Your search keyword '"Inferior frontal gyrus"' showing total 4,588 results

1. The role of frontal cortex in novel-word learning and consolidation: Evidence from focal transcranial direct current stimulation.

Author

Riemann, Steffen, van Lück, Jil, Rodríguez-Fornells, Antoni, Flöel, Agnes, and Meinzer, Marcus

Subjects

PREFRONTAL cortex, TRANSCRANIAL direct current stimulation, BAYESIAN analysis, CONTROL groups, NEUROPHYSIOLOGY

Published

2024

2. The role of pre‐supplementary motor cortex in action control with emotional stimuli: A repetitive transcranial magnetic stimulation study.

Author

Battaglia, Simone, Nazzi, Claudio, Di Fazio, Chiara, and Borgomaneri, Sara

Subjects

*TRANSCRANIAL magnetic stimulation, *EMOTIONAL conditioning, *CONTROL (Psychology), *PREFRONTAL cortex, *NEURAL circuitry, *NEURAL pathways, *MOTOR cortex

Abstract

Swiftly halting ongoing motor actions is essential to react to unforeseen and potentially perilous circumstances. However, the neural bases subtending the complex interplay between emotions and motor control have been scarcely investigated. Here, we used an emotional stop signal task (SST) to investigate whether specific neural circuits engaged by action suppression are differently modulated by emotional signals with respect to neutral ones. Participants performed an SST before and after the administration of one session of repetitive transcranial magnetic stimulation (rTMS) over the pre‐supplementary motor cortex (pre‐SMA), the right inferior frontal gyrus (rIFG), and the left primary motor cortex (lM1). Results show that rTMS over the pre‐SMA improved the ability to inhibit prepotent action (i.e., better action control) when emotional stimuli were presented. In contrast, action control in a neutral context was fostered by rTMS over the rIFG. No changes were observed after lM1 stimulation. Intriguingly, individuals with higher impulsivity traits exhibited enhanced motor control when facing neutral stimuli following rIFG stimulation. These results further our understanding of the interplay between emotions and motor functions, shedding light on the selective modulation of neural pathways underpinning these processes. [ABSTRACT FROM AUTHOR]

Published

2024

3. Neurobiological Effects of Transcranial Direct Current Stimulation over the Inferior Frontal Gyrus: A Systematic Review on Cognitive Enhancement in Healthy and Neurological Adults.

Author

Di Fuccio, Raffaele, Lardone, Anna, De Luca, Mariagiovanna, Ali, Leila, Limone, Pierpaolo, and Marangolo, Paola

Subjects

TRANSCRANIAL direct current stimulation, PREFRONTAL cortex, COGNITIVE training, NEAR infrared spectroscopy, ADULTS

Abstract

The neurobiological effects of transcranial direct current stimulation (tDCS) have still not been unequivocally clarified. Some studies have suggested that the application of tDCS over the inferior frontal gyrus (IFG) enhances different aspects of cognition in healthy and neurological individuals, exerting neural changes over the target area and its neural surroundings. In this systematic review, randomized sham-controlled trials in healthy and neurological adults were selected through a database search to explore whether tDCS over the IFG combined with cognitive training modulates functional connectivity or neural changes. Twenty studies were finally included, among which twelve measured tDCS effects through functional magnetic resonance (fMRI), two through functional near-infrared spectroscopy (fNIRS), and six through electroencephalography (EEG). Due to the high heterogeneity observed across studies, data were qualitatively described and compared to assess reliability. Overall, studies that combined fMRI and tDCS showed widespread changes in functional connectivity at both local and distant brain regions. The findings also suggested that tDCS may also modulate electrophysiological changes underlying the targeted area. However, these outcomes were not always accompanied by corresponding significant behavioral results. This work raises the question concerning the general efficacy of tDCS, the implications of which extend to the steadily increasing tDCS literature. [ABSTRACT FROM AUTHOR]

Published

2024

4. Beyond the ears: A review exploring the interconnected brain behind the hierarchical memory of music.

Author

Ren, Yiren and Brown, Thackery I.

Subjects

*MEMORY, *PREFRONTAL cortex, *EMOTION recognition

Abstract

Music is a ubiquitous element of daily life. Understanding how music memory is represented and expressed in the brain is key to understanding how music can influence human daily cognitive tasks. Current music-memory literature is built on data from very heterogeneous tasks for measuring memory, and the neural correlates appear to differ depending on different forms of memory function targeted. Such heterogeneity leaves many exceptions and conflicts in the data underexplained (e.g., hippocampal involvement in music memory is debated). This review provides an overview of existing neuroimaging results from music-memory related studies and concludes that although music is a special class of event in our lives, the memory systems behind it do in fact share neural mechanisms with memories from other modalities. We suggest that dividing music memory into different levels of a hierarchy (structural level and semantic level) helps understand overlap and divergence in neural networks involved. This is grounded in the fact that memorizing a piece of music recruits brain clusters that separately support functions including—but not limited to—syntax storage and retrieval, temporal processing, prediction versus reality comparison, stimulus feature integration, personal memory associations, and emotion perception. The cross-talk between frontal-parietal music structural processing centers and the subcortical emotion and context encoding areas explains why music is not only so easily memorable but can also serve as strong contextual information for encoding and retrieving nonmusic information in our lives. [ABSTRACT FROM AUTHOR]

Published

2024

5. Specificity in Generalization Effects of Transcranial Direct Current Stimulation Over the Left Inferior Frontal Gyrus in Primary Progressive Aphasia.

Author

Ficek, Bronte, Webster, Kimberly, Herrmann, Olivia, Frangakis, Constantine, Desmond, John, Onyike, Chiadi, Caffo, Brian, Hillis, Argye, Tsapkini, Kyrana, and Wang, Zeyi

Subjects

Inferior frontal gyrus, primary progressive aphasia, semantic retrieval, transcranial direct current stimulation, verbal fluency, Humans, Transcranial Direct Current Stimulation, Prefrontal Cortex, Semantics, Temporal Lobe, Aphasia, Primary Progressive

Abstract

OBJECTIVES: Generalization (or near-transfer) effects of an intervention to tasks not explicitly trained are the most desirable intervention outcomes. However, they are rarely reported and even more rarely explained. One hypothesis for generalization effects is that the tasks improved share the same brain function/computation with the intervention task. We tested this hypothesis in this study of transcranial direct current stimulation (tDCS) over the left inferior frontal gyrus (IFG) that is claimed to be involved in selective semantic retrieval of information from the temporal lobes. MATERIALS AND METHODS: In this study, we examined whether tDCS over the left IFG in a group of patients with primary progressive aphasia (PPA), paired with a lexical/semantic retrieval intervention (oral and written naming), may specifically improve semantic fluency, a nontrained near-transfer task that relies on selective semantic retrieval, in patients with PPA. RESULTS: Semantic fluency improved significantly more in the active tDCS than in the sham tDCS condition immediately after and two weeks after treatment. This improvement was marginally significant two months after treatment. We also found that the active tDCS effect was specific to tasks that require this IFG computation (selective semantic retrieval) but not to other tasks that may require different computations of the frontal lobes. CONCLUSIONS: We provided interventional evidence that the left IFG is critical for selective semantic retrieval, and tDCS over the left IFG may have a near-transfer effect on tasks that depend on the same computation, even if they are not specifically trained. CLINICAL TRIAL REGISTRATION: The Clinicaltrials.gov registration number for the study is NCT02606422.

Published

2023

6. Frontotemporal contributions to social and non‐social semantic judgements.

Author

Norberg, Joakim, McMains, Stephanie, Persson, Jonas, and Mitchell, Jason P.

Subjects

*PREFRONTAL cortex, *BRAIN stimulation, *TEMPOROPARIETAL junction, *SOCIAL networks

Abstract

Semantic judgements involve the use of general knowledge about the world in specific situations. Such judgements are typically associated with activity in a number of brain regions that include the left inferior frontal gyrus (IFG). However, previous studies showed activity in brain regions associated with mentalizing, including the right temporoparietal junction (TPJ), in semantic judgements that involved social knowledge. The aim of the present study was to investigate if social and non‐social semantic judgements are dissociated using a combination of fMRI and repetitive TMS. To study this, we asked participants to estimate the percentage of exemplars in a given category that shared a specified attribute. Categories could be either social (i.e., stereotypes) or non‐social (i.e., object categories). As expected, fMRI results (n = 26) showed enhanced activity in the left IFG that was specific to non‐social semantic judgements. However, statistical evidence did not support that repetitive TMS stimulation (n = 19) to this brain region specifically disrupted non‐social semantic judgements. Also as expected, the right TPJ showed enhanced activity to social semantic judgements. However, statistical evidence did not support that repetitive TMS stimulation to this brain region specifically disrupted social semantic judgements. It is possible that the causal networks involved in social and non‐social semantic judgements may be more complex than expected. [ABSTRACT FROM AUTHOR]

Published

2024

7. Prefrontal activation when suppressing an automatic balance recovery step.

Author

Abugu, Ezinne U., Harper, Sara A., Kim, Youngwook, and Bolton, David A.E.

Subjects

*GAIT disorders, *PARKINSON'S disease, *DEMENTIA, *DETECTORS, *DATA analysis

Abstract

The present study investigated neural mechanisms for suppressing a highly automatic balance recovery step. Response inhibition has typically been researched using focal hand reaction tasks performed by seated participants, and this has revealed a neural stopping network including the Inferior Frontal Gyrus (IFG). It is unclear if the same neural networks contribute to suppressing an unwanted balance reaction. Is there greater IFG activation when suppressing an automatic balance recovery step? Functional near-infrared spectroscopy (fNIRS) was used to measure brain activity in 21 young adults as they performed a balance recovery task that demanded rapid step suppression following postural perturbation. The hypothesis was that the IFG would show heightened activity when suppressing an automatic balance recovery step. A lean and-release system was used to impose temporally unpredictable forward perturbations by releasing participants from a supported forward lean. For most trials (80%), participants were told to recover balance by quickly stepping forward (STEP). However, on 20% of trials at random, a high-pitch tone was played immediately after postural perturbation signaling participants to suppress a step and fully relax into a catch harness (STOP). This allowed us to target the ability to cancel an already initiated step in a balance recovery context. Average oxygenated hemoglobin changes were contrasted between STEP and STOP trials, 1–6 s post perturbation. The results showed a greater bilateral prefrontal response during STOP trials, supporting the idea that executive brain networks are active when suppressing a balance recovery step. Our study demonstrates one way in which higher brain processes may help us prevent falls in complex environments where behavioral flexibility is necessary. This study also presents a novel method for assessing response inhibition in an upright postural context where rapid stepping reactions are required. • Functional near infrared spectroscopy measured brain activation in a balance task. • Automatic step reactions were occasionally interrupted by a stop cue. • Prefrontal cortical activity increased when suppressing a balance recovery step. • This demonstrates a novel way to probe inhibition in a reactive balance task. [ABSTRACT FROM AUTHOR]

Published

2024

8. Divergent brain regional atrophy and associated fiber disruption in amnestic and non-amnestic MCI

Author

Chao Du, Mingxi Dang, Kewei Chen, Yaojing Chen, and Zhanjun Zhang

Subjects

Amnestic and non-amnestic mild cognitive impairment, Hippocampus, Inferior frontal gyrus, Volume atrophy, White matter fiber bundles, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Understanding the pathological characteristics of various mild cognitive impairment (MCI) subtypes is crucial for the differential diagnosis of dementia. The purpose of this study was to feature divergent symptom-deficit profiles in amnestic MCI (aMCI) and non-amnestic MCI (naMCI). Methods T1 and DTI MRI data from a total of 158 older adults with 50 normal controls, 56 aMCI, and 52 naMCI were included. The voxel-wise gray matter volumes and the number of seed-based white matter fiber bundles were compared among these three groups. Furthermore, correlation and mediation analyses between the neuroimaging indices and cognitive measures were performed. Results The aMCI with specific memory abnormalities was characterized by volumetric atrophy of the left hippocampus but not by damage in the linked white matter fiber bundles. Conversely, naMCI was characterized by both the altered volume of the right inferior frontal gyrus and the significant damage to fiber bundles traversing the region in all three directions, not only affecting fibers around the atrophied area but also distant fibers. Mediation analyses of gray matter-white matter-cognition showed that gray matter atrophy affects the number of fiber bundles and further affects attention and executive function. Meanwhile, fiber bundle damage also affects gray matter volume, which further affects visual processing and language. Conclusions The divergent structural damage patterns of the MCI subtypes and cognitive dysfunctions highlight the importance of detailed differential diagnoses in the early stages of pathological neurodegenerative diseases to deepen the understanding of dementia subtypes and inform targeted early clinical interventions.

Published

2023

9. Right inferior frontal gyrus gray matter density mediates the effect of tolerance of ambiguity on scientific problem finding.

Author

Dandan, Tong, Jingjing, Shi, Ruolin, Zhang, Peng, Lu, Xiaojing, Gu, Qinglin, Zhang, and Jiang, Qiu

Subjects

PREFRONTAL cortex, AMBIGUITY tolerance, GRAY matter (Nerve tissue), TOLERATION, VOXEL-based morphometry, WHITE matter (Nerve tissue)

Abstract

Problem finding (PF) is a crucial element of creative thinking. PF facility allows us to manage the rapidly changing world. Tolerance of ambiguity (AT) is a personality variable that plays a vital role in creative thinking. However, few studies have explored PF's brain mechanisms and their relationship with AT. This study aimed to filled this gap using behavioral and voxel-based morphometry (VBM) methods. The behavioral results revealed a significant positive correlation between AT and PF. The VBM analysis found that novel PF positively correlated with the cluster's regional gray matter density (GMD) involving the left dorsolateral prefrontal cortex (DLPFC) and precentral cortex. Additionally, novel and appropriate PF was positively correlated with the GMD of the right inferior frontal gyrus (IFG) and regional white matter density (WMD) of the bilateral thalamus. Further mediation analysis revealed that the rGMD of the right IFG mediated the relation between AT and PF, which showed that the right IFG is associated with inhibitory control and novelty-seeking. Individuals with high AT and regional GMD in right IFG had a greater novel and appropriate PF ability. These findings shed light on the correlation between AT and PF from the brain's structural basis perspective. [ABSTRACT FROM AUTHOR]

Published

2023

10. Divergent brain regional atrophy and associated fiber disruption in amnestic and non-amnestic MCI.

Author

Du, Chao, Dang, Mingxi, Chen, Kewei, Chen, Yaojing, and Zhang, Zhanjun

Subjects

*CEREBRAL atrophy, *MILD cognitive impairment, *PREFRONTAL cortex, *GRAY matter (Nerve tissue), *WHITE matter (Nerve tissue), *AMNESTIC mild cognitive impairment

Abstract

Background: Understanding the pathological characteristics of various mild cognitive impairment (MCI) subtypes is crucial for the differential diagnosis of dementia. The purpose of this study was to feature divergent symptom-deficit profiles in amnestic MCI (aMCI) and non-amnestic MCI (naMCI). Methods: T1 and DTI MRI data from a total of 158 older adults with 50 normal controls, 56 aMCI, and 52 naMCI were included. The voxel-wise gray matter volumes and the number of seed-based white matter fiber bundles were compared among these three groups. Furthermore, correlation and mediation analyses between the neuroimaging indices and cognitive measures were performed. Results: The aMCI with specific memory abnormalities was characterized by volumetric atrophy of the left hippocampus but not by damage in the linked white matter fiber bundles. Conversely, naMCI was characterized by both the altered volume of the right inferior frontal gyrus and the significant damage to fiber bundles traversing the region in all three directions, not only affecting fibers around the atrophied area but also distant fibers. Mediation analyses of gray matter-white matter-cognition showed that gray matter atrophy affects the number of fiber bundles and further affects attention and executive function. Meanwhile, fiber bundle damage also affects gray matter volume, which further affects visual processing and language. Conclusions: The divergent structural damage patterns of the MCI subtypes and cognitive dysfunctions highlight the importance of detailed differential diagnoses in the early stages of pathological neurodegenerative diseases to deepen the understanding of dementia subtypes and inform targeted early clinical interventions. [ABSTRACT FROM AUTHOR]

Published

2023

11. Can Brain Activities of Guided Metaphorical Restructuring Predict Therapeutic Changes?

Author

Zhang, Xiaoyu, Zhang, Lu, Yu, Fei, and Zhang, Wencai

Subjects

*PREFRONTAL cortex, *TEMPORAL lobe, *AFFECT (Psychology), *PSYCHOLOGICAL distress, *THYROID hormone regulation

Abstract

• Observed the intervention effect of therapeutic metaphor and its neural markers. • Metaphor restructuring had a better intervention effect than literal restructuring. • Metaphor-related activations of IFG and hippocampus could predict treatment changes. The present study examined whether brain activities of metaphorical restructuring could predict improvements in emotion and general self-efficacy (GSES). Sixty-two anxious graduates were randomly assigned to either the metaphor group (n = 31) or the literal group (n = 31). After completing the pretest (T1), the participants were first presented with micro-counseling dialogues (MCD) to guide metaphorical or literal restructuring, and their functional brain activities were simultaneously recorded. They then completed the posttest (T2) and 1 week's follow-up (T3). It was found that (1) compared with the literal group, the metaphor group had more insightful experiences, a greater increase in positive affect and GSES at T2, and a greater decrease in psychological distress at T2 and T3; (2) the metaphor group showed a greater activation in the left inferior frontal gyrus (IFG) and bilateral temporal gyrus, and further activation in the left hippocampus positively predicted T2 GSES scores while that in the IFG and left hippocampus positively predicted the reduction slope of distress over the three time points. One important limitation is that the results should be interpreted with caution when generalizing to clinical anxiety samples due to the participants were graduate students with anxiety symptoms rather than clinical sample. These results indicated that metaphor restructuring produced greater symptom improvements, and activation in the hippocampus and IFG could predict these symptom improvements. This suggests that the activation of the two regions during the restructuring intervention may be a neural marker for symptom improvements. [ABSTRACT FROM AUTHOR]

Published

2023

12. Age differences in the neural processing of semantics, within and beyond the core semantic network.

Author

Wu, Wei and Hoffman, Paul

Subjects

*AGE differences, *LARGE-scale brain networks, *OLDER people, *PREFRONTAL cortex, *DEFAULT mode network

Abstract

Aging is associated with functional activation changes in domain-specific regions and large-scale brain networks. This preregistered Functional magnetic resonance imaging (fMRI) study investigated these effects within the domain of semantic cognition. Participants completed 1 nonsemantic and 2 semantic tasks. We found no age differences in semantic activation in core semantic regions. However, the right inferior frontal gyrus showed difficulty-related increases in both age groups. This suggests that age-related upregulation of this area may be a compensatory response to increased processing demands. At a network level, older people showed more engagement in the default mode network and less in the executive multiple-demand network, aligning with older people's greater knowledge reserves and executive declines. In contrast, activation was age-invariant in semantic control regions. Finally, older adults showed reduced demand-related modulation of multiple-demand network activation in the nonsemantic task but not the semantic tasks. These findings provide a new perspective on the neural basis of semantic cognition in aging, suggesting that preserved function in specialized semantic networks may help to maintain semantic cognition in later life. • Right inferior frontal gyrus contributes to verbal semantic processing. • Age-related RIFG overactivation for semantic processing is therefore compensatory. • Older adults activate DMN more and MDN less during semantic processing. • Semantic-specific areas are relatively preserved in older age. [ABSTRACT FROM AUTHOR]

Published

2023

13. Neuroanatomical Correlates Underlying the Association Between Maternal Interleukin 6 Concentration During Pregnancy and Offspring Fluid Reasoning Performance in Early Childhood

Author

Rasmussen, Jerod M, Graham, Alice M, Gyllenhammer, Lauren E, Entringer, Sonja, Chow, Daniel S, O'Connor, Thomas G, Fair, Damien A, Wadhwa, Pathik D, and Buss, Claudia

Subjects

Biological Psychology, Reproductive Medicine, Biomedical and Clinical Sciences, Psychology, Pediatric, Behavioral and Social Science, Neurosciences, Mental Health, Reproductive health and childbirth, Brain, Child, Child, Preschool, Cognition, Female, Humans, Infant, Infant, Newborn, Interleukin-6, Magnetic Resonance Imaging, Pregnancy, Prenatal Exposure Delayed Effects, Fluid intelligence, Fluid reasoning, Inferior frontal gyrus, Inflammation, Interleukin 6, Longitudinal MRI, Newborn, Pars triangularis, Biological psychology, Clinical and health psychology

Abstract

BackgroundMaternal inflammation during pregnancy can alter offspring brain development and influence risk for disorders commonly accompanied by deficits in cognitive functioning. We therefore examined associations between maternal interleukin 6 (IL-6) concentrations during pregnancy and offspring cognitive ability and concurrent magnetic resonance imaging-based measures of brain anatomy in early childhood. We further examined newborn brain anatomy in secondary analyses to consider whether effects are evident soon after birth and to increase capacity to differentiate effects of pre- versus postnatal exposures.MethodsIL-6 concentrations were quantified in early (12.6 ± 2.8 weeks), mid (20.4 ± 1.5 weeks), and late (30.3 ± 1.3 weeks) pregnancy. Offspring nonverbal fluid intelligence (Gf) was assessed at 5.2 ± 0.6 years using a spatial reasoning task (Wechsler Preschool and Primary Scale of Intelligence-Matrix) (n = 49). T1-weighted magnetic resonance imaging scans were acquired at birth (n = 89, postmenstrual age = 42.9 ± 2.0 weeks) and in early childhood (n = 42, scan age = 5.1 ± 1.0 years). Regional cortical volumes were examined for a joint association between maternal IL-6 and offspring Gf performance.ResultsAverage maternal IL-6 concentration during pregnancy was inversely associated with offspring Gf performance after adjusting for socioeconomic status and the quality of the caregiving and learning environment (R2 = 13%; p = .02). Early-childhood pars triangularis volume was jointly associated with maternal IL-6 and childhood Gf (pcorrected < .001). An association also was observed between maternal IL-6 and newborn pars triangularis volume (R2 = 6%; p = .02).ConclusionsThese findings suggest that the origins of variation in child cognitive ability can, in part, trace back to maternal conditions during the intrauterine period of life and support the role of inflammation as an important component of this putative biological pathway.

Published

2022

14. Neuromodulation of Impaired Spoken Discourse

Author

Bakhtiar, Mehdi, Carthery-Goulart, Maria Teresa, Kong, Anthony Pak-Hin, and Kong, Anthony Pak-Hin, editor

Published

2023

15. Neurobiological Effects of Transcranial Direct Current Stimulation over the Inferior Frontal Gyrus: A Systematic Review on Cognitive Enhancement in Healthy and Neurological Adults

Author

Raffaele Di Fuccio, Anna Lardone, Mariagiovanna De Luca, Leila Ali, Pierpaolo Limone, and Paola Marangolo

Subjects

inferior frontal gyrus, tDCS, neuromodulation, neuroimaging, electrophysiology, cognitive training, Biology (General), QH301-705.5

Abstract

The neurobiological effects of transcranial direct current stimulation (tDCS) have still not been unequivocally clarified. Some studies have suggested that the application of tDCS over the inferior frontal gyrus (IFG) enhances different aspects of cognition in healthy and neurological individuals, exerting neural changes over the target area and its neural surroundings. In this systematic review, randomized sham-controlled trials in healthy and neurological adults were selected through a database search to explore whether tDCS over the IFG combined with cognitive training modulates functional connectivity or neural changes. Twenty studies were finally included, among which twelve measured tDCS effects through functional magnetic resonance (fMRI), two through functional near-infrared spectroscopy (fNIRS), and six through electroencephalography (EEG). Due to the high heterogeneity observed across studies, data were qualitatively described and compared to assess reliability. Overall, studies that combined fMRI and tDCS showed widespread changes in functional connectivity at both local and distant brain regions. The findings also suggested that tDCS may also modulate electrophysiological changes underlying the targeted area. However, these outcomes were not always accompanied by corresponding significant behavioral results. This work raises the question concerning the general efficacy of tDCS, the implications of which extend to the steadily increasing tDCS literature.

Published

2024

16. Sex-specific association between prenatal androgenization (second-to-fourth digit length ratio) and frontal brain volumes in adolescents.

Author

Lenz, Bernd, Gerhardt, Sarah, Boroumand-Jazi, Rafat, Eichler, Anna, Buchholz, Verena Nadine, Fasching, Peter A., Kornhuber, Johannes, Banaschewski, Tobias, Flor, Herta, Guldner, Stella, Prignitz, Maren, and Nees, Frauke

Subjects

*PREFRONTAL cortex, *TEENAGE boys, *TEENAGE girls, *CINGULATE cortex, *FRONTAL lobe, *PRENATAL depression, *RISK-taking behavior

Abstract

Prenatal androgenization associates sex-dependently with behavior and mental health in adolescence and adulthood, including risk-taking, emotionality, substance use, and depression. However, still little is known on how it affects underlying neural correlates, like frontal brain control regions. Thus, we tested whether prenatal androgen load is sex-dependently related to frontal cortex volumes in a sex-balanced adolescent sample. In a cross-sectional magnetic resonance imaging study, we examined 61 adolescents (28 males, 33 females; aged 14 or 16 years) and analyzed associations of frontal brain region volumes with the second-to-fourth digit length ratio (2D:4D), an established marker for prenatal androgenization, using voxel-based morphometry in a region-of-interest approach. Lower 2D:4D (indicative of higher prenatal androgen load) correlated significantly with smaller volumes of the right anterior cingulate cortex (r-ACC; β = 0.45) in male adolescents and with larger volumes of the left inferior frontal gyrus orbital part (l-IFGorb; β = – 0.38) in female adolescents. The regression slopes of 2D:4D on the r-ACC also differed significantly between males and females. The study provides novel evidence that prenatal androgenization may influence the development of the frontal brain in a sex- and frontal brain region-specific manner. These effects might contribute to the well-known sex differences in risk-taking, emotionality, substance use, and depression. Future research is needed to elucidate the role of prenatal androgenization within the biopsychosocial model. [ABSTRACT FROM AUTHOR]

Published

2023

17. Differential networks for processing structural dependencies in human language: linguistic capacity vs. memory-based ordering.

Author

Keita Umejima, Isso Nakamura, Naoki Fukui, Mihoko Zushi, Hiroki Narita, and Sakai, Kuniyoshi L.

Subjects

FUNCTIONAL magnetic resonance imaging, FUSIFORM gyrus, TEMPORAL lobe, PREMOTOR cortex, SHORT-term memory, PREFRONTAL cortex

Abstract

Surface linear (left-to-right) arrangements of human languages are actually an amalgam of the core language system and systems that are not inherently related to language. It has been widely recognized that an unbounded array of hierarchically structured linguistic expressions is generated by the simplest combinatorial operation "Merge," and the notion of Merge-generability has been proposed as a key feature that characterizes structural dependencies among linguistic elements. Here we tested Merge-generable dependencies by using a Subject-Predicate matching task, which required both linguistic capacity and short-term memory. We used three types of dependency: Nesting, Crossing, and Grouping as the control. The Nesting dependency is totally Merge-generable, while the Crossing dependency requires some additional processes for memory-based ordering. In order to identify the regions employed for these two dependencies, we directly compared cortical responses to the sentence stimuli (with noun phrases and an adverb as the first half of stimuli, and with verbs as the latter) using functional magnetic resonance imaging (fMRI), and the following results were obtained. First, for the Nesting - Crossing contrast, significant activations were observed in the bilateral lateral premotor cortices (LPMCs) and inferior frontal gyri, left middle temporal gyrus, and bilateral angular/supramarginal gyri, indicating engagement of the syntax-related networks. In contrast, the Crossing - Nesting contrast showed focal activations in the left fusiform gyrus, lingual gyrus, and middle occipital gyrus (L. FG/LG/MOG). Secondly, for the first half of the Nesting stimuli, signal changes in the bilateral LPMCs were well fitted with the estimates of computational costs to search the workspace and to select items (Σ operations). Moreover, for the latter half of the Crossing stimuli, the signal changes in the L. FG/LG/MOG were differentially fitted with the estimates of loads related to the ordering of elements/words (numbers of Ordering). Thirdly, these fitting models were by far more likely than the exchanged estimates between bilateral LPMCs and L. FG/LG/MOG, confirming a double dissociation for primary processes with Σ and Ordering. In conclusion, these results indicate that separate cortical networks are differentially employed, and their careful elucidation will provide further insights and challenges. [ABSTRACT FROM AUTHOR]

Published

2023

18. The influence of bilingualism on gray matter volume in the course of aging: a longitudinal study.

Author

Peitz, Katharina, Stumme, Johanna, Jockwitz, Christiane, Bittner, Nora, Caspers, Svenja, and Heim, Stefan

Subjects

GRAY matter (Nerve tissue), PREFRONTAL cortex, PARIETAL lobe, MULTILINGUALISM, COGNITION, BRAIN cortical thickness, AGING, ANALYSIS of covariance, RESEARCH funding, LONGITUDINAL method

Abstract

Background: Bilingualism is associated with higher gray matter volume (GMV) as a form of brain reserve in brain regions such as the inferior frontal gyrus (IFG) and the inferior parietal lobule (IPL). A recent cross-sectional study reported the agerelated GMV decline in the left IFG and IPL to be steeper for bilinguals than for monolinguals. The present study aimed at supporting this finding for the first time with longitudinal data. Methods: In the current study, 200 participants aged 19 to 79 years (87 monolinguals, 113 sequential bilinguals, mostly native German speakers with variable second language background) were included. Trajectories of GMV decline in the bilateral IFG and IPL were analyzed in mono- and bilinguals over two time points (mean time interval: 3.6 years). For four regions of interest (left/right IFG and left/right IPL), mixed Analyses of Covariance were conducted to assess (i) GMV changes over time, (ii) GMV differences for language groups (monolinguals/bilinguals), and (iii) the interaction between time point and language group. Corresponding analyses were conducted for the two factors of GMV, surface area (SA) and cortical thickness (CT). Results: There was higher GMV in bilinguals compared to monolinguals in the IPL, but not IFG. While the left and right IFG and the right IPL displayed a similar GMV change in mono- and bilinguals, GMV decline within the left IPL was significantly steeper in bilinguals. There was greater SA in bilinguals in the bilateral IPL and a steeper CT decline in bilinguals within in the left IPL. Conclusion: The cross-sectional observations of a steeper GMV decline in bilinguals could be confirmed for the left IPL. Additionally, the higher GMV in bilinguals in the bilateral IPL may indicate that bilingualism contributes to brain reserve especially in posterior brain regions. SA appeared to contribute to bilinguals' higher GMV in the bilateral IPL, while CT seemed to account for the steeper structural decline in bilinguals in the left IPL. The present findings demonstrate the importance of time as an additional factor when assessing the neuroprotective effects of bilingualism on structural features of the human brain. [ABSTRACT FROM AUTHOR]

Published

2023

19. Neural correlates of perceptual switching and their association with empathy and alexithymia in individuals with and without autism spectrum disorder.

Author

Tei, Shisei, Itahashi, Takashi, Aoki, Yuta Y., Kubota, Manabu, Hashimoto, Ryu-ichiro, Nakamura, Motoaki, Okuzumi, Shoko, Takahashi, Hidehiko, Ohta, Haruhisa, and Fujino, Junya

Subjects

*ALEXITHYMIA, *AUTISM spectrum disorders, *PREFRONTAL cortex, *FUNCTIONAL magnetic resonance imaging, *EMOTION recognition, *EMPATHY

Abstract

Individuals with autism spectrum disorder (ASD) often show limited empathy (poor recognition of others' emotions) and high alexithymia (poor recognition of own emotions and external thinking), which can negatively impact their social functioning. Previous experimental studies suggest that alterations in cognitive flexibility play key roles in the development of these characteristics in ASD. However, the underlying neural mechanisms that link cognitive flexibility and empathy/alexithymia are still largely unknown. In this study, we examined the neural correlates of cognitive flexibility via functional magnetic resonance imaging during perceptual task-switching in typical development (TD) adults and adults with ASD. We also investigated associations between regional neural activity and psychometric empathy and alexithymia scores among these populations. In the TD group, stronger activation of the left middle frontal gyrus was associated with better perceptual switching and greater empathic concern. Among individuals with ASD, stronger activation of the left inferior frontal gyrus was associated with better perceptual switching, greater empathy, and lower alexithymia. These findings will contribute to develop a better understanding of social cognition, and could be informative for the development of new ASD therapies. [ABSTRACT FROM AUTHOR]

Published

2023

20. Brain structural abnormalities and trait impulsivity in suicidal and non-suicidal patients with bipolar disorder.

Author

Huang, Mao-Hsuan, Kuan, Yi-Hsuan, Tu, Pei-Chi, Chang, Wan-Chen, Chan, Yee-Lam E., and Su, Tung-Ping

Subjects

*BRAIN abnormalities, *BIPOLAR disorder, *PREFRONTAL cortex, *IMPULSIVE personality, *SUICIDE risk factors

Abstract

Impulsivity is a characteristic of patients with bipolar disorder (BD) and may result in a higher risk of suicide attempt (SA). Although brain structural abnormalities have been suggested in the pathophysiology of BD, the relationship to impulsivity and suicide in BD is still not clear. 52 euthymic patients with BD (26 of them had a history of SA) and 56 age- and sex-matched healthy controls were recruited. All participants received clinical assessment, including Barratt impulsiveness scale (BIS), and underwent structural magnetic resonance imaging examination. An automated surface-based method (FreeSurfer) was used to measure brain volume and cortical surface area. A general linear model was applied to analyze the association between brain-wise greater gray matter volume (GMV), surface area and BIS scores separately for BD patients with and without SA history. BD patients with SA history scored higher in BIS total score and subscores in attention, motor, cognitive complexity and cognitive instability than those without SA history and controls (all p < 0.01). In patients with SA history, higher BIS scores were associated with greater GMV in the left pars triangularis and greater surface area in left pars opercularis (all p < 0.01). BD patients with SA history showed a greater GMV in inferior frontal gyrus than patients without SA history (p < 0.05). The cross-sectional design precluded examination of chronological relationships of SA, brain structural abnormalities, and trait impulsivity among BD. The findings indicate that the prefrontal cortex, especially the left inferior frontal gyrus, plays a vital role in trait impulsivity and suicidal behavior among patients with BD. • Bipolar disorder (BD) patients with suicide attempt (SA) history had higher trait impulsivity than those without SA history. • Trait impulsivity positively associated with gray matter volume (GMV) in left pars triangularis in patients with SA history. • BD patients with SA history had greater GMV in inferior frontal gyrus than patients without SA history. [ABSTRACT FROM AUTHOR]

Published

2023

21. Presentation format affects the behavioural and neural processing costs of sentence reinterpretation.

Author

Blott, Lena M., Rodd, Jennifer M., and Warren, Jane E.

Subjects

*SPEECH perception, *FRONTAL lobe, *SEMANTICS, *BRAIN, *PHONOLOGICAL awareness, *LINGUISTICS, *COGNITION, *BEHAVIOR, *TASK performance, *COMMUNICATION, *RESEARCH funding, *VISUAL perception, *LISTENING, *READING, *NEURORADIOLOGY

Abstract

Although listening to speech and reading text rely on different lower-order cognitive and neural processes, much of the literature on higher-order comprehension assumes engagement of a common conceptual-semantic system which is unaffected by input modality. However, few studies have tested this assumption directly. Moreover, many neuroimaging studies of reading present sentences in an artificial, cognitively demanding word-by-word rapid serial visual presentation (RSVP) format. We report behavioural and fMRI experiments investigating whether presentation format (Spoken, Written, or RSVP) modulates commonly reported behavioural and neural costs associated with reinterpretation of sentences that contain lexical ambiguities. Reinterpretation-related processing costs were exaggerated in the RSVP format, both for response times on a behavioural task and neural activation in left inferior frontal gyrus. Presentation format can interact with higher-order language processes in complex ways, and we urge language researchers to carefully consider the role of presentation format in study design and interpretation of research findings. [ABSTRACT FROM AUTHOR]

Published

2023

22. The influence of bilingualism on gray matter volume in the course of aging: a longitudinal study

Author

Katharina Peitz, Johanna Stumme, Christiane Jockwitz, Nora Bittner, Svenja Caspers, and Stefan Heim

Subjects

aging, bilingualism, inferior frontal gyrus, inferior parietal lobule, gray matter volume, brain reserve, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

BackgroundBilingualism is associated with higher gray matter volume (GMV) as a form of brain reserve in brain regions such as the inferior frontal gyrus (IFG) and the inferior parietal lobule (IPL). A recent cross-sectional study reported the age-related GMV decline in the left IFG and IPL to be steeper for bilinguals than for monolinguals. The present study aimed at supporting this finding for the first time with longitudinal data.MethodsIn the current study, 200 participants aged 19 to 79 years (87 monolinguals, 113 sequential bilinguals, mostly native German speakers with variable second language background) were included. Trajectories of GMV decline in the bilateral IFG and IPL were analyzed in mono- and bilinguals over two time points (mean time interval: 3.6 years). For four regions of interest (left/right IFG and left/right IPL), mixed Analyses of Covariance were conducted to assess (i) GMV changes over time, (ii) GMV differences for language groups (monolinguals/bilinguals), and (iii) the interaction between time point and language group. Corresponding analyses were conducted for the two factors of GMV, surface area (SA) and cortical thickness (CT).ResultsThere was higher GMV in bilinguals compared to monolinguals in the IPL, but not IFG. While the left and right IFG and the right IPL displayed a similar GMV change in mono- and bilinguals, GMV decline within the left IPL was significantly steeper in bilinguals. There was greater SA in bilinguals in the bilateral IPL and a steeper CT decline in bilinguals within in the left IPL.ConclusionThe cross-sectional observations of a steeper GMV decline in bilinguals could be confirmed for the left IPL. Additionally, the higher GMV in bilinguals in the bilateral IPL may indicate that bilingualism contributes to brain reserve especially in posterior brain regions. SA appeared to contribute to bilinguals’ higher GMV in the bilateral IPL, while CT seemed to account for the steeper structural decline in bilinguals in the left IPL. The present findings demonstrate the importance of time as an additional factor when assessing the neuroprotective effects of bilingualism on structural features of the human brain.

Published

2023

23. Age-Related Changes in Episodic Processing of Scenes: A Functional Activation and Connectivity Study.

Author

Miyakoshi, Makoto, Archer, Josephine Astrid, Wu, Chiao-Yi, Nakai, Toshiharu, and Chen, Shen-Hsing Annabel

Subjects

*YOUNG adults, *FUNCTIONAL connectivity, *PREFRONTAL cortex, *OLDER people, *HIPPOCAMPUS (Brain), *TEMPORAL lobe

Abstract

The posterior-to-anterior shift in aging (PASA) effect is seen as a compensatory model that enables older adults to meet increased cognitive demands to perform comparably as their young counterparts. However, empirical support for the PASA effect investigating age-related changes in the inferior frontal gyrus (IFG), hippocampus, and parahippocampus has yet to be established. 33 older adults and 48 young adults were administered tasks sensitive to novelty and relational processing of indoor/outdoor scenes in a 3-Tesla MRI scanner. Functional activation and connectivity analyses were applied to examine the age-related changes on the IFG, hippocampus, and parahippocampus among low/high-performing older adults and young adults. Significant parahippocampal activation was generally found in both older (high-performing) and young adults for novelty and relational processing of scenes. Younger adults had significantly greater IFG and parahippocampal activation than older adults, and greater parahippocampal activation compared to low-performing older adults for relational processing—providing partial support for the PASA model. Observations of significant functional connectivity within the medial temporal lobe and greater negative left IFG-right hippocampus/parahippocampus functional connectivity for young compared to low-performing older adults for relational processing also supports the PASA effect partially. [ABSTRACT FROM AUTHOR]

Published

2023

24. Neural Basis of Smoking-Related Difficulties in Emotion Regulation

Author

Faulkner, Paul, Dean, Andy C, Ghahremani, Dara G, and London, Edythe D

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Psychology, Prevention, Tobacco, Tobacco Smoke and Health, Neurosciences, Mental Health, Basic Behavioral and Social Science, Clinical Research, Behavioral and Social Science, Mind and Body, Mental health, Good Health and Well Being, Adolescent, Amygdala, Emotional Regulation, Emotions, Female, Frontal Lobe, Functional Laterality, Humans, Linear Models, Magnetic Resonance Imaging, Male, Neural Pathways, Neuropsychological Tests, Rest, Self Report, Surveys and Questionnaires, Tobacco Smoking, Tobacco Use Disorder, Young Adult, Smoking, emotion regulation, fMRI, amygdala, inferior frontal gyrus, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry, Biomedical and clinical sciences, Health sciences

Abstract

BackgroundNegative emotional states contribute to cigarette smoking, and difficulties in regulating these states can hinder smoking cessation. Understanding the neural bases of these difficulties in smokers may facilitate development of novel therapies for Tobacco Use Disorder.MethodsThirty-seven participants (18 smokers, 19 nonsmokers; 16-21 years old) completed the Difficulties in Emotion Regulation Scale (DERS), which is comprised of 6 subscales (lack of emotional clarity, lack of emotional awareness, limited access to emotion regulation strategies, nonacceptance of emotional responses, difficulties engaging in goal-directed behaviors, and impulse control difficulties) that combine to provide a total score. Participants also underwent functional magnetic resonance imaging to determine resting-state functional connectivity of the amygdala. Separate ANOVAs were used to determine group differences in self-reports on the DERS. Voxel-wise linear mixed models were performed to determine whether group influenced relationships between whole-brain functional connectivity of the amygdala and scores on the DERS.ResultsCompared with nonsmokers, smokers reported greater difficulties in emotion regulation, denoted by higher total scores on the DERS. Group differences were observed on a subscale of lack of emotional clarity, but no other subscale differences on the DERS were observed. Nonsmokers exhibited a greater negative correlation than smokers between lack of emotional clarity scores and connectivity of the amygdala with the left inferior frontal gyrus. Finally, this amygdala-to-left inferior frontal gyrus connectivity was weaker in smokers than in nonsmokers.ConclusionsThese findings suggest that difficulties in emotion regulation in smokers are at least partially due to lack of emotional clarity. Given the role of the inferior frontal gyrus in understanding emotional states, strengthening connectivity between the amygdala and the inferior frontal gyrus may improve emotional clarity to help smokers regulate their negative emotions, thereby improving their ability to quit smoking.

Published

2020

25. Surgical Anatomy of the Frontal Lobe

Author

Chaddad-Neto, Feres, Silva da Costa, Marcos Devanir, Chaddad-Neto, Feres, and Silva da Costa, Marcos Devanir

Published

2022

26. Surgical Anatomy of the Sulci and Gyri of the Brain

Author

Chaddad-Neto, Feres, Silva da Costa, Marcos Devanir, Chaddad-Neto, Feres, and Silva da Costa, Marcos Devanir

Published

2022

27. Functional Neuroanatomy

Author

Naidich, Thomas P., Yousry, Tarek A., 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

28. Enhancing Creativity With Combined Transcranial Direct Current and Random Noise Stimulation of the Left Dorsolateral Prefrontal Cortex and Inferior Frontal Gyrus.

Author

Peña, Javier, Muthalib, Makii, Sampedro, Agurne, Cardoso‐Botelho, Mafalda, Zabala, Oihana, Ibarretxe‐Bilbao, Naroa, García‐Guerrero, Acebo, Zubiaurre‐Elorza, Leire, and Ojeda, Natalia

Subjects

PREFRONTAL cortex, DIVERGENT thinking, TRANSCRANIAL direct current stimulation, CREATIVE ability

Abstract

Creativity is a fundamental human accomplishment from scientific advances to composing music. The left dorsolateral prefrontal cortex (DLPFC) and inferior frontal gyrus (IFG) are important metacontrol hubs in flexibility and persistence brain states, respectively. Those hubs are related to divergent thinking, insight problem‐solving, and convergent thinking. In this double‐blind, between‐subjects study, 81 healthy participants were randomly assigned to one of three groups (n = 27) that received a combined transcranial direct current stimulation–transcranial random noise stimulation (tDCS‐tRNS) protocol with the anode over the left DLPFC and cathode over the left IFG (+DLPFC−IFG), the opposite montage (−DLPFC+IFG), and a sham group (+DLPFC−IFG). Both active tDCS‐tRNS groups received 20 min of 1 mA tDCS with 1 mA (100–500 Hz) tRNS. Creativity was assessed before (baseline) and during stimulation with the Unusual Uses, Picture Completion (PC), Remote Association test (RAT), Matchstick Arithmetic (MA), and Nine‐dot (ND) problems. Only the +DLPFC−IFG group had significantly higher scores compared with sham in the RAT (p =.009), PC fluency (p =.018), PC originality (p =.007), ND (p =.007), and MA (p =.032). Overall, −DLPFC+IFG had greater scores in all creativity tests compared with sham. Implications from the metacontrol theory are discussed. [ABSTRACT FROM AUTHOR]

Published

2023

29. Computational Modeling of Oddball Sequence Processing Exposes Common and Differential Auditory Network Changes in First-Episode Schizophrenia-Spectrum Disorders and Schizophrenia.

Author

Todd, Juanita, Howard, Zachary, Auksztulewicz, Ryszard, and Salisbury, Dean

Subjects

BRAIN, PREFRONTAL cortex, SCHIZOPHRENIA, AUDITORY perception, RESEARCH funding, AUDITORY cortex

Abstract

Background and Hypothesis Differences in sound relevance filtering in schizophrenia are proposed to represent a key index of biological changes in brain function in the illness. This study featured a computational modeling approach to test the hypothesis that processing differences might already be evident in first-episode, becoming more pronounced in the established illness. Study Design Auditory event-related potentials to a typical oddball sequence (rare pitch deviations amongst regular sounds) were recorded from 90 persons with schizophrenia-spectrum disorders (40 first-episode schizophrenia-spectrum, 50 established illness) and age-matched healthy controls. The data were analyzed using dynamic causal modeling to identify the changes in effective connectivity that best explained group differences. Study Results Group differences were linked to intrinsic (within brain region) connectivity changes. In activity-dependent measures these were restricted to the left auditory cortex in first-episode schizophrenia-spectrum but were more widespread in the established illness. Modeling suggested that both established illness and first-episode schizophrenia-spectrum groups expressed significantly lower inhibition of inhibitory interneuron activity and altered gain on superficial pyramidal cells with the data indicative of differences in both putative N -methyl- d -aspartate glutamate receptor activity-dependent plasticity and classic neuromodulation. Conclusions The study provides further support for the notion that examining the ability to alter responsiveness to structured sound sequences in schizophrenia and first-episode schizophrenia-spectrum could be informative to uncovering the nature and progression of changes in brain function during the illness. Furthermore, modeling suggested that limited differences present at first-episode schizophrenia-spectrum may become more expansive with illness progression. [ABSTRACT FROM AUTHOR]

Published

2023

30. Responses in left inferior frontal gyrus are altered for speech‐in‐noise processing, but not for clear speech in autism.

Author

Schelinski, Stefanie and von Kriegstein, Katharina

Subjects

*PREFRONTAL cortex, *SPEECH, *FUNCTIONAL magnetic resonance imaging, *SPEECH perception, *TEMPORAL lobe

Abstract

Introduction: Autistic individuals often have difficulties with recognizing what another person is saying in noisy conditions such as in a crowded classroom or a restaurant. The underlying neural mechanisms of this speech perception difficulty are unclear. In typically developed individuals, three cerebral cortex regions are particularly related to speech‐in‐noise perception: the left inferior frontal gyrus (IFG), the right insula, and the left inferior parietal lobule (IPL). Here, we tested whether responses in these cerebral cortex regions are altered in speech‐in‐noise perception in autism. Methods: Seventeen autistic adults and 17 typically developed controls (matched pairwise on age, sex, and IQ) performed an auditory‐only speech recognition task during functional magnetic resonance imaging (fMRI). Speech was presented either with noise (noise condition) or without noise (no noise condition, i.e., clear speech). Results: In the left IFG, blood‐oxygenation‐level‐dependent (BOLD) responses were higher in the control compared to the autism group for recognizing speech‐in‐noise compared to clear speech. For this contrast, both groups had similar response magnitudes in the right insula and left IPL. Additionally, we replicated previous findings that BOLD responses in speech‐related and auditory brain regions (including bilateral superior temporal sulcus and Heschl's gyrus) for clear speech were similar in both groups and that voice identity recognition was impaired for clear and noisy speech in autism. Discussion: Our findings show that in autism, the processing of speech is particularly reduced under noisy conditions in the left IFG—a dysfunction that might be important in explaining restricted speech comprehension in noisy environments. [ABSTRACT FROM AUTHOR]

Published

2023

31. The Role of the Left Inferior Frontal Gyrus in Introspection during Verbal Communication.

Author

Yoshioka, Ayumi, Tanabe, Hiroki C., Nakagawa, Eri, Sumiya, Motofumi, Koike, Takahiko, and Sadato, Norihiro

Subjects

*PREFRONTAL cortex, *TEMPORAL lobe, *FUNCTIONAL magnetic resonance imaging, *INTROSPECTION, *ORAL communication

Abstract

Conversation enables the sharing of our subjective experiences through verbalizing introspected thoughts and feelings. The mentalizing network represents introspection, and successful conversation is characterized by alignment through imitation mediated by the mirror neuron system (MNS). Therefore, we hypothesized that the interaction between the mentalizing network and MNS mediates the conversational exchange of introspection. To test this, we performed hyperscanning functional magnetic resonance imaging during structured real-time conversations between 19 pairs of healthy participants. The participants first evaluated their preference for and familiarity with a presented object and then disclosed it. The control was the object feature identification task. When contrasted with the control, the preference/familiarity evaluation phase activated the dorso-medial prefrontal cortex, anterior cingulate cortex, precuneus, left hippocampus, right cerebellum, and orbital portion of the left inferior frontal gyrus (IFG), which represents introspection. The left IFG was activated when the two participants' statements of introspection were mismatched during the disclosure. Disclosing introspection enhanced the functional connectivity of the left IFG with the bilateral superior temporal gyrus and primary motor cortex, representing the auditory MNS. Thus, the mentalizing system and MNS are hierarchically linked in the left IFG during a conversation, allowing for the sharing of introspection of the self and others. [ABSTRACT FROM AUTHOR]

Published

2023

32. Distinct Thalamic and Frontal Neuroanatomical Substrates in Children with Familial vs. Non-Familial Attention-Deficit/Hyperactivity Disorder (ADHD).

Author

Baboli, Rahman, Cao, Meng, Halperin, Jeffery M., and Li, Xiaobo

Subjects

*ATTENTION-deficit hyperactivity disorder, *PREFRONTAL cortex, *GRAY matter (Nerve tissue), *CEREBRAL cortical thinning

Abstract

Attention-deficit/hyperactivity disorder (ADHD) is a highly prevalent, inheritable, and heterogeneous neurodevelopmental disorder. Children with a family history of ADHD are at elevated risk of having ADHD and persisting its symptoms into adulthood. The objective of this study was to investigate the influence of having or not having positive family risk factor in the neuroanatomy of the brain in children with ADHD. Cortical thickness-, surface area-, and volume-based measures were extracted and compared in a total of 606 participants, including 132, 165, and 309 in groups of familial ADHD (ADHD-F), non-familial ADHD (ADHD-NF), and typically developed children, respectively. Compared to controls, ADHD probands showed significantly reduced gray matter surface area in the left cuneus. Among the ADHD subgroups, ADHD-F showed significantly increased gray matter volume in the right thalamus and significantly thinner cortical thickness in the right pars orbitalis. Among ADHD-F, an increased volume of the right thalamus was significantly correlated with a reduced DSM-oriented t-score for ADHD problems. The findings of this study may suggest that a positive family history of ADHD is associated with the structural abnormalities in the thalamus and inferior frontal gyrus; these anatomical abnormalities may significantly contribute to the emergence of ADHD symptoms. [ABSTRACT FROM AUTHOR]

Published

2023

33. Resisting Visual, Phonological, and Semantic Interference - Same or Different Processes? A Focused Mini-Review.

Author

Grégoire, Coline and Majerus, Steve

Subjects

*PHONOLOGICAL encoding, *PREFRONTAL cortex

Abstract

The unitary nature of resistance to interference (RI) processes remains a strongly debated question: are they central cognitive processes or are they specific to the stimulus domains on which they operate? This focused mini-review examines behavioral, neuropsychological and neuroimaging evidence for and against domaingeneral RI processes, by distinguishing visual, verbal phonological and verbal semantic domains. Behavioral studies highlighted overall low associations between RI capacity across domains. Neuropsychological studies mainly report dissociations for RI abilities between the three domains. Neuroimaging studies highlight a left vs. right hemisphere distinction for verbal vs. visual RI, with furthermore distinct neural processes supporting phonological versus semantic RI in the left inferior frontal gyrus. While overall results appear to support the hypothesis of domain-specific RI processes, we discuss a number of methodological caveats that ask for caution in the interpretation of existing studies. [ABSTRACT FROM AUTHOR]

Published

2023

34. Functional magnetic resonance imaging study of children's brain development in phonological processing and speeded naming

Author

Zeyu Song, Zhenqi Jiang, Yingwei Fan, Liang Lu, Zhao Zhang, Yifei Wang, Yu Chen, Lifei Liu, Xiaoying Tang, and Hanjun Li

Subjects

functional magnetic resonance imaging, inferior frontal gyrus, mediating effect analysis, phonological processing and speeded naming, posterior cingulate gyrus, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract The brain structure and language skills of children are understood to be in a phase of rapid development and are especially represented by key phonological‐semantic expressions that actively develop with age. In the present study, resting‐state functional magnetic resonance imaging data from 85 healthy children were retrospectively analyzed. Correlations of the phonological processing and speeded naming of specific brain regions of interest with age were assessed using the fractional amplitude of low‐frequency fluctuations (fALFF), degree centrality (DC), regional homogeneity (ReHo), and chain mediation effect analysis. Our results suggest that the developmental stages of children's posterior cingulate gyrus (PCC) and right inferior frontal gyrus (IFG) mediate language development in children. Additionally, the functional similarity of the bilateral IFG triangular part was noted during development as was the stronger activation and higher local and whole‐brain connectivity of the left IFG triangular part. Moreover, the PCC displayed stronger activation and higher local connectivity in the same period. Our data suggest that the development of the PCC and right IFG and the similarity of bilateral IFG function are important imaging markers of phonological processing and speeded naming in children and that the PCC and IFG show a more comprehensive development with age.

Published

2023

35. Resisting Visual, Phonological, and Semantic Interference – Same or Different Processes? A Focused Mini-Review

Author

Coline Grégoire and Steve Majerus

Subjects

resistance to interference, interference, domain-general, domain-specific, inferior frontal gyrus, Psychology, BF1-990

Abstract

The unitary nature of resistance to interference (RI) processes remains a strongly debated question: are they central cognitive processes or are they specific to the stimulus domains on which they operate? This focused mini-review examines behavioral, neuropsychological and neuroimaging evidence for and against domain-general RI processes, by distinguishing visual, verbal phonological and verbal semantic domains. Behavioral studies highlighted overall low associations between RI capacity across domains. Neuropsychological studies mainly report dissociations for RI abilities between the three domains. Neuroimaging studies highlight a left vs. right hemisphere distinction for verbal vs. visual RI, with furthermore distinct neural processes supporting phonological versus semantic RI in the left inferior frontal gyrus. While overall results appear to support the hypothesis of domain-specific RI processes, we discuss a number of methodological caveats that ask for caution in the interpretation of existing studies.

Published

2023

36. Letter and Category Fluency Performance Correlates with Distinct Patterns of Cortical Thickness in Older Adults.

Author

Vonk, Jet MJ, Rizvi, Batool, Lao, Patrick J, Budge, Mariana, Manly, Jennifer J, Mayeux, Richard, and Brickman, Adam M

Subjects

Biological Psychology, Cognitive and Computational Psychology, Psychology, Prevention, Behavioral and Social Science, Neurosciences, Brain Disorders, Basic Behavioral and Social Science, 1.1 Normal biological development and functioning, Underpinning research, Neurological, Aged, Aged, 80 and over, Aging, Brain Mapping, Cerebral Cortex, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Verbal Behavior, frontal, inferior frontal gyrus, phonemic fluency, semantic fluency, temporal, Cognitive Sciences, Experimental Psychology, Biological psychology, Cognitive and computational psychology

Abstract

Verbal fluency tasks are generally thought to be mediated by frontal brain regions for letter fluency and temporal regions for category fluency. This idea, however, is primarily based on lesion studies and adapted versions of the fluency tasks in functional neuroimaging, without fundamental evidence from structural neuroimaging in healthy individuals. We investigated the cortical structural correlates of letter and category fluency, including overlapping and different regions, in 505 individuals who participated in a community-based study of healthy aging. The correlation between cortical thickness and verbal fluency in whole-brain analyses revealed distinct cortical signatures for letter fluency, primarily in frontal regions, and category fluency, in frontal and temporal-parietal regions. There was a dissociation in the left inferior frontal gyrus between letter and category fluency, with increased thickness in the posterior-dorsal versus anterior-ventral parts, respectively. These results distinguish the detailed anatomical correlates for verbal fluency within the coarse frontal-temporal distinction inferred from lesion studies and among the mixture of regions identified in functional neuroimaging. The evidence for the anatomical substrates of letter and category fluency, each recruiting slightly different language and cognitive processes, can serve both clinical applications as well as a deeper theoretical understanding of the organization of the cerebral cortex.

Published

2019

37. Responses in left inferior frontal gyrus are altered for speech‐in‐noise processing, but not for clear speech in autism

Author

Stefanie Schelinski and Katharina vonKriegstein

Subjects

auditory, autism spectrum disorder, inferior frontal gyrus, speaker‐in‐noise recognition, speech‐in‐noise, speech recognition, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Introduction Autistic individuals often have difficulties with recognizing what another person is saying in noisy conditions such as in a crowded classroom or a restaurant. The underlying neural mechanisms of this speech perception difficulty are unclear. In typically developed individuals, three cerebral cortex regions are particularly related to speech‐in‐noise perception: the left inferior frontal gyrus (IFG), the right insula, and the left inferior parietal lobule (IPL). Here, we tested whether responses in these cerebral cortex regions are altered in speech‐in‐noise perception in autism. Methods Seventeen autistic adults and 17 typically developed controls (matched pairwise on age, sex, and IQ) performed an auditory‐only speech recognition task during functional magnetic resonance imaging (fMRI). Speech was presented either with noise (noise condition) or without noise (no noise condition, i.e., clear speech). Results In the left IFG, blood‐oxygenation‐level‐dependent (BOLD) responses were higher in the control compared to the autism group for recognizing speech‐in‐noise compared to clear speech. For this contrast, both groups had similar response magnitudes in the right insula and left IPL. Additionally, we replicated previous findings that BOLD responses in speech‐related and auditory brain regions (including bilateral superior temporal sulcus and Heschl's gyrus) for clear speech were similar in both groups and that voice identity recognition was impaired for clear and noisy speech in autism. Discussion Our findings show that in autism, the processing of speech is particularly reduced under noisy conditions in the left IFG—a dysfunction that might be important in explaining restricted speech comprehension in noisy environments.

Published

2023

38. Transdiagnostic brain correlates of self-reported trait impulsivity: A dimensional structure-symptom investigation

Author

Anna-Chiara Schaub, Marc Vogel, Undine E. Lang, Stefan Kaiser, Marc Walter, Marcus Herdener, Johannes Wrege, Matthias Kirschner, and André Schmidt

Subjects

Impulsivity, Anhedonia, Transdiagnostic, Inferior frontal gyrus, Putamen, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Impulsivity transcends psychiatric diagnoses and is often related to anhedonia. This ad hoc cross-sectional investigation explored 1) whether self-reported trait impulsivity mapped onto a common structural brain substrate across healthy controls (HCs) and psychiatric patients, and 2) in a more exploratory fashion, whether impulsivity and anhedonia were related to each other and shared overlapping brain correlates. Structural magnetic resonance imaging (sMRI) datasets from 234 participants including HCs (n = 109) and patients with opioid use disorder (OUD, n = 22), cocaine use disorder (CUD, n = 43), borderline personality disorder (BPD, n = 45) and schizophrenia (SZ, n = 15) were included. Trait impulsivity was measured with the Barratt Impulsiveness Scale (BIS-11) and anhedonia with a subscore of the Beck Depression Inventory (BDI). BIS-11 global score data were available for the entire sample, while data on the BIS-11 2nd order factors attentional, motor and non-planning were additionally in hand for a subsample consisting of HCs, OUD and BPD patients (n = 116). Voxel-based morphometry analyses were conducted for identifying dimensional associations between grey matter volume and impulsivity/anhedonia. Partial correlations were further performed to exploratory test the relationships between impulsivity and anhedonia and their corresponding volumetric brain substrates. Volume of the left opercular part of the inferior frontal gyrus (IFG) was negatively related to global impulsivity across the entire sample and specifically to motor impulsivity in the subsample of HCs, OUD and BPD patients. Across patients anhedonia expression was negatively correlated with left putamen volume. Although there was no relationship between global impulsivity and anhedonia across all patients, only across OUD and BPD patients anhedonia was positively associated with attentional impulsivity. Finally, also across OUD and BPD patients, motor impulsivity associated left IFG volume was positively linked with anhedonia-associated volume in the left putamen. Our findings suggest a critical role of left IFG volume in self-reported global impulsivity across healthy participants and patients with substance use disorder, BPD and SZ. Preliminary findings in OUD and BPD patients further suggests associations between impulsivity and anhedonia that are related to grey matter reductions in the left IFG and putamen.

Published

2023

39. Effects of tDCS during inhibitory control training on performance and PTSD, aggression and anxiety symptoms: a randomized-controlled trial in a military sample.

Author

Smits, Fenne M., Geuze, Elbert, Schutter, Dennis J. L. G., van Honk, Jack, and Gladwin, Thomas E.

Subjects

*PREFRONTAL cortex, *MILITARY education, *ANALYSIS of variance, *TIME, *SELF-evaluation, *POST-traumatic stress disorder, *HEALTH outcome assessment, *RANDOMIZED controlled trials, *PRE-tests & post-tests, *PSYCHOLOGICAL tests, *TRANSCRANIAL direct current stimulation, *BLIND experiment, *MENTAL depression, *QUESTIONNAIRES, *DESCRIPTIVE statistics, *RESEARCH funding, *AGGRESSION (Psychology), *ANXIETY, *COGNITIVE testing, *STATISTICAL sampling, *CLASSIFICATION of mental disorders, *MILITARY personnel

Abstract

Background: Post-traumatic stress disorder (PTSD), anxiety, and impulsive aggression are linked to transdiagnostic neurocognitive deficits. This includes impaired inhibitory control over inappropriate responses. Prior studies showed that inhibitory control can be improved by modulating the right inferior frontal gyrus (IFG) with transcranial direct current stimulation (tDCS) in combination with inhibitory control training. However, its clinical potential remains unclear. We therefore aimed to replicate a tDCS-enhanced inhibitory control training in a clinical sample and test whether this reduces stress-related mental health symptoms. Methods: In a preregistered double-blind randomized-controlled trial, 100 active-duty military personnel and post-active veterans with PTSD, anxiety, or impulsive aggression symptoms underwent a 5-session intervention where a stop-signal response inhibition training was combined with anodal tDCS over the right IFG for 20 min at 1.25 mA. Inhibitory control was evaluated with the emotional go/no-go task and implicit association test. Stress-related symptoms were assessed by self-report at baseline, post-intervention, and after 3-months and 1-year follow-ups. Results: Active relative to sham tDCS neither influenced performance during inhibitory control training nor on assessment tasks, and did also not significantly influence self-reported symptoms of PTSD, anxiety, impulsive aggression, or depression at post-assessment or follow-up. Conclusions: Our results do not support the idea that anodal tDCS over the right IFG at 1.25 mA enhances response inhibition training in a clinical sample, or that this tDCS-training combination can reduce stress-related symptoms. Applying different tDCS parameters or combining tDCS with more challenging tasks might provide better conditions to modulate cognitive functioning and stress-related symptoms. [ABSTRACT FROM AUTHOR]

Published

2022

40. Characterization of structural and functional network organization after focal prefrontal lesions in humans in proof of principle study.

Author

Noonan, Maryann P., Geddes, Maiya R., Mars, Rogier B., and Fellows, Lesley K.

Subjects

*PREFRONTAL cortex, *PROOF of concept, *LARGE-scale brain networks, *WHITE matter (Nerve tissue), *MAGNETIC resonance imaging

Abstract

Lesion research classically maps behavioral effects of focal damage to the directly injured brain region. However, such damage can also have distant effects that can be assessed with modern imaging methods. Furthermore, the combination and comparison of imaging methods in a lesion model may shed light on the biological basis of structural and functional networks in the healthy brain. We characterized network organization assessed with multiple MRI imaging modalities in 13 patients with chronic focal damage affecting either superior or inferior frontal gyrus (SFG, IFG) and 18 demographically matched healthy Controls. We first defined structural and functional network parameters in Controls and then investigated grey matter (GM) and white matter (WM) differences between patients and Controls. Finally, we examined the differences in functional coupling to large-scale resting state networks (RSNs). The results suggest lesions are associated with widespread within-network GM loss at distal sites, yet leave WM and RSNs relatively preserved. Lesions to either prefrontal region also had a similar relative level of impact on structural and functional networks. The findings provide initial evidence for causal contributions of specific prefrontal regions to brain networks in humans that will ultimately help to refine models of the human brain. [ABSTRACT FROM AUTHOR]

Published

2022

41. Effects of tDCS applied over the left IFG and pSTG language areas on verb recognition task performance.

Author

Rivera‐Urbina, Guadalupe Nathzidy, Martínez‐Castañeda, María Franshely, Núñez‐Gómez, Ana María, Molero‐Chamizo, Andrés, Nitsche, Michael A., and Alameda‐Bailén, José Ramón

Subjects

*RECOGNITION (Psychology), *VERBS, *TEMPORAL lobe, *TASK performance, *PREFRONTAL cortex, *BRAIN stimulation

Abstract

Knowledge about the relevance of the left inferior frontal gyrus (lIFG) and the left posterior superior temporal gyrus (lpSTG) in visual recognition of word categories is limited at present. tDCS is a non‐invasive brain stimulation method that alters cortical activity and excitability, and thus might be a useful tool for delineating the specific impact of both areas on word recognition. The objective of this study was to explore whether the visual recognition process of verb categories is improved by a single tDCS session. lIFG and lpSTG areas were separately modulated by anodal tDCS to evaluate its effects on verbal recognition. Compared to sham stimulation, motor reaction times (RTs) were reduced after anodal tDCS over the lpSTG, and this effect was independent of the performing hand (right/left). These findings suggest that this region is involved in visual word recognition independently from the performing hand. The involvement of the left inferior frontal (lIFG) and posterior superior temporal (lpSTG) gyrus as typical language areas in verb recognition is uncertain. We explore the specific contribution of these areas to verb recognition via tDCS. Reaction times were reduced after anodal, but not sham, tDCS over the lpSTG. These findings reveal for the first time that lpSTG neuromodulation improves verb recognition. [ABSTRACT FROM AUTHOR]

Published

2022

42. Comparing transcranial direct current stimulation and transcranial random noise stimulation over left dorsolateral prefrontal cortex and left inferior frontal gyrus: Effects on divergent and convergent thinking.

Author

Peña, Javier, Sampedro, Agurne, Balboa-Bandeira, Yolanda, Ibarretxe-Bilbao, Naroa, Zubiaurre-Elorza, Leire, García-Guerrero, M. Acebo, and Ojeda, Natalia

Abstract

The essential role of creativity has been highlighted in several human knowledge areas. Regarding the neural underpinnings of creativity, there is evidence about the role of left dorsolateral prefrontal cortex (DLPFC) and left inferior frontal gyrus (IFG) on divergent thinking (DT) and convergent thinking (CT). Transcranial stimulation studies suggest that the left DLPFC is associated with both DT and CT, whereas left IFG is more related to DT. However, none of the previous studies have targeted both hubs simultaneously and compared transcranial direct current stimulation (tDCS) and random noise stimulation (tRNS). Additionally, given the relationship between cognitive flexibility and creativity, we included it in order to check if the improvement in creativity may be mediated by cognitive flexibility. In this double-blind, between-subjects study, 66 healthy participants were randomly assigned to one of three groups (N = 22) that received a transcranial direct current stimulation (tDCS), transcranial random noise stimulation (tRNS), or sham for 20 min. The tDCS group received 1.5 mA with the anode over the left DLPFC and cathode over the left IFG. Locations in tRNS group were the same and they received 1.5 mA of high frequency tRNS (100–500 Hz). Divergent thinking was assessed before (baseline) and during stimulation with unusual uses (UU) and picture completion (PC) subtests from Torrance Creative thinking Test, whereas convergent thinking was evaluated with the remote association test (RAT). Stroop test was included to assess cognitive flexibility. ANCOVA results of performance under stimulation (controlling for baseline performance) showed that there were significant differences in PC (F = 3.35, p = 0.042, n2p = 0.10) but not in UU (F = 0.61, p = 0.546) and RAT (F = 2.65, p = 0.079) scores. Post-hoc analyses showed that tRNS group had significantly higher scores compared to sham (p = 0.004) in PC. More specifically, tRNS showed higher performance in fluency (p = 0.012) and originality (p = 0.021) dimensions of PC compared to sham. Regarding cognitive flexibility, we did not find any significant effect of any of the stimulation groups (F = 0.34, p = 0.711). Therefore, no further mediation analyses were performed. Finally, the group that received tDCS reported more adverse effects than sham group (F = 3.46, p = 0.035). Altogether, these results suggest that tRNS may have some advantages over tDCS in DT. [ABSTRACT FROM AUTHOR]

Published

2022

43. Knowing what you feel: Inferior frontal gyrus-based structural and functional neural patterns underpinning adaptive body awareness.

Author

Luo, Lin, Xiao, Mingyue, Luo, Yijun, Yi, Haijing, Dong, Debo, Liu, Yong, Chen, Ximei, Li, Wei, and Chen, Hong

Subjects

*BRAIN, *GRAY matter (Nerve tissue), *FRONTAL lobe, *NEURAL pathways, *MAGNETIC resonance imaging, *BRAIN mapping

Abstract

Background: Heightened body awareness (BA) is conducive for increasing understanding of bodily state and improves individuals' health and well-being. Although there has been cumulative research concentrating on the self-perceived tendency to focus on negatively valenced interoceptive sensations, the specific structural and functional neural patterns underlying BA and their role in the relationship between BA and individual well-being remain unclear.Methods: Voxel-based morphometry and whole brain functional connectivity analyses were conducted to examine the structural and functional neural patterns, respectively, in 686 healthy subjects. BA and subjective well-being were assessed using questionnaires.Results: BA was inversely related to gray matter volume of the right inferior frontal gyrus, opercular part (IFGoperc). Higher BA was correlated with enhanced IFGoperc-precuneus and IFGoperc-anterior supramarginal gyrus connectivities, and with decreased IFGoperc-lateral occipital cortex and IFGoperc-medial frontal cortex connectivities. The inferior frontal gyrus, triangular part (in the fronto-parietal task control network) acted as the hub that linked the sensory/somatomotor network, the default mode network, and the dorsal and ventral attention network. The IFGoperc-precuneus connectivity moderated the association between BA and subjective well-being.Limitations: We were unable to rank all the networks by their relative importance, because the absolute weighted value in each module was not calculated.Conclusion: Our findings demonstrated that BA was reflected by specific neural patterns mainly involved in cognitive-affective control, attentional and self-referential processing, as well as multisensory integration, which could offer some references for current therapies (e.g., mindfulness, yoga training) that are dedicated to solving health problems and improving individual well-being. [ABSTRACT FROM AUTHOR]

Published

2022

44. Decision flexibilities in autism spectrum disorder: an fMRI study of moral dilemmas.

Author

Tei, Shisei, Tanicha, Mizuki, Itahashi, Takashi, Aoki, Yuta Y, Ohta, Haruhisa, Qian, Chenyu, Hashimoto, Ryu-ichiro, Nakamura, Motoaki, Takahashi, Hidehiko, Kato, Nobumasa, and Fujino, Junya

Subjects

*AUTISM spectrum disorders, *FUNCTIONAL magnetic resonance imaging, *ETHICAL problems, *PREFRONTAL cortex, *SOCIAL conflict

Abstract

People make flexible decisions across a wide range of contexts to resolve social or moral conflicts. Individuals with autism spectrum disorder (ASD) frequently report difficulties in such behaviors, which hinders the flexibility in changing strategies during daily activities or adjustment of perspective during communication. However, the underlying mechanisms of this issue are insufficiently understood. This study aimed to investigate decision flexibility in ASD using a functional magnetic resonance imaging task that involved recognizing and resolving two types of moral dilemmas: cost–benefit analysis (CBA) and mitigating inevitable misconducts (MIM). The CBA session assessed the participants' pitting of result-oriented outcomes against distressful harmful actions, whereas the MIM session assessed their pitting of the extenuation of a criminal sentence against a sympathetic situation of defendants suffering from violence or disease. The behavioral outcome in CBA-related flexibility was significantly lower in the ASD group compared to that of the typical development group. In the corresponding CBA contrast, activation in the left inferior frontal gyrus was lower in the ASD group. Meanwhile, in the MIM-related flexibility, there were no significant group differences in behavioral outcome or brain activity. Our findings add to our understanding of flexible decision-making in ASD. [ABSTRACT FROM AUTHOR]

Published

2022

45. Meta-analytic connectivity modeling of the left and right inferior frontal gyri.

Author

Bulut, Talat

Subjects

FUNCTIONAL connectivity, PREFRONTAL cortex, BROCA'S area, META-analysis, BRAIN mapping, BRAIN physiology, FRONTAL lobe, RESEARCH, CEREBRAL dominance, RESEARCH methodology, MAGNETIC resonance imaging, EVALUATION research, COMPARATIVE studies

Abstract

Background: Neurocognitive models of language processing highlight the role of the left inferior frontal gyrus (IFG) in the functional network underlying language. Furthermore, neuroscience research has shown that IFG is not a uniform region anatomically, cytoarchitectonically or functionally. However, no previous study explored the language-related functional connectivity patterns of IFG subdivisions using a meta-analytic connectivity modeling (MACM) approach.Purpose: The present MACM study aimed to identify language-related coactivation patterns of the left and right IFG subdivisions.Method: Six regions of interest (ROIs) were defined using a probabilistic brain atlas corresponding to pars opercularis, pars triangularis and pars orbitalis of IFG in both hemispheres. The ROIs were used to search the BrainMap functional database to identify neuroimaging experiments with healthy, right-handed participants reporting language-related activations in each ROI. Activation likelihood estimation analyses were then performed on the foci extracted from the identified studies to compute functional convergence for each ROI, which was also contrasted with the other ROIs within the same hemisphere.Results: A primarily left-lateralized functional network was revealed for the left and right IFG subdivisions. The left-hemispheric ROIs exhibited more robust coactivation than the right-hemispheric ROIs. Particularly, the left pars opercularis was associated with the most extensive coactivation pattern involving bilateral frontal, bilateral parietal, left temporal, left subcortical, and right cerebellar regions, while the left pars triangularis and orbitalis revealed a predominantly left-lateralized involvement of frontotemporal regions.Conclusion: The findings align with the neurocognitive models of language processing that propose a division of labor among the left IFG subdivisions and their respective functional networks. Also, the opercular part of left IFG stands out as a major hub in the language network with connections to diverse cortical, subcortical and cerebellar structures. [ABSTRACT FROM AUTHOR]

Published

2022

46. Syntax

Author

Kinno, Ryuta, Chang, Edward, Friederici, Angela D., Mandonnet, Emmanuel, editor, and Herbet, Guillaume, editor

Published

2021

47. Cortical morphology of the pars opercularis and its relationship to motor-inhibitory performance in a longitudinal, developing cohort.

Author

Curley, Lauren B, Newman, Erik, Thompson, Wesley K, Brown, Timothy T, Hagler, Donald J, Akshoomoff, Natacha, Reuter, Chase, Dale, Anders M, and Jernigan, Terry L

Subjects

Humans, Brain Mapping, Cohort Studies, Motor Activity, Reaction Time, Image Processing, Computer-Assisted, Adolescent, Child, Female, Male, Functional Laterality, Signal Detection, Psychological, Neuroimaging, Broca Area, Inhibition, Psychological, Brain development, Cortical surface area, Cortical thickness, Inferior frontal gyrus, Magnetic resonance imaging, Motor inhibition, Pediatric, Basic Behavioral and Social Science, Clinical Research, Behavioral and Social Science, Neurological, Neurosciences, Medical Physiology, Cognitive Sciences, Developmental Biology, Neurology & Neurosurgery

Abstract

This study investigates the relationship between variability in cortical surface area and thickness of the pars opercularis of the inferior frontal gyrus and motor-inhibitory performance on a stop-signal task in a longitudinal, typically developing cohort of children and adolescents. Linear mixed-effects models were used to investigate the hypotheses that (1) cortical thinning and (2) a relatively larger cortical surface area of the bilateral pars opercularis of the inferior frontal gyrus would predict better performance on the stop-signal task in a cohort of 110 children and adolescents 4-13 years of age, with one to four observations (totaling 232 observations). Cortical thickness of the bilateral opercular region was not related to inhibitory performance. However, independent of age, gender, and total cortical surface area, relatively larger cortical surface area of the bilateral opercular region of the inferior frontal gyrus was associated with better motor-inhibitory performance. Follow-up analyses showed a significant effect of surface area of the right pars opercularis, but no evidence for an effect of area of left pars opercularis, on motor-inhibitory performance. These findings are consistent with the previous work in adults showing that cortical morphology of the pars opercularis is related to inhibitory functioning. It also expands upon this literature by showing that, in contrast to earlier work highlighting the importance of cortical thickness of this region in adults, relative cortical surface area of the pars opercularis may be related to developing motor-inhibitory functions during childhood and adolescence. Relationships between cortical phenotypes and individual differences in behavioral measures may vary across the lifespan.

Published

2018

48. Comparing transcranial direct current stimulation and transcranial random noise stimulation over left dorsolateral prefrontal cortex and left inferior frontal gyrus: Effects on divergent and convergent thinking

Author

Javier Peña, Agurne Sampedro, Yolanda Balboa-Bandeira, Naroa Ibarretxe-Bilbao, Leire Zubiaurre-Elorza, M. Acebo García-Guerrero, and Natalia Ojeda

Subjects

transcranial direct current stimulation, transcranial random noise stimulation, divergent thinking, convergent thinking, dorsolateral prefrontal cortex, inferior frontal gyrus, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The essential role of creativity has been highlighted in several human knowledge areas. Regarding the neural underpinnings of creativity, there is evidence about the role of left dorsolateral prefrontal cortex (DLPFC) and left inferior frontal gyrus (IFG) on divergent thinking (DT) and convergent thinking (CT). Transcranial stimulation studies suggest that the left DLPFC is associated with both DT and CT, whereas left IFG is more related to DT. However, none of the previous studies have targeted both hubs simultaneously and compared transcranial direct current stimulation (tDCS) and random noise stimulation (tRNS). Additionally, given the relationship between cognitive flexibility and creativity, we included it in order to check if the improvement in creativity may be mediated by cognitive flexibility. In this double-blind, between-subjects study, 66 healthy participants were randomly assigned to one of three groups (N = 22) that received a transcranial direct current stimulation (tDCS), transcranial random noise stimulation (tRNS), or sham for 20 min. The tDCS group received 1.5 mA with the anode over the left DLPFC and cathode over the left IFG. Locations in tRNS group were the same and they received 1.5 mA of high frequency tRNS (100–500 Hz). Divergent thinking was assessed before (baseline) and during stimulation with unusual uses (UU) and picture completion (PC) subtests from Torrance Creative thinking Test, whereas convergent thinking was evaluated with the remote association test (RAT). Stroop test was included to assess cognitive flexibility. ANCOVA results of performance under stimulation (controlling for baseline performance) showed that there were significant differences in PC (F = 3.35, p = 0.042, np2 = 0.10) but not in UU (F = 0.61, p = 0.546) and RAT (F = 2.65, p = 0.079) scores. Post-hoc analyses showed that tRNS group had significantly higher scores compared to sham (p = 0.004) in PC. More specifically, tRNS showed higher performance in fluency (p = 0.012) and originality (p = 0.021) dimensions of PC compared to sham. Regarding cognitive flexibility, we did not find any significant effect of any of the stimulation groups (F = 0.34, p = 0.711). Therefore, no further mediation analyses were performed. Finally, the group that received tDCS reported more adverse effects than sham group (F = 3.46, p = 0.035). Altogether, these results suggest that tRNS may have some advantages over tDCS in DT.

Published

2022

49. 'One region to control them all'-the surprising effectiveness of network control theory in predicting post-stroke recovery from aphasia.

Author

Popova, Mariia, Fakhar, Kayson, and Braun, Wilhelm

Subjects

APHASIA, PREFRONTAL cortex, CONTROL theory (Engineering)

Published

2022

50. A prospective investigation of youth alcohol experimentation and reward responsivity in the ABCD study.

Author

May, April C., Jacobus, Joanna, Simmons, Alan N., and Tapert, Susan F.

Subjects

ALCOHOL drinking, RISK-taking behavior, PREFRONTAL cortex, AT-risk youth, ALCOHOL, SUPPORT vector machines, NUCLEUS accumbens

Abstract

Rationale: Greater risk-taking behaviors, such as alcohol experimentation, are associated with different patterns of brain functioning in regions implicated in reward (nucleus accumbens, NA) and cognitive control (inferior frontal gyrus, IFG). These neural features have been observed in youth with greater risk-taking tendencies prior to substance use initiation, suggesting NA-IFG disruption may serve as an early marker for subsequent substance use disorders. Prospective studies are needed to determine if NA-IFG neural disruption predicts future substance use in school-age children, including those with minimal use of alcohol (e.g., sipping). The present large-sample prospective study sought to use machine learning to: (1) examine alcohol sipping at ages 9, 10 as a potential behavioral indicator of concurrent underlying altered neural responsivity to reward, and (2) determine if alcohol sipping and NA-IFG activation at ages 9, 10 can be used to predict which youth reported increased alcohol use at ages 11, 12. Additionally, low-level alcohol use and brain functioning at ages 9, 10 were examined as predictors of substance use and brain functioning at ages 11, 12. Design and methods: This project used data from the baseline (Time 1) and two-year follow-up (Time 2) assessments of the Adolescent Brain Cognitive Development (ABCD) Study (Release 3.0). Support Vector Machine (SVM) learning determined if: (1) NA-IFG neural activity could correctly identify youth who reported alcohol sipping at Time 1 (n = 7409, mean age = 119.34 months, SD = 7.53; 50.27% female), and (2) NA-IFG and alcohol sipping frequency at Time 1 could correctly identify youth who reported drinking alcohol at Time 2 (n = 4000, mean age = 143.25 months, SD = 7.63; 47.53% female). Linear regression was also used to examine the relationship between alcohol sipping and NA-IFG activity at Time 1 and substance use and NA-IFG activity at Time 2. Data were also examined to characterize the environmental context in which youth first tried sips of alcohol (e.g., with or without parental permission, as part of a religious experience). Results: Approximately 24% of the sample reported having tried sips of alcohol by ages 9, 10. On average, youth reported trying sips of alcohol 4.87 times (SD = 23.19) with age of first sip occurring at 7.36 years old (SD = 1.91). The first SVM model classified youth according to alcohol sipping status at Time 1 no better than chance with an accuracy of 0.35 (balanced accuracy = 0.52, sensitivity = 0.24, specificity = 0.80). The second SVM model classified youth according to alcohol drinking status at Time 2 with an accuracy of 0.76 (balanced accuracy = 0.56, sensitivity = 0.21, specificity = 0.91). Linear regression demonstrated that frequency of alcohol sipping at Time 1 predicted frequency of alcohol use at Time 2 (p < 0.001, adjusted R2 = 0.075). Alcohol sipping at Time 1 was not linearly associated with NA or IFG activity at Time 2 (all ps > 0.05), and NA activity at Time 1 and Time 2 were not related (all ps > 0.05). Activity in the three subsections of the IFG at Time 1 predicted activity in those same regions at Time 2 (all ps < 0.02). Conclusions and implications: Early sips of alcohol appear to predict alcohol use in early adolescence. Findings do not provide strong evidence for minimal early alcohol use (sipping) as a behavioral marker of underlying alterations in NA-IFG neural responsivity to reward. Improving our understanding of the neural and behavioral factors that indicate a greater propensity for future substance use is crucial for identifying at-risk youth and potential targets for preventative efforts. [ABSTRACT FROM AUTHOR]

Published

2022