediation analysis, we showed that the experience modulates the relationship between fractional anisotropy and behavior: the higher the fractional anisotropy the higher the capacity to recognize wine complexity. In addition, we found functional differences between sommeliers and naïve consumers affecting the flavor sensory circuit, but also regions involved in semantic operations. The former reflects a capacity for differential sensory processing, while the latter reflects sommeliers' ability to attend to relevant sensory inputs and translate them into complex verbal descriptions. The enhanced synchronization between these apparently independent circuits suggests that sommeliers integrated these descriptions with previous semantic knowledge to optimize their capacity to distinguish between subtle differences in the qualitative character of the wine. [ABSTRACT FROM AUTHOR]

Published

2024

14. Large‐scale investigation of white matter structural differences in bilingual and monolingual children: An adolescent brain cognitive development data study.

Author

Ronderos, Juliana, Zuk, Jennifer, Hernandez, Arturo E., and Vaughn, Kelly A.

Subjects

*BILINGUALISM, *WHITE matter (Nerve tissue), *COGNITIVE development, *NEURAL development, *CONTROL (Psychology), *COGNITIVE ability

Abstract

Emerging research has provided valuable insights into the structural characteristics of the bilingual brain from studies of bilingual adults; however, there is a dearth of evidence examining brain structural alterations in childhood associated with the bilingual experience. This study examined the associations between bilingualism and white matter organization in bilingual children compared to monolingual peers leveraging the large‐scale data from the Adolescent Brain Cognitive Development (ABCD) Study. Then, 446 bilingual children (ages 9–10) were identified from the participants in the ABCD data and rigorously matched to a group of 446 monolingual peers. Multiple regression models for selected language and cognitive control white matter pathways were used to compare white matter fractional anisotropy (FA) values between bilinguals and monolinguals, controlling for demographic and environmental factors as covariates in the models. Results revealed significantly lower FA values in bilinguals compared to monolinguals across established dorsal and ventral language network pathways bilaterally (i.e., the superior longitudinal fasciculus and inferior frontal‐occipital fasciculus) and right‐hemispheric pathways in areas related to cognitive control and short‐term memory (i.e., cingulum and parahippocampal cingulum). In contrast to the enhanced FA values observed in adult bilinguals relative to monolinguals, our findings of lower FA in bilingual children relative to monolinguals may suggest a protracted development of white matter pathways associated with language and cognitive control resulting from dual language learning in childhood. Further, these findings underscore the need for large‐scale longitudinal investigation of white matter development in bilingual children to understand neuroplasticity associated with the bilingual experience during this period of heightened language learning. [ABSTRACT FROM AUTHOR]

Published

2024

15. Corticocortical Evoked Potentials in Eloquent Brain Tumor Surgery. A Systematic Review.

Author

Bonosi, Lapo, Torrente, Angelo, Brighina, Filippo, Tito Petralia, Cateno Concetto, Merlino, Pietro, Avallone, Chiara, Gulino, Vincenzo, Costanzo, Roberta, Brunasso, Lara, Iacopino, Domenico Gerardo, and Maugeri, Rosario

Subjects

*BRAIN tumors, *BRAIN surgery, *INTRAOPERATIVE monitoring, *SENSORY perception, *FUNCTIONAL connectivity, TUMOR surgery

Abstract

Eloquent brain tumor surgery involves the delicate task of resecting tumors located in regions of the brain responsible for critical functions, such as language, motor control, and sensory perception. Preserving these functions is of paramount importance to maintain the patient's quality of life. Corticocortical evoked potentials (CCEPs) have emerged as a valuable intraoperative monitoring technique that aids in identifying and preserving eloquent cortical areas during surgery. This systematic review aimed to assess the utility of CCEPs in eloquent brain tumor surgery and determine their effectiveness in improving patient outcomes. A comprehensive literature search was conducted using electronic databases, including PubMed/Medline and Scopus. The search strategy identified 11 relevant articles for detailed analysis. The findings of the included studies consistently demonstrated the potential of CCEPs in guiding surgical decision making, minimizing the risk of postoperative neurological deficits, and mapping functional connectivity during surgery. However, further research and standardization are needed to fully establish the clinical benefits and refine the implementation of CCEPs in routine neurosurgical practice. [ABSTRACT FROM AUTHOR]

Published

2024

16. Semantic‐specific and domain‐general mechanisms for integration and update of contextual information.

Author

Branzi, Francesca M. and Lambon Ralph, Matthew A.

Subjects

*PARIETAL lobe, *PREFRONTAL cortex, *NEUROLINGUISTICS, *TEMPORAL lobe, *FUNCTIONAL connectivity, *FUNCTIONAL analysis

Abstract

Recent research has highlighted the importance of domain‐general processes and brain regions for language and semantic cognition. Yet, this has been mainly observed in executively demanding tasks, leaving open the question of the contribution of domain‐general processes to natural language and semantic cognition. Using fMRI, we investigated whether neural processes reflecting context integration and context update—two key aspects of naturalistic language and semantic processing—are domain‐specific versus domain‐general. Thus, we compared neural responses during the integration of contextual information across semantic and non‐semantic tasks. Whole‐brain results revealed both shared (left posterior‐dorsal inferior frontal gyrus, left posterior inferior temporal gyrus, and left dorsal angular gyrus/intraparietal sulcus) and distinct (left anterior‐ventral inferior frontal gyrus, left anterior ventral angular gyrus, left posterior middle temporal gyrus for semantic control only) regions involved in context integration and update. Furthermore, data‐driven functional connectivity analysis clustered domain‐specific versus domain‐general brain regions into distinct but interacting functional neural networks. These results provide a first characterisation of the neural processes required for context‐dependent integration during language processing along the domain‐specificity dimension, and at the same time, they bring new insights into the role of left posterior lateral temporal cortex and left angular gyrus for semantic cognition. [ABSTRACT FROM AUTHOR]

Published

2023

17. Causal evidence for a coordinated temporal interplay within the language network.

Author

Schroën, Joëlle A. M., Gunter, Thomas C., Numssen, Ole, Kroczek, Leon O. H., Hartwigsen, Gesa, and Friederici, Angela D.

Subjects

*TEMPORAL lobe, *LARGE-scale brain networks, *PREFRONTAL cortex, *TRANSCRANIAL magnetic stimulation, *PARIETAL lobe, *LANGUAGE & languages

Abstract

Recent neurobiological models on language suggest that auditory sentence comprehension is supported by a coordinated temporal interplay within a left-dominant brain network, including the posterior inferior frontal gyrus (pIFG), posterior superior temporal gyrus and sulcus (pSTG/STS), and angular gyrus (AG). Here, we probed the timing and causal relevance of the interplay between these regions by means of concurrent transcranial magnetic stimulation and electroencephalography (TMSEEG). Our TMS-EEG experiments reveal region- and time-specific causal evidence for a bidirectional information flow from left pSTG/STS to left pIFG and back during auditory sentence processing. Adapting a condition-and-perturb approach, our findings further suggest that the left pSTG/STS can be supported by the left AG in a statedependent manner. [ABSTRACT FROM AUTHOR]

Published

2023

18. The Domain-General Multiple Demand (MD) Network Does Not Support Core Aspects of Language Comprehension: A Large-Scale fMRI Investigation.

Author

Diachek, Evgeniia, Blank, Idan, Siegelman, Matthew, Affourtit, Josef, and Fedorenko, Evelina

Subjects

domain-general network, fMRI, language network, Adolescent, Adult, Aged, Brain, Brain Mapping, Comprehension, Executive Function, Female, Humans, Language, Magnetic Resonance Imaging, Male, Middle Aged, Nerve Net, Photic Stimulation, Young Adult

Abstract

Aside from the language-selective left-lateralized frontotemporal network, language comprehension sometimes recruits a domain-general bilateral frontoparietal network implicated in executive functions: the multiple demand (MD) network. However, the nature of the MD networks contributions to language comprehension remains debated. To illuminate the role of this network in language processing in humans, we conducted a large-scale fMRI investigation using data from 30 diverse word and sentence comprehension experiments (481 unique participants [female and male], 678 scanning sessions). In line with prior findings, the MD network was active during many language tasks. Moreover, similar to the language-selective network, which is robustly lateralized to the left hemisphere, these responses were stronger in the left-hemisphere MD regions. However, in contrast with the language-selective network, the MD network responded more strongly (1) to lists of unconnected words than to sentences, and (2) in paradigms with an explicit task compared with passive comprehension paradigms. Indeed, many passive comprehension tasks failed to elicit a response above the fixation baseline in the MD network, in contrast to strong responses in the language-selective network. Together, these results argue against a role for the MD network in core aspects of sentence comprehension, such as inhibiting irrelevant meanings or parses, keeping intermediate representations active in working memory, or predicting upcoming words or structures. These results align with recent evidence of relatively poor tracking of the linguistic signal by the MD regions during naturalistic comprehension, and instead suggest that the MD networks engagement during language processing reflects effort associated with extraneous task demands.SIGNIFICANCE STATEMENT Domain-general executive processes, such as working memory and cognitive control, have long been implicated in language comprehension, including in neuroimaging studies that have reported activation in domain-general multiple demand (MD) regions for linguistic manipulations. However, much prior evidence has come from paradigms where language interpretation is accompanied by extraneous tasks. Using a large fMRI dataset (30 experiments/481 participants/678 sessions), we demonstrate that MD regions are engaged during language comprehension in the presence of task demands, but not during passive reading/listening, conditions that strongly activate the frontotemporal language network. These results present a fundamental challenge to proposals whereby linguistic computations, such as inhibiting irrelevant meanings, keeping representations active in working memory, or predicting upcoming elements, draw on domain-general executive resources.

Published

2020

19. Altered functional brain networks in problematic smartphone and social media use: resting-state fMRI study

Author

Áfra, Eszter, Janszky, József, Perlaki, Gábor, Orsi, Gergely, Nagy, Szilvia Anett, Arató, Ákos, Szente, Anna, Alhour, Husamalddin Ali Mohammad, Kis-Jakab, Gréta, and Darnai, Gergely

Published

2024

20. Grey Matter Reshaping of Language-Related Regions Depends on Tumor Lateralization.

Author

Manso-Ortega, Lucía, De Frutos-Sagastuy, Laura, Gisbert-Muñoz, Sandra, Salamon, Noriko, Qiao, Joe, Walshaw, Patricia, Quiñones, Ileana, and Połczyńska, Monika M.

Subjects

*CEREBRAL hemispheres, *GRAY matter (Nerve tissue), *PHONOLOGICAL awareness, *ANALYSIS of variance, *AGE distribution, *NERVOUS system, *MAGNETIC resonance imaging, *NEUROPLASTICITY, *BRAIN mapping, *DIAGNOSTIC imaging, *COMPARATIVE studies, *SEX distribution, *REPEATED measures design, *DESCRIPTIVE statistics, *RESEARCH funding, *LONGITUDINAL method, *LANGUAGE disorders, BRAIN tumor diagnosis

Abstract

Simple Summary: Brain tumors have a profound impact on the structural organization of the brain, particularly when located near language-related regions, resulting in impaired language processing. To investigate this phenomenon, we studied high-resolution MRI scans of patients with brain tumors in the left (dominant for language) and right (nondominant for language) hemispheres and compared them to controls. Specifically, we examined the grey matter volume in 10 language-related regions. Our findings demonstrate that brain tumors, regardless of their lateralization induce global volumetric changes in both the affected and contralesional hemispheres. These changes are influenced by the tumor's lateralization and suggest that the brain undergoes structural reshaping to cope with the language deficits caused by the tumors. This study sheds light on the intricate relationship between brain tumors and language processing and contributes to the understanding of the mechanisms underlying neuroplasticity subsequent to lesion occurrence. A brain tumor in the left hemisphere can decrease language laterality as assessed through fMRI. However, it remains unclear whether or not this decreased language laterality is associated with a structural reshaping of the grey matter, particularly within the language network. Here, we examine if the disruption of the language hubs exclusively affects the macrostructural properties of the contralateral homologues or whether it affects both hemispheres. This study uses voxel-based morphometry applied to high-resolution MR T1-weighted MPRAGE images from 31 adult patients' left hemisphere, which is dominant for language. Eighteen patients had brain tumors in the left hemisphere, and thirteen had tumors in the right hemisphere. A cohort of 71 healthy individuals matched with respect to age and sex was used as a baseline. We defined 10 ROIs per hemisphere involved in language function. Two separate repeated-measure ANOVAs were conducted with the volume per region as the dependent variable. For the patients, tumor lateralization (right versus left) served as a between-subject factor. The current study demonstrated that the presence of a brain tumor generates global volumetric changes affecting the left language regions and their contralateral homologues. These changes are mediated by the lateralization of the lesion. Our findings suggest that functional mechanisms are supported by the rearrangement of the grey matter. [ABSTRACT FROM AUTHOR]

Published

2023

21. SORL1 rs1699102 Moderates the Effect of Sex on Language Network.

Author

Fan, Jialing, Zhu, Zhibao, Chen, Yaojing, Yang, Caishui, Li, Xin, Chen, Kewei, Chen, Xiaochun, and Zhang, Zhanjun

Subjects

*DISEASE risk factors, *FRONTAL lobe, *MAGNETIC resonance imaging, *FUNCTIONAL magnetic resonance imaging, *LANGUAGE ability

Abstract

Background: Language ability differs between the sexes. However, it is unclear how this sex difference is moderated by genetic factors and how the brain interacts with genetics to support this specific language capacity. Previous studies have demonstrated that the sorting protein-related receptor (SORL1) polymorphism influences cognitive function and brain structure differently in males and females and is associated with Alzheimer's disease risk. Objective: The aim of this study was to investigate the effects of sex and the SORL1 rs1699102 (CC versus T carriers) genotype on language. Methods: 103 non-demented Chinese older adults from Beijing Aging Brain Rejuvenation Initiative (BABRI) database were included in this study. Participants completed language tests, T1-weighted structural magnetic resonance imaging (MRI) and resting-state functional MRI. Language test performance, gray matter volume, and network connections were compared between genotype and sex groups. Results: The rs1699102 polymorphism moderated the effects of sex on language performance, with the female having reversed language advantages in T carriers. The T allele carriers had lower gray matter volume in the left precentral gyrus. The effect of sex on language network connections was moderated by rs1699102; male CC homozygotes and female T carriers had higher internetwork connections, which were negatively correlated with language performance. Conclusion: These results suggest that SORL1 moderates the effects of sex on language, with T being a risk allele, especially in females. Our findings underscore the importance of considering the influence of genetic factors when examining sex effects. [ABSTRACT FROM AUTHOR]

Published

2023

22. Language Network Connectivity of Euthymic Bipolar Patients Is Altered at Rest and during a Verbal Fluency Task.

Author

Romeo, Zaira, Marino, Marco, Mantini, Dante, Angrilli, Alessandro, and Spironelli, Chiara

Subjects

CEREBRAL dominance, INDEPENDENT component analysis, BIPOLAR disorder, PSYCHOSES, BIOMARKERS

Abstract

Abnormalities of the Language Network (LN) have been found in different psychiatric conditions (e.g., schizophrenia and bipolar disorder), supporting the hypothesis that language plays a central role in a high-level integration/connectivity of second-level cognitive processes and the underlying cortical regions. This view implies a continuum of shared neural alterations along the psychotic disorder spectrum. In particular, bipolar disorder (BD) patients were recently documented to have an altered LN asymmetry during resting state. The extent to which the LN architecture is altered and stable also during a language task has yet to be investigated. To address this question, we analyzed fMRI data recorded during an open-eyes resting state session and a silent verbal fluency task in 16 euthymic BD patients and 16 matched healthy controls (HC). Functional connectivity in the LN of both groups was computed using spatial independent component analysis, and group comparisons were carried out to assess the network organization during both rest and active linguistic task conditions. The LN of BD patients involved left and right brain areas during both resting state and linguistic task. Compared to the left-lateralized network found in HC, the BD group was characterized by two anterior clusters (in left frontal and right temporo-insular regions) and the disengagement of the posterior language areas, especially during the verbal fluency task. Our findings support the hypothesis that reduced language lateralization may represent a biological marker across different psychotic disorders and that the altered language network connectivity found at rest in bipolar patients is stable and pervasive as it is also impaired during a verbal fluency task. [ABSTRACT FROM AUTHOR]

Published

2023

23. Presurgical Resting-State fMRI

Author

Shimony, Joshua S., Lee, John J., Seitzman, Benjamin A., Luckett, Patrick, Leuthardt, Eric C., Kauczor, Hans-Ulrich, Series Editor, Parizel, Paul M., Series Editor, Peh, Wilfred C. G., Series Editor, Brady, Luther W., Honorary Editor, Lu, Jiade J., Series Editor, and Stippich, Christoph, editor

Published

2022

24. fMRI-Targeted High-Angular Resolution Diffusion MR Tractography to Identify Functional Language Tracts in Healthy Controls and Glioma Patients

Author

Sanvito, Francesco, Caverzasi, Eduardo, Riva, Marco, Jordan, Kesshi M, Blasi, Valeria, Scifo, Paola, Iadanza, Antonella, Crespi, Sofia Allegra, Cirillo, Sara, Casarotti, Alessandra, Leonetti, Antonella, Puglisi, Guglielmo, Grimaldi, Marco, Bello, Lorenzo, Gorno-Tempini, Maria Luisa, Henry, Roland G, Falini, Andrea, and Castellano, Antonella

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Psychology, Clinical Research, Brain Disorders, Brain Cancer, Rare Diseases, Cancer, Neurosciences, Biomedical Imaging, Neurological, tractography, high angular resolution diffusion imaging, brain tumor, fMRI, task-fMRI, language network, presurgical brain mapping, Cognitive Sciences, Biological psychology

Abstract

BackgroundMR Tractography enables non-invasive preoperative depiction of language subcortical tracts, which is crucial for the presurgical work-up of brain tumors; however, it cannot evaluate the exact function of the fibers.PurposeA systematic pipeline was developed to combine tractography reconstruction of language fiber bundles, based on anatomical landmarks (Anatomical-T), with language fMRI cortical activations. A fMRI-targeted Tractography (fMRI-T) was thus obtained, depicting the subsets of the anatomical tracts whose endpoints are located inside a fMRI activation. We hypothesized that fMRI-T could provide additional functional information regarding the subcortical structures, better reflecting the eloquent white matter structures identified intraoperatively.MethodsBoth Anatomical-T and fMRI-T of language fiber tracts were performed on 16 controls and preoperatively on 16 patients with left-hemisphere brain tumors, using a q-ball residual bootstrap algorithm based on High Angular Resolution Diffusion Imaging (HARDI) datasets (b = 3000 s/mm2; 60 directions); fMRI ROIs were obtained using picture naming, verbal fluency, and auditory verb generation tasks. In healthy controls, normalized MNI atlases of fMRI-T and Anatomical-T were obtained. In patients, the surgical resection of the tumor was pursued by identifying eloquent structures with intraoperative direct electrical stimulation mapping and extending surgery to the functional boundaries. Post-surgical MRI allowed to identify Anatomical-T and fMRI-T non-eloquent portions removed during the procedure.ResultsMNI Atlases showed that fMRI-T is a subset of Anatomical-T, and that different task-specific fMRI-T involve both shared subsets and task-specific subsets - e.g., verbal fluency fMRI-T strongly involves dorsal frontal tracts, consistently with the phonogical-articulatory features of this task. A quantitative analysis in patients revealed that Anatomical-T removed portions of AF-SLF and IFOF were significantly greater than verbal fluency fMRI-T ones, suggesting that fMRI-T is a more specific approach. In addition, qualitative analyses showed that fMRI-T AF-SLF and IFOF predict the exact functional limits of resection with increased specificity when compared to Anatomical-T counterparts, especially the superior frontal portion of IFOF, in a subcohort of patients.ConclusionThese results suggest that performing fMRI-T in addition to the 'classic' Anatomical-T may be useful in a preoperative setting to identify the 'high-risk subsets' that should be spared during the surgical procedure.

Published

2020

25. Occupation-modulated language networks and its lateralization: A resting-state fMRI study of seafarers.

Author

Huijun Wu, Deyuan Peng, Hongjie Yan, Yang Yang, Min Xu, Weiming Zeng, Chunqi Chang, and Nizhuan Wang

Subjects

PREFRONTAL cortex, FRONTAL lobe, FUNCTIONAL magnetic resonance imaging

Abstract

Introduction: Studies have revealed that the language network of Broca’s area and Wernicke’s area is modulated by factors such as disease, gender, aging, and handedness. However, how occupational factors modulate the language network remains unclear. Methods: In this study, taking professional seafarers as an example, we explored the resting-state functional connectivity (RSFC) of the language network with seeds (the original and flipped Broca’s area and Wernicke’s area). Results: The results showed seafarers had weakened RSFC of Broca’s area with the left superior/middle frontal gyrus and left precentral gyrus, and enhanced RSFC of Wernicke’s area with the cingulate and precuneus. Further, seafarers had a less right-lateralized RSFC with Broca’s area in the left inferior frontal gyrus, while the controls showed a left-lateralized RSFC pattern in Broca’s area and a right-lateralized one in Wernicke’s area. Moreover, seafarers displayed stronger RSFC with the left seeds of Broca’s area and Wernicke’s area. Discussion: These findings suggest that years of working experience significantly modulates the RSFC of language networks and their lateralization, providing rich insights into language networks and occupational neuroplasticity. [ABSTRACT FROM AUTHOR]

Published

2023

26. N-gram Based Croatian Language Network: Application in a Smart Environment

Author

Renato Šoić and Marin Vuković

Subjects

n-grams, language network, natural language processing, smart environment, Computer software, QA76.75-76.765

Abstract

In the field of natural language processing, language networks represent a method for observing linguistic units and their interactions in different linguistic contexts. This paper uses the previously presented Croatian language network for building a solution capable of generating spoken notifications in Croatian language. The novelty of this paper is that it proposes an approach for generating spoken notifications in smart environments by combining specialized services that enable interaction with the environment and human users. The process employed for generating spoken notifications is described in detail. Also, a novel contribution of this paper is the case-study evaluation of the proposed approach in a smart home environment.

Published

2022

27. Cortical gradients during naturalistic processing are hierarchical and modality-specific

Author

Ahmad Samara, Jeffrey Eilbott, Daniel S. Margulies, Ting Xu, and Tamara Vanderwal

Subjects

Movie-fMRI, Naturalistic, Gradients, Diffusion embedding, Language network, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Understanding cortical topographic organization and how it supports complex perceptual and cognitive processes is a fundamental question in neuroscience. Previous work has characterized functional gradients that demonstrate large-scale principles of cortical organization. How these gradients are modulated by rich ecological stimuli remains unknown. Here, we utilize naturalistic stimuli via movie-fMRI to assess macroscale functional organization. We identify principal movie gradients that delineate separate hierarchies anchored in sensorimotor, visual, and auditory/language areas. At the opposite/heteromodal end of these perception-to-cognition axes, we find a more central role for the frontoparietal network along with the default network. Even across different movie stimuli, movie gradients demonstrated good reliability, suggesting that these hierarchies reflect a brain state common across different naturalistic conditions. The relative position of brain areas within movie gradients showed stronger and more numerous correlations with cognitive behavioral scores compared to resting state gradients. Together, these findings provide an ecologically valid representation of the principles underlying cortical organization while the brain is active and engaged in multimodal, dynamic perceptual and cognitive processing.

Published

2023

28. Decreasing distance from tumor to the language network causes language deficit.

Author

Fang, Shengyu, Weng, Shimeng, Li, Lianwang, Guo, Yuhao, Zhang, Zhong, Fan, Xing, Jiang, Tao, and Wang, Yinyan

Subjects

*FUNCTIONAL magnetic resonance imaging, *ONE-way analysis of variance, *SPECIFIC language impairment in children

Abstract

Preoperative language deficits are associated with alterations in the language networks of patients with gliomas. This study investigated how gliomas affect language performance by altering the language network. Ninety patients with lower‐grade gliomas were included, and their preoperative language performance was evaluated using the Western Aphasia Battery. We also calculated the topological properties based on resting state functional magnetic resonance imaging. All patients were classified according to aphasia quotient (AQ) into the aphasia (AQ < 93.8), mild anomia (AQ > 93.8 and naming section <9.8), and normal groups (AQ > 93.8). The shortest distance from the tumor to the language network (SDTN) was evaluated to identify the effect on language performance induced by the tumor. One‐way analysis of variance and post hoc analysis with Sidak correction were used to analyze the differences in topological properties among the three groups. Causal mediation analysis was used to identify indirectly affected mediators. Compared with the mild anomia group, longer shortest path length (p =.0016), lower vulnerability (p =.0331), and weaker nodal efficiencies of three nodes (right caudal Brodmann area [BA] 45, right caudal BA 22, and left BA 41/42, all p <.05) were observed in the aphasia group. The SDTN mediated nodal degree centrality and nodal vulnerability (left rostroventral BA 39), which negatively affected the AQs. Conventional language eloquent and mirrored areas participated in the language network alterations induced by gliomas. The SDTN was a mediator that affected the preoperative language status in patients with gliomas. [ABSTRACT FROM AUTHOR]

Published

2023

29. Altered Language-Related Effective Connectivity in Patients with Benign Childhood Epilepsy with Centrotemporal Spikes.

Author

Yang, Fei, Tan, Juan, Huang, Yue, Xiao, Ruhui, Wang, Xiaoming, and Han, Yanbing

Subjects

*CHILDHOOD epilepsy, *FUNCTIONAL magnetic resonance imaging, *CINGULATE cortex

Abstract

Benign childhood epilepsy with centrotemporal spikes (BECTS) is one of the most common childhood epilepsy syndromes and may be associated with language deficits. Resting-state functional magnetic resonance imaging (fMRI) data were collected from a total of 78 children: 52 patients with BECTS (28 drug-naïve and 24 medicated) and 26 healthy controls (HC). Granger causality analysis (GCA) was used to investigate alterations in effective connectivity (EC) between the language network core node (Broca's area) and the whole brain. EC from Broca's area to the left Heschl's gyrus (HG), right putamen, and anterior cingulate cortex (ACC) was significantly increased, while EC from the bilateral putamen and left ACC to Broca's area was significantly decreased in BECTS. Moreover, altered EC of Broca's area to the right putamen was significantly positively correlated with verbal IQ (VIQ), while altered EC of Broca's area to the ACC showed significantly negative correlations with the frequency of seizures. Altered EC from the left putamen to Broca's area was also significantly negatively correlated with performance IQ (PIQ) and full-scale IQ (FSIQ) in the drug-naïve group. In addition, there was a significant positive correlation between the EC of Broca's area to the left HG and the number of seizures, as well as between the EC of Broca's area to the right putamen and the age at onset in the medicated group. These findings suggest abnormal causal effects on the language network related to Broca's area in children with BECTS. Longitudinal investigation of language network development and further follow-up may be needed to illuminate the changes in organization and rebalancing over time. [ABSTRACT FROM AUTHOR]

Published

2023

30. The atypical functional connectivity of Broca's area at multiple frequency bands in autism spectrum disorder.

Author

Cheng, Lulu, Zhan, Linlin, Huang, Lina, Zhang, Hongqiang, Sun, Jiawei, Huang, Guofeng, Wang, Yadan, Li, Mengting, Li, Huayun, Gao, Yanyan, and Jia, Xize

Abstract

As a developmental disorder, autism spectrum disorder (ASD) has drawn much attention due to its severe impacts on one's language capacity. Broca's area, an important brain region of the language network, is largely involved in language-related functions. Using the Autism Brain Image Data Exchange (ABIDE) dataset, a mega-analysis was performed involving a total of 1454 participants (including 618 individuals with ASD and 836 healthy controls (HCs). To detect the neural pathophysiological mechanism of ASD from the perspective of language, we conducted a functional connectivity (FC) analysis with Broca's area as the seed in multiple frequency bands (conventional: 0.01–0.08 Hz; slow-4: 0.027–0.073 Hz; slow-5: 0.01–0.027 Hz). We found that compared with HC, ASD patients demonstrated increased FC in the left thalamus, left precuneus, left anterior cingulate and paracingulate gyri, and left medial orbital of the superior frontal gyrus in the conventional frequency band (0.01–0.08 Hz). The results of the slow-5 frequency band (0.01–0.027 Hz) presented increased FC values of the left precuneus, left medial orbital of the superior frontal gyrus, right medial orbital of the superior frontal gyrus and right thalamus. No significant cluster was detected in the slow-4 frequency band (0.027–0.073 Hz). In conclusion, the abnormal functional connectivity in patients with ASD has frequency-specific properties. Furthermore, the slow-5 frequency band (0.01–0.027 Hz) mainly contributed to the findings of the conventional frequency band (0.01–0.08 Hz). The current study might shed new light on the neural pathophysiological mechanism of language impairments in people with ASD. [ABSTRACT FROM AUTHOR]

Published

2022

31. Fronto-Parietal and Language Network Connectivity and Its Association With Gene Expression Profiles in Bipolar Disorder Before and After Treatment.

Author

Zhang L, Yan H, Zhang C, Li X, Liang J, Tang C, Wu W, Deng W, Xie G, and Guo W

Subjects

Humans, Female, Male, Adult, Language, Middle Aged, Neural Pathways diagnostic imaging, Neural Pathways physiopathology, Transcriptome, Young Adult, Gene Expression Profiling, Bipolar Disorder genetics, Bipolar Disorder diagnostic imaging, Parietal Lobe diagnostic imaging, Parietal Lobe metabolism, Magnetic Resonance Imaging, Frontal Lobe diagnostic imaging, Frontal Lobe metabolism

Abstract

Background: The resting-state functional connectivity (FC) patterns of the fronto-parietal network (FPN) and language network (LN) underlying bipolar disorder (BD) are obscure. This study aimed to uncover abnormal FC patterns of FPN and LN underlying BD and their evolution following treatment., Methods: Imaging data at rest state and clinical variables were acquired from 82 patients with BD (with 43 finishing the follow-up) and 88 healthy controls (HCs). Seed-based FC analysis was performed, and correlations between FCs and clinical variables were investigated with whole-brain multiple regression analyses. Furthermore, a neuroimaging-transcription spatial association analysis was conducted., Results: At baseline, BD patients presented elevated FPN-LN and FPN-prefrontal gyrus FCs, and hyperconnectivity between the LN and bilateral thalamus, right angular gyrus (AG), and right cerebellum. Following 3 months of treatment intervention, there were decreased FCs between the FPN and left superior temporal gyrus (STG), left superior frontal gyrus (SFG), left insula, and bilateral middle temporal gyrus (MTG) (part of LN). Neuroimaging transcription analysis discovered genes correlated with FC alterations in BD., Conclusions: Aberrant FC patterns of FPN and LN might be involved in the neural pathogenetic and therapeutic mechanisms of BD. We also provided potential genetic pathways underlying these functional impairments in BD., (© 2025 The Author(s). CNS Neuroscience & Therapeutics published by John Wiley & Sons Ltd.)

Published

2025

32. Dynamic reorganization of task-related network interactions in post-stroke aphasia recovery.

Author

Jiang Z, Kuhnke P, Stockert A, Wawrzyniak M, Halai A, Saur D, and Hartwigsen G

Abstract

Post-stroke aphasia is a network disorder characterized by language impairments and aberrant network activation. While patients with post-stroke aphasia recover over time, the dynamics of the underlying changes in the brain remain elusive. Neuroimaging work demonstrated that language recovery is a heterogeneous process, characterized by varying activation levels in several regions of the left-hemispheric language network and the domain-general bilateral multiple-demand network. Crucially, this activation seems to depend on the time elapsed since stroke and the lesion location. Yet, beyond task-related brain activation, the degree and nature of interactions between regions of the language and the multiple-demand network are not well understood. In this longitudinal functional neuroimaging study, we characterized task-related functional interactions between regions of the language and the multiple-demand network during language processing. We hypothesized that interactions between language regions and between language and multiple-demand regions should change over time and depend on lesion location. We compared changes in effective connectivity in patients with left-hemispheric frontal or temporo-parietal stroke (n=17 per group) and healthy controls (n=17) with Dynamic Causal Modelling. All patients repeatedly underwent an auditory sentence comprehension paradigm during functional neuroimaging in the acute (≤ 1 week), subacute (1-2 weeks), and chronic (> 6 months) phases after stroke. We found overall increased task-related connectivity from regions of the multiple-demand to the language network across patients, resembling the principal pattern of task-related interactions in controls. Early facilitation from multiple-demand to language regions correlated with later language improvement across both groups. Crucially, recruitment of specific connections from regions of the multiple-demand to language network depended on lesion location and changed over time. In the chronic phase, patients with frontal stroke showed facilitatory modulation from the right dorsolateral prefrontal cortex, while patients with temporo-parietal stroke integrated the supplementary motor area/dorsal anterior cingulate cortex. Besides this across-network reorganization, facilitatory connectivity between regions of the language network emerged in all patients in the subacute phase. Additionally, patients with frontal stroke showed facilitatory influences from the right lesion homologue to the remaining undamaged left inferior frontal cortex in the acute phase. Collectively, we provide first evidence that functional interactions of regions within and across the language and the multiple-demand network facilitate aphasia recovery. The identified dynamic reorganization principles over the time course of recovery may inform the future use of personalized treatment protocols with neurostimulation in aphasia rehabilitation. These protocols should be tailored to the individual lesion location and recovery phase., (© The Author(s) 2025. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2025

33. Overt speech critically changes lateralization index and did not allow determination of hemispheric dominance for language: an fMRI study

Author

David Hassanein Berro, Jean-Michel Lemée, Louis-Marie Leiber, Evelyne Emery, Philippe Menei, and Aram Ter Minassian

Subjects

fMRI, Overt, Functional laterality, Language network, Cingulo-opercular network, Ventral attention network, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Abstract Background Pre-surgical mapping of language using functional MRI aimed principally to determine the dominant hemisphere. This mapping is currently performed using covert linguistic task in way to avoid motion artefacts potentially biasing the results. However, overt task is closer to natural speaking, allows a control on the performance of the task, and may be easier to perform for stressed patients and children. However, overt task, by activating phonological areas on both hemispheres and areas involved in pitch prosody control in the non-dominant hemisphere, is expected to modify the determination of the dominant hemisphere by the calculation of the lateralization index (LI). Objective Here, we analyzed the modifications in the LI and the interactions between cognitive networks during covert and overt speech task. Methods Thirty-three volunteers participated in this study, all but four were right-handed. They performed three functional sessions consisting of (1) covert and (2) overt generation of a short sentence semantically linked with an audibly presented word, from which we estimated the “Covert” and “Overt” contrasts, and a (3) resting-state session. The resting-state session was submitted to spatial independent component analysis to identify language network at rest (LANG), cingulo-opercular network (CO), and ventral attention network (VAN). The LI was calculated using the bootstrapping method. Results The LI of the LANG was the most left-lateralized (0.66 ± 0.38). The LI shifted from a moderate leftward lateralization for the Covert contrast (0.32 ± 0.38) to a right lateralization for the Overt contrast (− 0.13 ± 0.30). The LI significantly differed from each other. This rightward shift was due to the recruitment of right hemispheric temporal areas together with the nodes of the CO. Conclusion Analyzing the overt speech by fMRI allowed improvement in the physiological knowledge regarding the coordinated activity of the intrinsic connectivity networks. However, the rightward shift of the LI in this condition did not provide the basic information on the hemispheric language dominance. Overt linguistic task cannot be recommended for clinical purpose when determining hemispheric dominance for language.

Published

2021

34. Altered activity in functional brain networks involved in lexical decision making in bipolar disorder: An fMRI case-control study.

Author

Kusi, Mavis, Wong, Samantha Tze Sum, Percival, Chantal M., Zurrin, Riley, Roes, Meighen M., Woodward, Todd S., and Goghari, Vina M.

Subjects

*LARGE-scale brain networks, *LINGUISTIC analysis, *DEFAULT mode network, *BIPOLAR disorder, *FUNCTIONAL magnetic resonance imaging, *CASE-control method, *BRAIN, *MAGNETIC resonance imaging, *BRAIN mapping, *MULTIDIMENSIONAL Health Locus of Control scales, *DECISION making, *RESEARCH funding

Abstract

Background: Brain networks involved in language, attentional and response processes are detectable by fMRI during lexical decision (LD). Here, we investigated possible abnormalities in the functional networks involved in LD in patients with bipolar disorder (BD).Methods: fMRI and behavioural data were compared between BD (n = 25) and control (n = 21), with groups matched for age and sex. The functional brain networks involved in LD were extracted by manipulating the "word-likeness" of LD stimuli and using a multidimensional analysis method.Results: Attentional, response and language processes were captured in separate function-specific brain networks (default mode network, response network, linguistic processing network, respectively) in the BD and control groups, replicating the results of our previous study in an independent group of healthy adults. Behaviourally, the BD group showed higher performance than the control group in the LD task. Activity in the default mode network (DMN) and the linguistic processing network (LPN) did not differ between the groups, but the BD group had higher activation than the control group in the response network (RESP).Limitations: Due to the small sample, the study is underpowered, capable of only detecting large effects.Conclusions: The results suggest that BD may be associated with sustained activity in the RESP network, which might contribute to psychomotor dysfunction in BD. Future studies should investigate the possible link between altered RESP activation and psychomotor disturbances in BD, as well as the basis for altered RESP activity in BD. [ABSTRACT FROM AUTHOR]

Published

2022

35. A precise language network revealed by the independent component-based lesion mapping in post-stroke aphasia.

Author

Weijing Ren, Chunying Jia, Ying Zhou, Jingdu Zhao, Bo Wang, Weiyong Yu, Shiyi Li, Yiru Hu, and Hao Zhang

Subjects

SPEECH apraxia, INDEPENDENT component analysis, APHASIA, LARGE-scale brain networks, FUNCTIONAL magnetic resonance imaging

Abstract

Brain lesion mapping studies have provided the strongest evidence regarding the neural basis of cognition. However, it remained a problem to identify symptom-specific brain networks accounting for observed clinical and neuroanatomical heterogeneity. Independent component analysis (ICA) is a statistical method that decomposes mixed signals into multiple independent components. We aimed to solve this issue by proposing an independent component-based lesion mapping (ICLM) method to identify the language network in patients with moderate to severe post-stroke aphasia. Lesions were first extracted from 49 patients with post-stroke aphasia as masks applied to fMRI data in a cohort of healthy participants to calculate the functional connectivity (FC) within the masks and non-mask brain voxels. ICA was further performed on a reformatted FC matrix to extract multiple independent networks. Specifically, we found that one of the lesion-related independent components (ICs) highly resembled classical language networks. Moreover, the damaged level within the language-related lesioned network is strongly associated with language deficits, including aphasia quotient, naming, and auditory comprehension scores. In comparison, none of the other two traditional lesion mapping methods found any regions responsible for language dysfunction. The language-related lesioned network extracted with the ICLM method showed high specificity in detecting aphasia symptoms compared with the performance of resting ICs and classical language networks. In total, we detected a precise language network in patients with aphasia and proved its efficiency in the relationship with language symptoms. In general, our ICLM could successfully identify multiple lesion-related networks from complicated brain diseases, and be used as an effective tool to study brain-behavior relationships and provide potential biomarkers of particular clinical behavioral deficits. [ABSTRACT FROM AUTHOR]

Published

2022

36. The functional connectivity of language network across the life span: Disentangling the effects of typical aging from Alzheimer's disease.

Author

Rafiq, Marie, Jucla, Mélanie, Guerrier, Laura, Péran, Patrice, Pariente, Jérémie, and Pistono, Aurélie

Subjects

BRAIN physiology, RESEARCH, ALZHEIMER'S disease, ACTIVE aging, COGNITION, COMPARATIVE studies, AGING, STATISTICAL correlation, SYMPTOMS

Abstract

Language is usually characterized as the most preserved cognitive function during typical aging. Several neuroimaging studies have shown that healthy aging is characterized by inter-network compensation which correlates with better language performance. On the contrary, language deficits occur early in the course of Alzheimer's disease (AD). Therefore, this study compares young participants, healthy older participants, and prodromal AD participants, to characterize functional connectivity changes in language due to healthy aging or prodromal AD. We first compared measures of integrated local correlations (ILCs) and fractional amplitude of low-frequency oscillations (fALFFs) in language areas. We showed that both groups of older adults had lower connectivity values within frontal language-related areas. In the healthy older group, higher integrated local correlation (ILC) and fALFF values in frontal areas were positively correlated with fluency and naming tasks. We then performed seed-based analyses for more precise discrimination between healthy aging and prodromal AD. Healthy older adults showed no functional alterations at a seed-based level when the seed area was not or only slightly impaired compared to the young adults [i.e., inferior frontal gyrus (IFG)], while prodromal AD participants also showed decreased connectivity at a seedbased level. On the contrary, when the seed area was similarly impaired in healthy older adults and prodromal AD participants on ILC and fALFF measures, their connectivity maps were also similar during seed-to-voxel analyses [i.e., superior frontal gyrus (SFG)]. Current results show that functional connectivity measures at a voxel level (ILC and fALFF) are already impacted in healthy aging. These findings imply that the functional compensations observed in healthy aging depend on the functional integrity of brain areas at a voxel level. [ABSTRACT FROM AUTHOR]

Published

2022

37. Eects of a new speech support application on intensive speech therapy and changes in functional brain connectivity in patients with post-stroke aphasia.

Author

Yuta Katsuno, Yoshino Ueki, Keiichi Ito, Satona Murakami, Kiminori Aoyama, Naoya Oishi, Hirohito Kan, Noriyuki Matsukawa, Katashi Nagao, and Hiroshi Tatsumi

Subjects

SPEECH therapy, SPEECH, FUNCTIONAL connectivity, PHONETICS, APHASIC persons, LANGUAGE disorders

Abstract

Aphasia is a language disorder that occurs after a stroke and impairs listening, speaking, reading, writing, and calculation skills. Patients with post-stroke aphasia in Japan are increasing due to population aging and the advancement of medical treatment. Opportunities for adequate speech therapy in chronic stroke are limited due to time constraints. Recent studies have reported that intensive speech therapy for a short period of time or continuous speech therapy using high-tech equipment, including speech applications (apps, can improve aphasia even in the chronic stage. However, its underlying mechanism for improving language function and its eect on other cognitive functions remains unclear. In the present study, we investigated whether intensive speech therapy using a newly developed speech support app could improve aphasia and other cognitive functions in patients with chronic stroke. Furthermore, we examined whether it can alter the brain network related to language and other cortical areas. Thus, we conducted a prospective, single-comparison study to examine the eects of a new speech support app on language and cognitive functions and used resting state functional MRI (rs-fMRI) regions of interest (ROI) to ROI analysis to determine changes in the related brain network. Two patients with chronic stroke participated in this study. They used the independent speech therapy system to perform eight sets of 20 randomly presented words/time (taking approximately 20 min), for 8 consecutive weeks. Their language, higher cognitive functions including attention function, and rs-fMRI, were evaluated before and after the rehabilitation intervention using the speech support app. Both patients improved pronunciation, daily conversational situations, and attention. The rs-fMRI analysis showed increased functional connectivity of brain regions associated with language and attention related areas. Our results show that intensive speech therapy using this speech support app can improve language and attention functions even in the chronic stage of stroke, and may be a useful tool for patients with aphasia. In the future, we will conduct longitudinal studies with larger numbers of patients, which we hope will continue the trends seen in the current study, and provide even stronger evidence for the usefulness of this new speech support app. [ABSTRACT FROM AUTHOR]

Published

2022

38. The functional connectivity of language network across the life span: Disentangling the effects of typical aging from Alzheimer’s disease

Author

Marie Rafiq, Mélanie Jucla, Laura Guerrier, Patrice Péran, Jérémie Pariente, and Aurélie Pistono

Subjects

language, language network, functional connectivity, aging, Alzheimer’s disease, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Language is usually characterized as the most preserved cognitive function during typical aging. Several neuroimaging studies have shown that healthy aging is characterized by inter-network compensation which correlates with better language performance. On the contrary, language deficits occur early in the course of Alzheimer’s disease (AD). Therefore, this study compares young participants, healthy older participants, and prodromal AD participants, to characterize functional connectivity changes in language due to healthy aging or prodromal AD. We first compared measures of integrated local correlations (ILCs) and fractional amplitude of low-frequency oscillations (fALFFs) in language areas. We showed that both groups of older adults had lower connectivity values within frontal language-related areas. In the healthy older group, higher integrated local correlation (ILC) and fALFF values in frontal areas were positively correlated with fluency and naming tasks. We then performed seed-based analyses for more precise discrimination between healthy aging and prodromal AD. Healthy older adults showed no functional alterations at a seed-based level when the seed area was not or only slightly impaired compared to the young adults [i.e., inferior frontal gyrus (IFG)], while prodromal AD participants also showed decreased connectivity at a seed-based level. On the contrary, when the seed area was similarly impaired in healthy older adults and prodromal AD participants on ILC and fALFF measures, their connectivity maps were also similar during seed-to-voxel analyses [i.e., superior frontal gyrus (SFG)]. Current results show that functional connectivity measures at a voxel level (ILC and fALFF) are already impacted in healthy aging. These findings imply that the functional compensations observed in healthy aging depend on the functional integrity of brain areas at a voxel level.

Published

2022

39. Language Network Connectivity of Euthymic Bipolar Patients Is Altered at Rest and during a Verbal Fluency Task

Author

Zaira Romeo, Marco Marino, Dante Mantini, Alessandro Angrilli, and Chiara Spironelli

Subjects

resting state, fluency task, fMRI, brain connectivity, language network, bipolar disorder, Biology (General), QH301-705.5

Abstract

Abnormalities of the Language Network (LN) have been found in different psychiatric conditions (e.g., schizophrenia and bipolar disorder), supporting the hypothesis that language plays a central role in a high-level integration/connectivity of second-level cognitive processes and the underlying cortical regions. This view implies a continuum of shared neural alterations along the psychotic disorder spectrum. In particular, bipolar disorder (BD) patients were recently documented to have an altered LN asymmetry during resting state. The extent to which the LN architecture is altered and stable also during a language task has yet to be investigated. To address this question, we analyzed fMRI data recorded during an open-eyes resting state session and a silent verbal fluency task in 16 euthymic BD patients and 16 matched healthy controls (HC). Functional connectivity in the LN of both groups was computed using spatial independent component analysis, and group comparisons were carried out to assess the network organization during both rest and active linguistic task conditions. The LN of BD patients involved left and right brain areas during both resting state and linguistic task. Compared to the left-lateralized network found in HC, the BD group was characterized by two anterior clusters (in left frontal and right temporo-insular regions) and the disengagement of the posterior language areas, especially during the verbal fluency task. Our findings support the hypothesis that reduced language lateralization may represent a biological marker across different psychotic disorders and that the altered language network connectivity found at rest in bipolar patients is stable and pervasive as it is also impaired during a verbal fluency task.

Published

2023

40. Do Polyglots Have Exceptional Language Aptitudes?

Author

Zhisheng (Edward) Wen, Jing Yang, and Lili Han

Subjects

SECOND language acquisition, LANGUAGE & languages, MULTILINGUALISM, NATIVE language, COGNITIVE ability

Abstract

Recent years have witnessed a growing interest in case studies and surveys by researchers of second language acquisition (SLA) and cognitive (neuro-)science to probe into the group of exceptionally talented multilingual learners or polyglots who can understand and speak an impressive number of multiple foreign languages other than their own mother tongue. The current paper reviews these latest developments and elucidates the phenomenon of (hyper-)polyglottism by tracing and analyzing its definitions and synthesizing and highlighting the key findings of case studies and large-scale surveys. Specifically, we aim to illuminate the complex and intricate relationships between hyperpolyglots' exceptional multilingual talents and their individual differences in language aptitude and other cognitive abilities such as IQ, personality traits, motivational characteristics, and language genetic variations, as well as their brain mechanisms and neural networks. The present paper calls upon concerted efforts from multiple disciplines to determine the critical cognitive abilities and pivotal developmental stages underlying the exceptional performance of these multilingual talents and hyperpolyglots. [ABSTRACT FROM AUTHOR]

Published

2022

41. Evaluation of a Simple Clinical Language Paradigm With Respect to Sensory Independency, Functional Asymmetry, and Effective Connectivity.

Author

Rødland, Erik, Melleby, Kathrine Midgaard, and Specht, Karsten

Subjects

MOTOR cortex, FRONTAL lobe, INTRACLASS correlation, TEMPORAL lobe, PERCEPTION testing

Abstract

The present study replicates a known visual language paradigm, and extends it to a paradigm that is independent from the sensory modality of the stimuli and, hence, could be administered either visually or aurally, such that both patients with limited sight or hearing could be examined. The stimuli were simple sentences, but required the subject not only to understand the content of the sentence but also to formulate a response that had a semantic relation to the content of the presented sentence. Thereby, this paradigm does not only test perception of the stimuli, but also to some extend sentence and semantic processing, and covert speech production within one task. When the sensory base-line condition was subtracted, both the auditory and visual version of the paradigm demonstrated a broadly overlapping and asymmetric network, comprising distinct areas of the left posterior temporal lobe, left inferior frontal areas, left precentral gyrus, and supplementary motor area. The consistency of activations and their asymmetry was evaluated with a conjunction analysis, probability maps, and intraclass correlation coefficients (ICC). This underlying network was further analyzed with dynamic causal modeling (DCM) to explore whether not only the same brain areas were involved, but also the network structure and information flow were the same between the sensory modalities. In conclusion, the paradigm reliably activated the most central parts of the speech and language network with a great consistency across subjects, and independently of whether the stimuli were administered aurally or visually. However, there was individual variability in the degree of functional asymmetry between the two sensory conditions. [ABSTRACT FROM AUTHOR]

Published

2022

42. N-gram Based Croatian Language Network: Application in a Smart Environment.

Author

Šoić, Renato and Vuković, Marin

Subjects

CROATIAN language, SMART cities, NATURAL language processing, LINGUISTIC context, SMART homes, HUMAN ecology

Abstract

In the field of natural language processing, language networks represent a method for observing linguistic units and their interactions in different linguistic contexts. This paper uses the previously presented Croatian language network for building a solution capable of generating spoken notifications in Croatian language. The novelty of this paper is that it proposes an approach for generating spoken notifications in smart environments by combining specialized services that enable interaction with the environment and human users. The process employed for generating spoken notifications is described in detail. Also, a novel contribution of this paper is the case-study evaluation of the proposed approach in a smart home environment. [ABSTRACT FROM AUTHOR]

Published

2022

43. Evaluation of a Simple Clinical Language Paradigm With Respect to Sensory Independency, Functional Asymmetry, and Effective Connectivity

Author

Erik Rødland, Kathrine Midgaard Melleby, and Karsten Specht

Subjects

functional magnetic resonance imaging, fMRI, language network, asymmetry, speech perception, clinical fMRI, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The present study replicates a known visual language paradigm, and extends it to a paradigm that is independent from the sensory modality of the stimuli and, hence, could be administered either visually or aurally, such that both patients with limited sight or hearing could be examined. The stimuli were simple sentences, but required the subject not only to understand the content of the sentence but also to formulate a response that had a semantic relation to the content of the presented sentence. Thereby, this paradigm does not only test perception of the stimuli, but also to some extend sentence and semantic processing, and covert speech production within one task. When the sensory base-line condition was subtracted, both the auditory and visual version of the paradigm demonstrated a broadly overlapping and asymmetric network, comprising distinct areas of the left posterior temporal lobe, left inferior frontal areas, left precentral gyrus, and supplementary motor area. The consistency of activations and their asymmetry was evaluated with a conjunction analysis, probability maps, and intraclass correlation coefficients (ICC). This underlying network was further analyzed with dynamic causal modeling (DCM) to explore whether not only the same brain areas were involved, but also the network structure and information flow were the same between the sensory modalities. In conclusion, the paradigm reliably activated the most central parts of the speech and language network with a great consistency across subjects, and independently of whether the stimuli were administered aurally or visually. However, there was individual variability in the degree of functional asymmetry between the two sensory conditions.

Published

2022

44. Study on the Connectivity of Language Network in Word Reading and Object Recognition Based on tfMRI

Author

He, Xiang, Zhang, Xiaofei, Yang, Yang, Wu, Ting, Zhong, Ning, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Liang, Peipeng, editor, Goel, Vinod, editor, and Shan, Chunlei, editor

Published

2019

45. Dwujęzyczny mózg: przegląd najważniejszych doniesień.

Author

Wolna, Agata and Wodniecka, Zofia

Abstract

Bilingualism imposes additional requirements on the cognitive system. As such, it can be a driving force of neuroplastic changes in the brain of a person who speaks more than one language. The need to store and use two systems of representations corresponding to the two languages as well as to develop an efficient control system which allows to use the intendent, contextually appropriate language, may result in both functional and structural changes. Neuroimaging studies show that the neural organization of language representations in a bilingual brain depends to a large degree on the type of representation. Conceptual representations seem to share common neural underpinnings between the different languages. Lexical representations, related to the vocabulary and words, are processed by the same brain regions regardless of the language, however, they have been shown to be coded by distinct neuronal populations. Finally, neuroplastic reorganization of syntactic representations is highly dependent on factors related to individual experiences of bilingualism, such as age of acquisition and proficiency in the second language. Neuroplastic changes in the bilingual brain have also been linked to the increased demands that using two languages imposes on the cognitive control mechanisms. Both structural and functional changes in the brain of bilinguals were observed withing a wide network referred to as language control network. Summing up, neuroimaging studies have demonstrated that bilingualism is related to neuroplastic changes in both structure and functioning of the brain. However, the newest reports suggest the extent and intensity of the neuroplastic changes are most likely dependent on individual experiences of each bilingual speaker. [ABSTRACT FROM AUTHOR]

Published

2022

46. Bilingual experience and intrinsic functional connectivity in adults, aging, and Alzheimer's disease.

Author

Jafari, Zahra, Perani, Daniela, Kolb, Bryan E., and Mohajerani, Majid H.

Subjects

*ALZHEIMER'S disease, *FUNCTIONAL connectivity, *LANGUAGE ability, *OLDER people, AGE factors in Alzheimer's disease

Abstract

The past decade marked the beginning of the use of resting‐state functional connectivity (RSFC) imaging in bilingualism studies. This paper intends to review the latest evidence of changes in RSFC in language and cognitive control networks in bilinguals during adulthood, aging, and early Alzheimer's disease, which can add to our understanding of brain functional reshaping in the context of second language (L2) acquisition. Because of high variability in bilingual experience, recent studies mostly focus on the role of the main aspects of bilingual experience (age of acquisition (AoA), language proficiency, and language usage) on intrinsic functional connectivity (FC). Existing evidence accounts for stronger FC in simultaneous rather than sequential bilinguals in language and control networks, and the modulation of the AoA impact by language proficiency and usage. Studies on older bilingual adults show stronger FC in language and frontoparietal networks and preserved FC in posterior brain regions, which can protect the brain against cognitive decline and neurodegenerative processes. Altered RSFC in language and control networks subsequent to L2 training programs also is associated with improved global cognition in older adults. This review ends with a brief discussion of potential confounding factors in bilingualism research and conclusions and suggestions for future research. [ABSTRACT FROM AUTHOR]

Published

2021

47. Decoupling of functional and structural language networks in temporal lobe epilepsy.

Author

Trimmel, Karin, Vos, Sjoerd B., Caciagli, Lorenzo, Xiao, Fenglai, van Graan, Louis A., Winston, Gavin P., Koepp, Matthias J., Thompson, Pamela J., and Duncan, John S.

Subjects

*TEMPORAL lobe epilepsy, *TIME-varying networks, *FUNCTIONAL magnetic resonance imaging, *TEMPORAL lobe, *FRONTAL lobe, *PROSODIC analysis (Linguistics), *NEUROLINGUISTICS

Abstract

Objective: To identify functional and structural alterations in language networks of people with temporal lobe epilepsy (TLE), who frequently present with naming and word‐finding difficulties. Methods: Fifty‐five patients with unilateral TLE (29 left) and 16 controls were studied with auditory and picture naming functional magnetic resonance imaging (fMRI) tasks. Activation maxima in the left posterobasal temporal lobe were used as seed regions for whole‐brain functional connectivity analyses (psychophysiological interaction). White matter language pathways were investigated using diffusion tensor imaging and neurite orientation dispersion and density imaging metrics extracted along fiber bundles starting from fMRI‐guided seeds. Regression analyses were performed to investigate the correlation of functional connectivity with diffusion MRI metrics. Results: In the whole group of patients and controls, weaker functional connectivity from the left posterobasal temporal lobe (1) to the bilateral anterior temporal lobe, precentral gyrus, and lingual gyrus during auditory naming and (2) to the bilateral occipital cortex and right fusiform gyrus during picture naming was associated with decreased neurite orientation dispersion and higher free water fraction of white matter tracts. Compared to controls, TLE patients exhibited fewer structural connections and an impaired coupling of functional and structural metrics. Significance: TLE is associated with an impairment and decoupling of functional and structural language networks. White matter damage, as evidenced by diffusion abnormalities, may contribute to impaired functional connectivity and language dysfunction in TLE. [ABSTRACT FROM AUTHOR]

Published

2021

48. Overt speech critically changes lateralization index and did not allow determination of hemispheric dominance for language: an fMRI study.

Author

Berro, David Hassanein, Lemée, Jean-Michel, Leiber, Louis-Marie, Emery, Evelyne, Menei, Philippe, and Ter Minassian, Aram

Subjects

DOMINANT language, FUNCTIONAL magnetic resonance imaging, INDEPENDENT component analysis, TONE (Phonetics), TASK performance

Abstract

Background: Pre-surgical mapping of language using functional MRI aimed principally to determine the dominant hemisphere. This mapping is currently performed using covert linguistic task in way to avoid motion artefacts potentially biasing the results. However, overt task is closer to natural speaking, allows a control on the performance of the task, and may be easier to perform for stressed patients and children. However, overt task, by activating phonological areas on both hemispheres and areas involved in pitch prosody control in the non-dominant hemisphere, is expected to modify the determination of the dominant hemisphere by the calculation of the lateralization index (LI).Objective: Here, we analyzed the modifications in the LI and the interactions between cognitive networks during covert and overt speech task.Methods: Thirty-three volunteers participated in this study, all but four were right-handed. They performed three functional sessions consisting of (1) covert and (2) overt generation of a short sentence semantically linked with an audibly presented word, from which we estimated the "Covert" and "Overt" contrasts, and a (3) resting-state session. The resting-state session was submitted to spatial independent component analysis to identify language network at rest (LANG), cingulo-opercular network (CO), and ventral attention network (VAN). The LI was calculated using the bootstrapping method.Results: The LI of the LANG was the most left-lateralized (0.66 ± 0.38). The LI shifted from a moderate leftward lateralization for the Covert contrast (0.32 ± 0.38) to a right lateralization for the Overt contrast (- 0.13 ± 0.30). The LI significantly differed from each other. This rightward shift was due to the recruitment of right hemispheric temporal areas together with the nodes of the CO.Conclusion: Analyzing the overt speech by fMRI allowed improvement in the physiological knowledge regarding the coordinated activity of the intrinsic connectivity networks. However, the rightward shift of the LI in this condition did not provide the basic information on the hemispheric language dominance. Overt linguistic task cannot be recommended for clinical purpose when determining hemispheric dominance for language. [ABSTRACT FROM AUTHOR]

Published

2021

49. A Quantitative and Network Approach to Alignment Effects in L2 Continuation Tasks.

Author

Chen, Heng

Subjects

CONTINUATION methods, SECOND language acquisition, ENGLISH language, FOREIGN language education, CHINESE language

Abstract

The present study employed a quantitative and network approach to detect alignment effects in second language (L2) continuation tasks designed on the xu-argument (Wang, 2016). The materials used in this study were 6 sub-corpora consisting of two selected input stories and two groups of L2 written production based on two continuation tasks. During continuation, the participants were required to continue in English a story with its ending removed, with one group reading and continuing the Chinese version and the other group the English version, and then switching their roles in the two tasks. Results show that the alignment effect differs across the two versions of continuation. Specifically, compared with the Chinese-version continuation, L2 learners produced more use of unigrams and bigrams similar to the input story in terms of lexical items, frequency and ranking correlations in the English-version task; on the other hand, the English-version continuation can facilitate generating linguistic networks that are much closer to the native English networks. Moreover, this research corroborates that written production in L2 continuation tasks can be influenced by input content. [ABSTRACT FROM AUTHOR]

Published

2021

50. Longitudinal associations between language network characteristics in the infant brain and school-age reading abilities are mediated by early-developing phonological skills.

Author

Tang, Xinyi, Turesky, Ted K., Escalante, Elizabeth S., Loh, Megan Yf, Xia, Mingrui, Yu, Xi, and Gaab, Nadine

Abstract

Reading acquisition is a prolonged learning process relying on language development starting in utero. Behavioral longitudinal studies reveal prospective associations between infant language abilities and preschool/kindergarten phonological development that relates to subsequent reading performance. While recent pediatric neuroimaging work has begun to characterize the neural network underlying language development in infants, how this neural network scaffolds long-term language and reading acquisition remains unknown. We addressed this question in a 7-year longitudinal study from infancy to school-age. Seventy-six infants completed resting-state fMRI scanning, and underwent standardized language assessments in kindergarten. Of this larger cohort, forty-one were further assessed on their emergent word reading abilities after receiving formal reading instructions. Hierarchical clustering analyses identified a modular infant language network in which functional connectivity (FC) of the inferior frontal module prospectively correlated with kindergarten-age phonological skills and emergent word reading abilities. These correlations were obtained when controlling for infant age at scan, nonverbal IQ and parental education. Furthermore, kindergarten-age phonological skills mediated the relationship between infant FC and school-age reading abilities, implying a critical mid-way milestone for long-term reading development from infancy. Overall, our findings illuminate the neurobiological mechanisms by which infant language capacities could scaffold long-term reading acquisition. • Clustering analyses revealed a modular language network in the infant brain. • Infant language network characteristics associate with school-age reading outcomes. • These longitudinal associations are mediated by kindergarten-age phonological skills. [ABSTRACT FROM AUTHOR]

Published

2024