Your search keyword '"SALIENCE network"' showing total 2,569 results

1. Situating the salience and parietal memory networks in the context of multiple parallel distributed networks using precision functional mapping

Author

Kwon, Young Hye, Salvo, Joseph J., Anderson, Nathan L., Edmonds, Donnisa, Holubecki, Ania M., Lakshman, Maya, Yoo, Kwangsun, Yeo, B.T. Thomas, Kay, Kendrick, Gratton, Caterina, and Braga, Rodrigo M.

Published

2025

2. Resting state EEG source derived salience network theta connectivity mediates anxiety in community dwelling individuals reporting childhood trauma

Author

Jaiswal, Satish, Nan, Jason, Purpura, Suzanna R., Manchanda, James K., Yogaratnam, Niranjala, Ramanathan, Dhakshin, and Mishra, Jyoti

Published

2025

3. Functional connectivity profiles in remitted depression and their relation to ruminative thinking

Author

Fang, Zhuo, Lynn, Emma, Knott, Verner J., and Jaworska, Natalia

Published

2025

4. Neural correlates of thought–action fusion and their associations with rumination in patients with major depressive disorder

Author

Lee, Sang Won, Kim, Seungho, Lee, Hansol, Chang, Yongmin, and Lee, Seung Jae

Published

2024

5. Lack of mental integration and emotion dysregulation as a possible long-term effect of dysfunctional parenting: An EEG study of functional connectivity before and after the exposure to attachment-related stimuli

Author

Carbone, Giuseppe A., Farina, Benedetto, Lo Presti, Aurelia, Adenzato, Mauro, Imperatori, Claudio, and Ardito, Rita B.

Published

2025

6. Salience network resting state functional connectivity during airway inflammation in asthma: A feature of mental health resilience?

Author

Laubacher, Claire, Imhoff-Smith, Theodore P., Klaus, Danika R., Frye, Corrina J., Esnault, Stephane, Busse, William W., and Rosenkranz, Melissa A.

Published

2024

7. Neural Signatures of Cognitive Control Predict Future Adolescent Substance Use Onset and Frequency

Author

Chen, Ya-Yun, Lindenmuth, Morgan, Lee, Tae-Ho, Lee, Jacob, Casas, Brooks, and Kim-Spoon, Jungmeen

Published

2024

8. The interplay between insomnia symptoms and Alzheimer’s disease across three main brain networks

Author

Elberse, Jorik D, Saberi, Amin, Ahmadi, Reihaneh, Changizi, Monir, Bi, Hanwen, Hoffstaedter, Felix, Mander, Bryce A, Eickhoff, Simon B, Tahmasian, Masoud, and Initiative, Alzheimer’s Disease Neuroimaging

Subjects

Biological Psychology, Psychology, Aging, Clinical Research, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Acquired Cognitive Impairment, Basic Behavioral and Social Science, Neurodegenerative, Alzheimer's Disease, Neurosciences, Mental Health, Behavioral and Social Science, Brain Disorders, Dementia, 2.1 Biological and endogenous factors, 2.3 Psychological, social and economic factors, Neurological, Humans, Alzheimer Disease, Sleep Initiation and Maintenance Disorders, Male, Female, Aged, Cognitive Dysfunction, Brain, Magnetic Resonance Imaging, Nerve Net, Gray Matter, Aged, 80 and over, Default Mode Network, insomnia, Alzheimer's disease, mild cognitive impairment, default mode network, salience network, central executive network, Alzheimer’s disease, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Neurology & Neurosurgery, Biological sciences, Biomedical and clinical sciences

Abstract

Study objectivesInsomnia symptoms are prevalent along the trajectory of Alzheimer's disease (AD), but the neurobiological underpinning of their interaction is poorly understood. Here, we assessed structural and functional brain measures within and between the default mode network (DMN), salience network, and central executive network (CEN).MethodsWe selected 320 participants from the ADNI database and divided them by their diagnosis: cognitively normal (CN), Mild Cognitive Impairment (MCI), and AD, with and without self-reported insomnia symptoms. We measured the gray matter volume (GMV), structural covariance (SC), degrees centrality (DC), and functional connectivity (FC), testing the effect and interaction of insomnia symptoms and diagnosis on each index. Subsequently, we performed a within-group linear regression across each network and ROI. Finally, we correlated observed abnormalities with changes in cognitive and affective scores.ResultsInsomnia symptoms were associated with FC alterations across all groups. The AD group also demonstrated an interaction between insomnia and diagnosis. Within-group analyses revealed that in CN and MCI, insomnia symptoms were characterized by within-network hyperconnectivity, while in AD, within- and between-network hypoconnectivity was ubiquitous. SC and GMV alterations were nonsignificant in the presence of insomnia symptoms, and DC indices only showed network-level alterations in the CEN of AD individuals. Abnormal FC within and between DMN and CEN hubs was additionally associated with reduced cognitive function across all groups, and increased depressive symptoms in AD.ConclusionsWe conclude that patients with clinical AD present with a unique pattern of insomnia-related functional alterations, highlighting the profound interaction between both conditions.

Published

2024

9. Wanting to matter and learning to care: A neurodevelopmental window of opportunity for (Pro) social learning?

Author

Dahl, Ronald, Armstrong-Carter, Emma, and van den Bos, Wouter

Subjects

Adolescent development, Hypothalamus, Mattering, Prosocial development, Pubertal maturation, Salience network

Abstract

Wanting to matter-to feel socially recognized, appreciated, and capable of actions that benefit others-represents a fundamental motivation in human development. The motivational salience of mattering appears to increase in adolescence. Evidence suggests this is related to pubertal increases in the incentive salience for gaining social value and personal agency. This can provide a useful heuristic for understanding motivational proclivities (i.e. wanting to matter) that influence action-outcome learning as young adolescents are exploring and learning how to navigate increasingly complex social and relational environments. Adolescence also brings new capacities, motives, and opportunities for learning to care about and contribute to the benefit of others. Together, these create a window of opportunity: a sensitive period for learning to gain salient feelings of mattering through caring prosocial actions and valued societal contributions. Successfully discovering ways of mattering by doing things that matter to others may contribute to formative socio-emotional learning about self/other. Advances in understanding these social and relational learning processes and their neurodevelopmental underpinnings can inform strategies to improve developmental trajectories of social competence and wellbeing among adolescents growing up in a rapidly changing and increasingly techno-centric world.

Published

2024

10. A systematic review in effects of glucagon-like peptide-1 (GLP-1) mono-agonists on functional connectivity: Target engagement and rationale for the development in mental disorders.

Author

Au, Hezekiah C.T., Zheng, Yang Jing, Le, Gia Han, Wong, Sabrina, Phan, Lee, Teopiz, Kayla M., Kwan, Angela T.H., Rhee, Taeho Greg, Rosenblat, Joshua D., Ho, Roger, and McIntyre, Roger S.

Subjects

*DEFAULT mode network, *FUNCTIONAL connectivity, *SALIENCE network, *SOLITARY nucleus, *PREFRONTAL cortex

Abstract

The mechanistic role of glucagon-like peptide-1 (GLP-1) and GLP-1 receptor agonists (GLP-1RAs) in modulating brain functional activity has been inadequately examined. Mental disorders are characterized by dysregulated functional connectivity in brain circuits that subserve phenomenology. We conducted a comprehensive synthesis of known effects of GLP-1 and GLP-1RAs on functional connectivity. We conducted a systematic review examining studies that investigate changes in functional connectivity mediated by GLP-1 and GLP-1RAs in human adults. Relevant articles were retrieved from OVID (MedLine, Embase, AMED, PsychINFO, JBI EBP Database), PubMed, and Web of Science from database inception to April 26, 2024. Primary or secondary studies (n = 8) investigating the role of GLP-1 and GLP-1RAs on functional connectivity were included for analysis. GLP-1 and GLP-1RAs modulate functional connectivity within the dorsal default mode network (DMN), visuospatial network, right frontal parietal network, and the salience network. GLP-1 agonism is also associated with decreased functional connectivity within the hypothalamus, lateral orbitofrontal cortex, and amygdala. Contrastingly, some GLP-1RAs (e.g. exenatide) increase functional connectivity in the hypothalamus, nucleus tractus solitarius, and thalamus. Moreover, liraglutide is associated with increased functional connectivity within the hippocampus in healthy individuals suggesting that GLP-1RAs may have differential effects on brain functional connectivity. We observed that GLP-1 and GLP-1 RAs are associated with changes in functional connectivity known to subserve phenomenology of many mental disorders (e.g. anhedonia). Future research should aim to further examine neural circuits and networks affected by GLP-1 receptor activity and how they may affect cognitive and psychopathological domains in psychiatric disorders. • GLP-1 and GLP-1RAs modulate functional connectivity in dorsal default mode network. • GLP-1 and GLP-1RAs modulate functional connectivity in visuospatial network. • GLP-1 and GLP-1RAs modulate functional connectivity in right frontal parietal network. • GLP-1 and GLP-1RAs modulate functional connectivity in salience network. [ABSTRACT FROM AUTHOR]

Published

2025

11. Functional connectivity associations with menstrual pain characteristics in adolescents: an investigation of the triple network model.

Author

Payne, Laura A., Seidman, Laura C., Napadow, Vitaly, Nickerson, Lisa D., and Kumar, Poornima

Subjects

*LARGE-scale brain networks, *FRONTOPARIETAL network, *DEFAULT mode network, *SALIENCE network, *FUNCTIONAL magnetic resonance imaging

Abstract

Supplemental Digital Content is Available in the Text. Menstrual pain severity, interference, and cumulative menstrual pain exposure were associated with functional connectivity of 3 key brain networks in adolescent girls with menstrual pain. Menstrual pain is associated with deficits in central pain processing, yet neuroimaging studies to date have all been limited by focusing on group comparisons of adult women with vs without menstrual pain. This study aimed to investigate the role of the triple network model (TNM) of brain networks in adolescent girls with varied menstrual pain severity ratings. One hundred participants (ages 13-19 years) completed a 6-min resting state functional magnetic resonance imaging (fMRI) scan and rated menstrual pain severity, menstrual pain interference, and cumulative menstrual pain exposure. Imaging analyses included age and gynecological age (years since menarche) as covariates. Menstrual pain severity was positively associated with functional connectivity between the cingulo-opercular salience network (cSN) and the sensory processing regions, limbic regions, and insula, and was also positively associated with connectivity between the left central executive network (CEN) and posterior regions. Menstrual pain interference was positively associated with connectivity between the cSN and widespread brain areas. In addition, menstrual pain interference was positively associated with connectivity within the left CEN, whereas connectivity both within the right CEN and between the right CEN and cortical areas outside the network (including the insula) were negatively associated with menstrual pain interference. Cumulative menstrual pain exposure shared a strong negative association with connectivity between the default mode network and other widespread regions associated with large-scale brain networks. These findings support a key role for the involvement of TNM brain networks in menstrual pain characteristics and suggest that alterations in pain processing exist in adolescents with varying levels of menstrual pain. [ABSTRACT FROM AUTHOR]

Published

2025

12. Atypical brain network topology of the triple network and cortico-subcortical network in autism spectrum disorder.

Author

Zhu, Jun-Sa, Gong, Qi, Zhao, Mei-Ting, and Jiao, Yun

Subjects

*DEFAULT mode network, *FUNCTIONAL magnetic resonance imaging, *AUTISM spectrum disorders, *SALIENCE network, *LARGE-scale brain networks

Abstract

• We explore the core brain networks of ASD using a graph theory approach. • The efficient topology of the target brain network in ASD is damaged. • Topological alterations are more severe in adolescents than in children. The default mode network (DMN), salience network (SN), and central executive control network (CEN) form the well-known triple network, providing a framework for understanding various neurodevelopmental and psychiatric disorders. However, the topology of this network remains unclear in autism spectrum disorder (ASD). To gain a more profound understanding of ASD, we explored the topology of the triple network in ASD. Additionally, the striatum and thalamus are pivotal centres of information transmission within the brain, and the realization of various brain functions requires the coordination of cortical and subcortical structures. Therefore, we also investigated the topology of the cortico-subcortical network in ASD, which consists of the DMN, SN, CEN, striatum, and thalamus. Resting-state functional magnetic resonance imaging data on 208 ASD patients and 278 typically developing (TD) controls (8–18 years old) were obtained from the Autism Brain Imaging Data Exchange database. We performed graph theory analysis on the triple network and the cortico-subcortical network. The results showed that the triple network's clustering coefficient, lambda, and network local efficiency values were significantly lower in ASD, and the nodal degree and efficiency of the medial prefrontal cortex also decreased. For the cortico-subcortical network, the sigma, clustering coefficient, gamma, and network local efficiency showed the same reduction, and the altered clustering coefficient negatively correlated with ASD manifestations. In addition, the interaction between the DMN and CEN was more robust in ASD patients. These findings enhance our understanding of ASD and suggest that subcortical structures should be more considered in future ASD related studies. [ABSTRACT FROM AUTHOR]

Published

2025

13. Investigation of functional connectivity differences based on anxiety tendencies.

Author

Oishi, Misuzu, Sakurai, Noriko, Kawasaki, Yuki, Sasaki, Kei, Kasai, Satoshi, and Kodama, Naoki

Subjects

FUNCTIONAL magnetic resonance imaging, SALIENCE network, PSYCHOLOGICAL tests, PARIETAL lobe, GENERAL Health Questionnaire

Abstract

Introduction: Anxiety is an emotion necessary for human survival. However, persistent and excessive anxiety can be clinically challenging. Increased anxiety affects daily life and requires early detection and intervention. Therefore, a better understanding of the neural basis of mild anxiety is needed. However, previous studies have focused primarily on resting-state functional magnetic resonance imaging (rs-fMRI) in patients with psychiatric disorders presenting with anxiety. Notably, only a few studies have been conducted on healthy participants, and the relationship between anxiety and functional brain connectivity in the healthy range remains unclear. Therefore, in this study, we aimed to clarify the differences in functional brain connectivity at different degrees of anxiety among healthy participants. Methods: This study included 48 healthy participants with no history of psychiatric disorders. Participants were administered The General Health Questionnaire (GHQ) 60, a psychological test for assessing anxiety, and the Manifest Anxiety Scale (MAS). The participants then underwent rs-fMRI. Based on the results of each psychological test, the participants were classified into normal and anxiety groups, and the functional connectivity between the two groups was compared using a seed-to-voxel analysis. Results: Comparison of functional brain connectivity between the normal and anxiety groups classified based on the GHQ60 and MAS revealed differences between brain regions comprising the salience network (SN) in both psychological tests. For the GHQ60, the anxiety group showed reduced connectivity between the right supramarginal gyrus and insular cortex compared with the normal group. However, for the MAS, the anxiety group showed reduced connectivity between the right supramarginal and anterior cingulate cortical gyri compared with the normal group. Conclusion: Functional connectivity within the SN was reduced in the group with higher anxiety when functional brain connectivity at different anxiety levels was examined in healthy participants. This suggests that anxiety is involved in changes in the functional brain connectivity associated with emotional processing and cognitive control. [ABSTRACT FROM AUTHOR]

Published

2024

14. Alterations in large-scale resting-state network nodes following transcranial focused ultrasound of deep brain structures.

Author

Gorka, Stephanie M., Jimmy, Jagan, Koning, Katherine, Phan, K. Luan, Rotstein, Natalie, Hoang-Dang, Bianca, Halavi, Sabrina, Spivak, Norman, Monti, Martin M., Reggente, Nicco, Bookheimer, Susan Y., and Kuhn, Taylor P.

Subjects

LARGE-scale brain networks, DEFAULT mode network, FUNCTIONAL magnetic resonance imaging, FRONTOPARIETAL network, SALIENCE network

Abstract

Background: Low-intensity transcranial focused ultrasound (tFUS) is a brain stimulation approach that holds promise for the treatment of brain-based disorders. Studies in humans have shown that tFUS can successfully modulate perfusion in focal sonication targets, including the amygdala; however, limited research has explored how tFUS impacts large-scale neural networks. Objective: The aim of the current study was to address this gap and examine changes in resting-state connectivity between large-scale network nodes using a randomized, double-blind, within-subjects crossover study design. Methods: Healthy adults (n = 18) completed two tFUS sessions, 14 days apart. Each session included tFUS of either the right amygdala or the left entorhinal cortex (ErC). The inclusion of two active targets allowed for within-subjects comparisons as a function of the locus of sonication. Resting-state functional magnetic resonance imaging was collected before and after each tFUS session. Results: tFUS altered resting-state functional connectivity (rsFC) within and between rs-network nodes. Pre-to-post sonication of the right amygdala modulated connectivity within nodes of the salience network (SAN) and between nodes of the SAN and the default mode network (DMN) and frontoparietal network (FRP). A decrease in SAN to FPN connectivity was specific to the amygdala target. Pre-to-post sonication of the left ErC modulated connectivity between the dorsal attention network (DAN) and FPN and DMN. An increase in DAN to DMN connectivity was specific to the ErC target. Conclusion: These preliminary findings may suggest that tFUS induces neuroplastic changes beyond the immediate sonication target. Additional studies are needed to determine the long-term stability of these effects. [ABSTRACT FROM AUTHOR]

Published

2024

15. Advances in brain and religion studies: a review and synthesis of recent representative studies.

Author

McNamara, Patrick and Grafman, Jordan

Subjects

DEFAULT mode network, FRONTOPARIETAL network, SALIENCE network, DREAMS, NEUROSCIENCES

Abstract

We review and synthesize recent religion and brain studies and find that at a broad network neuroscience level, religious/spiritual experiences (RSEs) appear to depend crucially upon interactions between the default mode network (DMN), the frontoparietal network (FPN), and the salience network (SN). We see this general result as broadly consistent with Menon's et al. "Triple Network or Tripartite Model" (TPM) of neuropsychiatric function/dysfunction. A TPM cycling model is here offered to account for details of neural bases of an array of RSE phenomena including ecstatic seizures, neuroimaging of religious participants, psychedelically induced mystical states and perceptions of supernatural agents. To adequately account for SA perceptions, however, recent evidence suggests that REM sleep and dreaming mechanisms likely play a role. Future research should examine neurodevelopmental mechanisms of acquired SA perceptions as well as societal-level effects such as brain mediated religious beliefs of in-group cohesion and out-group hostility. [ABSTRACT FROM AUTHOR]

Published

2024

16. Evidence for convergence of distributed cortical processing in band-like functional zones in human entorhinal cortex.

Author

Reznik, Daniel, Margulies, Daniel S., Witter, Menno P., and Doeller, Christian F.

Subjects

*ANATOMY, *HUMAN anatomy, *TEMPORAL lobe, *CEREBRAL cortex, *FRONTOPARIETAL network, *ENTORHINAL cortex

Abstract

The wide array of cognitive functions associated with the hippocampus is supported through interactions with the cerebral cortex. However, most of the direct cortical input to the hippocampus originates in the entorhinal cortex, forming the hippocampal-entorhinal system. In humans, the role of the entorhinal cortex in mediating hippocampal-cortical interactions remains unknown. In this study, we used precision neuroimaging to examine the distributed cortical anatomy associated with the human hippocampal-entorhinal system. Consistent with animal anatomy, our results associate different subregions of the entorhinal cortex with different parts of the hippocampus long axis. Furthermore, we find that the entorhinal cortex comprises three band-like zones that are associated with functionally distinct cortical networks. Importantly, the entorhinal cortex bands traverse the proposed human homologs of rodent lateral and medial entorhinal cortices. Finally, we show that the entorhinal cortex is a major convergence area of distributed cortical processing and that the topography of cortical networks associated with the anterior medial temporal lobe mirrors the macroscale structure of high-order cortical processing. • Human entorhinal cortex (ERC) is organized into three parallel band-like zones • Functionally distinct cortical networks associate with distinct ERC bands • Different longitudinal parts of the hippocampus associate with distinct ERC bands • Human ERC is a major convergence hub of distributed cortical processing Using precision neuroimaging, Reznik et al. discover that the human entorhinal cortex is organized into three band-like zones running in parallel to the collateral sulcus. Consistent with animal anatomy, these entorhinal cortex bands associate with functionally distinct cortical networks and different parts of the hippocampus long axis. [ABSTRACT FROM AUTHOR]

Published

2024

17. Early Salience Signals Predict Interindividual Asymmetry in Decision Accuracy Across Rewarding and Punishing Contexts.

Author

Westwood, Sean and Philiastides, Marios G.

Subjects

*REINFORCEMENT learning, *SALIENCE network, *NEURAL pathways, *PUPILLOMETRY, *MOTIVATION (Psychology)

Abstract

Asymmetry in choice patterns across rewarding and punishing contexts has long been observed in behavioural economics. Within existing theories of reinforcement learning, the mechanistic account of these behavioural differences is still debated. We propose that motivational salience—the degree of bottom‐up attention attracted by a stimulus with relation to motivational goals—offers a potential mechanism to modulate stimulus value updating and decision policy. In a probabilistic reversal learning task, we identified post‐feedback signals from EEG and pupillometry that captured differential activity with respect to rewarding and punishing contexts. We show that the degree of between‐context distinction in these signals predicts interindividual asymmetries in decision accuracy. Finally, we contextualise these effects in relation to the neural pathways that are currently centred in theories of reward and punishment learning, demonstrating how the motivational salience network could plausibly fit into a range of existing frameworks. [ABSTRACT FROM AUTHOR]

Published

2024

18. Deficient salience and default mode functional integration in high worry-proneness subject: a connectome-wide association study.

Author

Zhang, Youxue, Duan, Mingjun, and He, Hui

Abstract

Worry has been conceptualized as a relatively uncontrollable chain of thought that increases the risk of mental problems, such as anxiety disorders. Here, we examined the link between individual variation in the functional connectome and worry proneness, which remains unclear. A total of 32 high worry-proneness (HWP) subjects and 25 low worry-proneness (LWP) subjects were recruited. We conducted multivariate distance-based matrix regression to identify phenotypic relationships in high-dimensional brain resting-state functional connectivity data from HWP subjects. Multiple hub regions, including key brain nodes of the salience network (SN) and default mode network (DMN), were identified in HWP subjects. Follow-up analyses revealed that a high worry-proneness score was dominated by functional connectivity between the SN and the DMN. Moreover, HWP subjects showed hypoconnectivity between the cerebellum and the SN and DMN compared with LWP subjects. This cross-sectional study could not fully measure the causal relationships between changes in functional networks and worry proneness in healthy subjects. Functional changes in the cerebellum-cortical region might affect the modulation of external stimuli processing. Together, our results provide new insight into the role of key networks, including the SN, DMN and cerebellum, in understanding the potential mechanism underlying the high worry dimension in healthy subjects. [ABSTRACT FROM AUTHOR]

Published

2024

19. Telehealth-delivered cognitive behavioral therapy - a potential solution to improve sleep quality and normalize the salience network in fibromyalgia: a pilot randomized trial.

Author

Nhu, Nguyen Thanh, Wong, Cheng-Ze, Chen, Ivy Y., Jan, Ya-Wen, and Kang, Jiunn-Horng

Abstract

Our study investigated the associations between the clinical benefits of telehealth-delivered cognitive behavioral therapy for insomnia (tele-CBT-I) and the salience network in fibromyalgia (FM). Thirty-five FM patients with comorbid insomnia were recruited and assigned into two groups: the tele-CBT-I group (n = 17) or the treatment-as-usual (TAU) group (n = 18). At baseline and post-treatment, clinical status was assessed using standardized scales, including the Insomnia Severity Index (ISI), Brief Pain Inventory, Numeric Pain Rating scale, Beck Depression Intervention version II, Beck Anxiety Intervention, Situational Fatigue Scale, and Fibromyalgia Impact Questionnaires. Resting-state functional magnetic resonance imaging was collected. We compared within- and between-group differences in clinical changes and functional connectivity (FC) of the salience network. A factor analysis of significant FCs was performed. Correlation analyses between clinical symptoms and salience FCs were conducted. The tele-CBT-I group showed sleep quality improvements after treatment that were greater than those in the TAU group (p-value = 0.038). After treatment, tele-CBT-I decreased FCs of cortical regions and increased FCs of subcortical regions compared to the TAU group. Additionally, factor analysis grouped the significant FCs into cortical factors and subcortical factors. The cortical factor value, representing the involvement of specific cortical regions of the salience network by the factor analysis, was significantly associated with ISI scores in the tele-CBT-I group (p-value = 0.0002). In conclusion, tele-CBT-I might be an adjuvant approach to improve sleep quality and normalize cortical and subcortical functions of the salience network in FM patients with comorbid insomnia. [ABSTRACT FROM AUTHOR]

Published

2024

20. Prenatal Exposure to Maternal Mood Entropy Is Associated With a Weakened and Inflexible Salience Network in Adolescence.

Author

Jirsaraie, Robert, Palma, Anton, Davis, Elysia, Glynn, Laura, Small, Steven, Sandman, Curt, Baram, Tallie Z, Stern, Hal, and Yassa, Michael

Subjects

Dysregulation, Emotional processing, Maternal mood entropy, Neurodevelopment, Salience network, fMRI, Humans, Adolescent, Pregnancy, Female, Prenatal Exposure Delayed Effects, Longitudinal Studies, Entropy, Prospective Studies, Brain

Abstract

BACKGROUND: Fetal exposure to maternal mood dysregulation influences child cognitive and emotional development, which may have long-lasting implications for mental health. However, the neurobiological alterations associated with this dimension of adversity have yet to be explored. Here, we tested the hypothesis that fetal exposure to entropy, a novel index of dysregulated maternal mood, would predict the integrity of the salience network, which is involved in emotional processing. METHODS: A sample of 138 child-mother pairs (70 females) participated in this prospective longitudinal study. Maternal negative mood level and entropy (an index of variable and unpredictable mood) were assessed 5 times during pregnancy. Adolescents engaged in a functional magnetic resonance imaging task that was acquired between 2 resting-state scans. Changes in network integrity were analyzed using mixed-effect and latent growth curve models. The amplitude of low frequency fluctuations was analyzed to corroborate findings. RESULTS: Prenatal maternal mood entropy, but not mood level, was associated with salience network integrity. Both prenatal negative mood level and entropy were associated with the amplitude of low frequency fluctuations of the salience network. Latent class analysis yielded 2 profiles based on changes in network integrity across all functional magnetic resonance imaging sequences. The profile that exhibited little variation in network connectivity (i.e., inflexibility) consisted of adolescents who were exposed to higher negative maternal mood levels and more entropy. CONCLUSIONS: These findings suggest that fetal exposure to maternal mood dysregulation is associated with a weakened and inflexible salience network. More broadly, they identify maternal mood entropy as a novel marker of early adversity that exhibits long-lasting associations with offspring brain development.

Published

2024

21. Diminished attention network activity and heightened salience-default mode transitions in generalized anxiety disorder: Evidence from resting-state EEG microstate analysis.

Author

Hao, Xinyu, Ma, Mohan, Meng, Fanyu, Liang, Hui, Liang, Chunyu, Liu, Xiaoya, Zhang, Bo, Ju, Yumeng, Liu, Shuang, and Ming, Dong

Subjects

*FUNCTIONAL magnetic resonance imaging, *GENERALIZED anxiety disorder, *DEFAULT mode network, *SLEEP interruptions, *SALIENCE network, *ANXIETY disorders

Abstract

Generalized anxiety disorder (GAD) is a common anxiety disorder characterized by excessive, uncontrollable worry and physical symptoms such as difficulty concentrating and sleep disturbances. Although functional magnetic resonance imaging (fMRI) studies have reported aberrant network-level activity related to cognition and emotion in GAD, its low temporal resolution restricts its ability to capture the rapid neural activity in mental processes. EEG microstate analysis offers millisecond-resolution for tracking the dynamic changes in brain electrical activity, thereby illuminating the neurophysiological mechanisms underlying the cognitive and emotional dysfunctions in GAD. This study collected 64-channel resting-state EEG data from 28 GAD patients and 28 healthy controls (HC), identifying five microstate classes (A-E) in both groups. Results showed that GAD patients exhibited significantly lower duration (p < 0.01), occurrence (p < 0.05), and coverage (p < 0.01) of microstate class D, potentially reflecting deficits in attention-related networks. Such alterations may contribute to the impairments in attention maintenance and cognitive control. Additionally, GAD patients displayed reduced transition probabilities in A → D, B → D, C → D, and E → D (all corrected p < 0.05), but increased in C → E (corrected p < 0.05) and E → C (corrected p < 0.01). These results highlight a significant reduction in the brain's ability to transition into microstate class D, alongside overactivity in switching between the default mode network and the salience network. Such neurophysiological changes may underlie cognitive control deficits, increased spontaneous rumination, and emotional regulation challenges observed in GAD. Together, these insights provide a new perspective for understanding the neurophysiological and pathological mechanisms underlying GAD. • GAD have significantly lower duration, occurrence, and coverage of microstate class D, reflecting attention network deficits. • Lower transition probabilities to microstate class D in GAD suggest reduced flexibility in maintaining attention. • Increased C → E and E → C transition probabilities in GAD indicate excessive switching between the DMN and the SN. [ABSTRACT FROM AUTHOR]

Published

2025

22. Attention and emotion in adolescents with ADHD; a time-varying functional connectivity study.

Author

Rafi, Halima, Samson, Jessica Lee, Rudloff, Juan Barrios, Poznyak, Elena, Gauthey, Melissa, Perroud, Nader, and Debbané, Martin

Subjects

*FUNCTIONAL magnetic resonance imaging, *SALIENCE network, *ATTENTION-deficit hyperactivity disorder, *FUNCTIONAL connectivity, *ADOLESCENT development

Abstract

This study assessed adolescent brain-behavior relationships between large-scale dynamic functional network connectivity (FNC) and an integrated attention-deficit/hyperactivity disorder (ADHD) phenotype, including measures of inattention, impulsivity/hyperactivity and emotional dysregulation. Despite emotion dysregulation being a core clinical feature of ADHD, studies rarely assess its impact on large-scale FNC. We conducted resting-state functional magnetic resonance imaging in 78 adolescents (34 with ADHD) and obtained experimental and self-reported measures of inattention, impulsivity/hyperactivity, and emotional reactivity. We used multivariate analyses to evaluate group differences in dynamic FNC between the default mode, salience and central executive networks, meta-state functional connectivity and ADHD symptomology. We present two significant group*behavior effects. Compared to controls, adolescents with ADHD had 1) diminished salience network-centered dynamic FNC that was driven by an integrated ADHD phenotype (p <.004, r = 0.57) and 2) more variable patterns of global connectivity, as measured through meta-state analysis, which were driven by heightened emotional reactivity (p <.002, r = 0.63). Atypical patterns of dynamic FNC in adolescents with ADHD are associated with the affective and cognitive components of ADHD symptomology. Limitations include sample size and self-reported measures of emotional reactivity. • Adolescent ADHD studies often overlook how emotion dysregulation impacts brain-behavior links. • Dynamic functional connectivity analysis links ADHD to reduced salience network FC, which correlates with symptom severity. • Adolescents with ADHD have atypical global connectivity which relates specifically to emotional dysregulation. • Considering a comprehensive ADHD phenotype enhances understanding of brain-behavior in ADHD. [ABSTRACT FROM AUTHOR]

Published

2025

23. Alterations in functional connectivity in the salience network shared by depressive symptoms and smartphone overuse

Author

Seonkyoung Lee, Yongjeon Cheong, Jihyeong Ro, Jihyun Bae, and Minyoung Jung

Subjects

Smartphone overuse, Depressive symptoms, Children, Functional connectivity, Salience network, Medicine, Science

Abstract

Abstract Globally, the age when children start using smartphones has decreased. Concurrently, the increased use of smartphones among children in developmental stages has caused serious effects, such as depression. While neuroimaging studies have predicted a significant overlap between the neurobiological changes caused by depression and smartphone overuse, few have simultaneously examined them. Therefore, we examined resting-state functional connectivity (FC) changes due to smartphone overuse and depressive symptoms in 69 children. We observed that FC in the salience network and regions involved in visual (e.g., the lateral occipital cortex) and motivational processing (e.g., the putamen) increased with smartphone overuse and depressive symptoms. Additionally, FC partially mediated the relationship between depressive symptoms and smartphone overuse, suggesting that changes in FC may be involved in the link between depressive symptoms and smartphone overuse. Our findings indicate that increased depressive symptoms could be associated with alterations in the salience network FC, which may influence visual attention or reward processing of salient stimuli, potentially contributing to smartphone overuse.

Published

2024

24. How Distributed Subcortical Integration of Reward and Threat May Inform Subsequent Approach–Avoidance Decisions.

Author

Hulsman, Anneloes M., Klaassen, Felix H., de Voogd, Lycia D., Roelofs, Karin, and Klumpers, Floris

Subjects

*SALIENCE network, *CINGULATE cortex, *FUNCTIONAL magnetic resonance imaging, *THALAMUS, *ELECTRIC stimulation, *AMYGDALOID body

Abstract

Healthy and successful living involves carefully navigating rewarding and threatening situations by balancing approach and avoidance behaviors. Excessive avoidance to evade potential threats often leads to forfeiting potential rewards. However, little is known about how reward and threat information is integrated neurally to inform approach or avoidance. In this preregistered study, participants (Nbehavior = 31, 17F; NMRI= 28, 15F) made approach–avoidance decisions under varying reward (monetary gains) and threat (electrical stimulations) prospects during functional MRI scanning. In contrast to theorized parallel subcortical processing of reward and threat information before cortical integration, Bayesian multivariate multilevel analyses revealed subcortical reward and threat integration prior to indicating approach–avoidance decisions. This integration occurred in the ventral striatum, thalamus, and bed nucleus of the stria terminalis (BNST). When reward was low, risk-diminishing avoidance decisions dominated, which was linked to more positive tracking of threat magnitude prior to indicating avoidance than approach decisions. In contrast, the amygdala exhibited dual sensitivity to reward and threat. While anticipating outcomes of risky approach decisions, we observed positive tracking of threat magnitude within the salience network (dorsal anterior cingulate cortex, thalamus, periaqueductal gray, BNST). Conversely, after risk-diminishing avoidance, characterized by reduced reward prospects, we observed more negative tracking of reward magnitude in the ventromedial prefrontal cortex and ventral striatum. These findings shed light on the temporal dynamics of approach–avoidance decision-making. Importantly, they demonstrate the role of subcortical integration ofreward and threat information in balancing approach and avoidance, challenging theories positing predominantly separate subcortical processing prior to cortical integration. [ABSTRACT FROM AUTHOR]

Published

2024

25. Characterization of changes in the resting-state intrinsic network in patients with diabetic peripheral neuropathy.

Author

Zhang, Dongsheng, Huang, Yang, Guan, Yitong, Zhang, Xiaoling, Pan, Peichun, Yan, Xuejiao, Lei, Xiaoyan, Tang, Min, Ai, Kai, and Gao, Jie

Subjects

*TYPE 2 diabetes, *DEFAULT mode network, *FUNCTIONAL magnetic resonance imaging, *LARGE-scale brain networks, *SALIENCE network

Abstract

Diabetic peripheral neuropathy (DPN) is the most common complication of type 2 diabetes mellitus (T2DM) and is often accompanied by a variety of cognitive and emotional deficits, but the neurologic mechanisms underlying these deficits have not been fully elucidated. Therefore, this study aimed to use independent component analysis to explore the changes in the characteristics within the intrinsic network and to reveal patterns of interactions between networks in patients with DPN. Forty-one patients with T2DM who showed DPN, 37 patients with T2DM who did not show DPN (NDPN group), and 43 healthy controls (HC) underwent a neuropsychological assessment and resting-state functional magnetic resonance imaging examinations to examine the patterns of intra- and inter-network variations in the patients with T2DM at different clinical stages (with and without DPN). The relationships of intra- and inter-network functional connectivity (FC) with clinical/cognitive variables were also examined. In comparison with the NDPN group and HC, patients with DPN showed decreased FC within the visual network and sensorimotor network (SMN). Moreover, in comparison with the HC group, patients with DPN showed decreased FC within the anterior default mode network and increased FC within the basal ganglia network. Inter-network analysis showed decreased FC between the SMN and salience network in patients with DPN relative to the NDPN and HC groups. The decreased FC within the bilateral paracentral lobule (BA 6) of SMN was associated with Color Trails Test part 1 scores (r = -0.302, P = 0.007) and disease duration (r = -0.328, P = 0.003) in all patients with T2DM. In conclusion, the results revealed that patients with DPN have abnormal FC in multiple resting-state intrinsic networks in addition to the SMN, and that decreased FC between the SMN and salience network may be involved in the neural basis of abnormal sensorimotor function in patients with DPN. [ABSTRACT FROM AUTHOR]

Published

2024

26. Integration patterns of functional brain networks can predict the response to abdominal acupuncture in patients with major depressive disorder.

Author

Ma, Lan, Chen, Shiyin, Zhang, Yue, Qin, Xin, and Wu, Xiao

Subjects

*FUNCTIONAL magnetic resonance imaging, *DEFAULT mode network, *MENTAL depression, *FUNCTIONAL connectivity, *SALIENCE network

Abstract

[Display omitted] • A RCT study to investigate the efficacy of abdominal acupuncture for MDD patients. • Acupuncture can treat MDD by regulating the integration of functional networks. • It's the first time provided a marker to predict the efficacy of acupuncture. Abdominal acupuncture has definite efficacy for major depressive disorder (MDD). Our study examined how abdominal acupuncture regulates the integration within and between brain networks of MDD patients by neuroimaging and whether this functional integration can predict the efficacy. Forty-six female MDD patients were randomly divided into a fluoxetine + real acupuncture group (n = 22) and a fluoxetine + sham acupuncture group (n = 24). The differences in functional magnetic resonance imaging data in the intra- and inter-network functional connectivity (FC) of the default mode network (DMN), affective network (AN), salience network (SN), and cognitive control network (CCN) between the two groups were analyzed. The FCs in brain regions with the inter-group differences and support vector regression were used to predict the efficacy of abdominal acupuncture. Our results showed: that the intra- and inter-network FCs of DMN, AN, SN, and CCN could be changed by abdominal acupuncture. Using the baseline FCs within AN and DMN or AN–DMN as characteristics, combined with support vector regression, could better predict the efficacy of acupuncture. Our study suggests that abdominal acupuncture could treat MDD by regulating the integration of the functional networks DMN, AN, SN, and CCN. The baseline FCs within the DMN and AN or between them could be used as neural markers for predicting the efficacy of abdominal acupuncture. [ABSTRACT FROM AUTHOR]

Published

2024

27. Altered cingulate gyrus subregions functional connectivity in chronic insomnia disorder with anxiety.

Author

Zhang, Hongyu, Zhao, Zeran, Zhang, Shang, Luo, Wecheng, Liu, Xin, and Gong, Liang

Subjects

*DEFAULT mode network, *SALIENCE network, *FUNCTIONAL magnetic resonance imaging, *LARGE-scale brain networks, *PREFRONTAL cortex

Abstract

Chronic insomnia disorder (CID) is commonly associated with mood disorders. The cingulate gyrus (CG) plays a critical role in the pathophysiology of CID and anxiety. However, the specific characteristics of altered brain networks in the CG in CID with anxiety remain unclear. This study aimed to investigate the characteristics of CG functional connectivity (FC) in CID with and without anxiety. Methods: Resting-state functional magnetic resonance imaging was conducted on 92 CID and 36 healthy controls (HC). CID was divided into CID with anxiety (CID-A, N = 37) and CID without anxiety (CID-NA, N = 55) groups based on anxiety scores. Using the Human Brainnetome Atlas, the subregion CG FC network was constructed. Compared with HC, CID showed significantly decreased CG FC with the precuneus, middle frontal gyrus (MFG), and hippocampus, while showing significantly increased CG FC with the middle temporal gyrus (MTG)/superior temporal gyrus (STG). In contrast, CID-A showed significantly decreased CG FC with the salience network (insular, putamen) and default mode network (MTG/STG and inferior parietal lobule), while showing significantly increased CG FC with the thalamus and MFG compared to CID-NA. Further, CID-A and CID-NA could be classified with 84.21 % accuracy by using the CG FCs as features. Among these features, the CG FC with MFG, thalamus, and putamen had the highest contribution weights. This study revealed specific changes in the brain network of the CG subregion in CID-A. Understanding these CG FC alterations can help identify potential biomarkers specific to CID-A, which may be valuable for early detection and differentiation from other CID subtypes. • To explore the cingulate gyrus (CG) subregions FC alteration in CID with anxiety (CID-A). • CID-A shown specific CG FC with default mode network and salience network. • Machine learning with CG FC features classifies CID-A accurately at 84.21 %. • The CG subregional FC alterations may contribute to potential biomarkers for CID-A. [ABSTRACT FROM AUTHOR]

Published

2024

28. Acute Stress Increases Striatal Connectivity With Cortical Regions Enriched for μ and κ Opioid Receptors.

Author

Zhukovsky, Peter, Ironside, Maria, Duda, Jessica M., Moser, Amelia D., Null, Kaylee E., Dhaynaut, Maeva, Normandin, Marc, Guehl, Nicolas J., El Fakhri, Georges, Alexander, Madeline, Holsen, Laura M., Misra, Madhusmita, Narendran, Rajesh, Hoye, Jocelyn M., Morris, Evan D., Esfand, Shiba M., Goldstein, Jill M., and Pizzagalli, Diego A.

Subjects

*PARTIAL least squares regression, *DEFAULT mode network, *POSITRON emission tomography, *FRONTOPARIETAL network, *SALIENCE network, *OPIOID receptors

Abstract

Understanding the neurobiological effects of stress is critical for addressing the etiology of major depressive disorder (MDD). Using a dimensional approach involving individuals with differing degree of MDD risk, we investigated 1) the effects of acute stress on cortico-cortical and subcortical-cortical functional connectivity (FC) and 2) how such effects are related to gene expression and receptor maps. Across 115 participants (37 control, 39 remitted MDD, 39 current MDD), we evaluated the effects of stress on FC during the Montreal Imaging Stress Task. Using partial least squares regression, we investigated genes whose expression in the Allen Human Brain Atlas was associated with anatomical patterns of stress-related FC change. Finally, we correlated stress-related FC change maps with opioid and GABA A (gamma-aminobutyric acid A) receptor distribution maps derived from positron emission tomography. Results revealed robust effects of stress on global cortical connectivity, with increased global FC in frontoparietal and attentional networks and decreased global FC in the medial default mode network. Moreover, robust increases emerged in FC of the caudate, putamen, and amygdala with regions from the ventral attention/salience network, frontoparietal network, and motor networks. Such regions showed preferential expression of genes involved in cell-to-cell signaling (OPRM1 , OPRK1 , SST , GABRA3 , GABRA5), similar to previous genetic MDD studies. Acute stress altered global cortical connectivity and increased striatal connectivity with cortical regions that express genes that have previously been associated with imaging abnormalities in MDD and are rich in μ and κ opioid receptors. These findings point to overlapping circuitry underlying stress response, reward, and MDD. [ABSTRACT FROM AUTHOR]

Published

2024

29. Predicting Clinical Improvement in Early Psychosis Using Circuit-Based Resting-State Functional Magnetic Resonance Imaging.

Author

Smucny, Jason, Lesh, Tyler A, Albuquerque, Marina D, Rhilinger, Joshua P, and Carter, Cameron S

Subjects

PREDICTIVE tests, EARLY medical intervention, FUNCTIONAL connectivity, RESEARCH funding, LOGISTIC regression analysis, REFERENCE books, MAGNETIC resonance imaging, CHI-squared test, ANTIPSYCHOTIC agents, DESCRIPTIVE statistics, TREATMENT effectiveness, SCHIZOPHRENIA, DEFAULT mode network, CHLORPROMAZINE, LARGE-scale brain networks, PSYCHOSES, NEURORADIOLOGY, BIOMARKERS, REGRESSION analysis

Abstract

Background and Hypothesis Identifying biomarkers that predict treatment response in early psychosis (EP) is a priority for psychiatry research. Previous work suggests that resting-state connectivity biomarkers may have promise as predictive measures, although prior results vary considerably in direction and magnitude. Here, we evaluated the relationship between intrinsic functional connectivity of the attention, default mode, and salience resting-state networks and 12-month clinical improvement in EP. Study Design Fifty-eight individuals with EP (less than 2 years from illness onset, 35 males, average age 20 years) had baseline and follow-up clinical data and were included in the final sample. Of these, 30 EPs showed greater than 20% improvement in Brief Psychiatric Rating Scale (BPRS) total score at follow-up and were classified as "Improvers." Study Results The overall logistic regression predicting Improver status was significant (χ2 = 23.66, Nagelkerke's R 2 = 0.45, P  < .001, with 85% concordance). Significant individual predictors of Improver status included higher default mode within-network connectivity, higher attention-default mode between-network connectivity, and higher attention-salience between-network connectivity. Including baseline BPRS as a predictor increased model significance and concordance to 92%, and the model was not significantly influenced by the dose of antipsychotic medication (chlorpromazine equivalents). Linear regression models predicting percent change in BPRS were also significant. Conclusions Overall, these results suggest that resting-state functional magnetic resonance imaging connectivity may serve as a useful biomarker of clinical outcomes in recent-onset psychosis. [ABSTRACT FROM AUTHOR]

Published

2024

30. Prediction of pharmacological treatment efficacy using electroencephalography-based salience network in patients with major depressive disorder.

Author

Kang-Min Choi, Taegyeong Lee, Chang-Hwan Im, and Seung-Hwan Lee

Subjects

SALIENCE network, MENTAL depression, LARGE-scale brain networks, CINGULATE cortex, DRUG therapy

Abstract

Introduction: Recent resting-state electroencephalogram (EEG) studies have consistently reported an association between aberrant functional brain networks (FBNs) and treatment-resistant traits in patients with major depressive disorder (MDD). However, little is known about the changes in FBNs in response to external stimuli in these patients. This study investigates whether changes in the salience network (SN) could predict responsiveness to pharmacological treatment in resting-state and external stimuli conditions. Methods: Thirty-one drug-naïve patients with MDD (aged 46.61 ± 10.05, female 28) and twenty-one healthy controls (aged 43.86 ± 14.14, female 19) participated in the study. After 8 weeks of pharmacological treatment, the patients were divided into non-remitted MDD (nrMDD, n = 14) and remitted-MDD (rMDD, n = 17) groups. EEG data under three conditions (resting-state, standard, and deviant) were analyzed. The SN was constructed with three cortical regions as nodes and weighted phase-lag index as edges, across alpha, low-beta, high-beta, and gamma bands. A repeated measures analysis of the variance model was used to examine the group-by-condition interaction. Machine learning-based classification analyses were also conducted between the nrMDD and rMDD groups. Results: A notable group-by-condition interaction was observed in the highbeta band between nrMDD and rMDD. Specifically, patients with nrMDD exhibited hypoconnectivity between the dorsal anterior cingulate cortex and right insula (p = 0.030). The classification analysis yielded a maximum classification accuracy of 80.65%. Conclusion: Our study suggests that abnormal condition-dependent changes in the SN could serve as potential predictors of pharmacological treatment efficacy in patients with MDD. [ABSTRACT FROM AUTHOR]

Published

2024

31. Meditation and interoception: a conceptual framework for the narrative and experiential self.

Author

Gibson, Jonathan Earl

Subjects

DEFAULT mode network, PERSONALITY assessment, SALIENCE network, NEURAL circuitry, SELF-perception, MINDFULNESS

Abstract

The concept of the self is complex and there is no consensus on what the self is. However, there are emerging patterns in the literature that point to two different selves, the narrative and experiential self. The narrative self refers to a conceptual or representational knowledge of the self that extends across time and manifests in self-reflection and personality assessments. The experiential self refers to firstperson perception, moment-to-moment awareness, embodiment, and a sense of agency. These two selves are reliably linked to two distinct neural circuits, the default mode network (DMN) and the insula and salience network (SN). One of the consistent themes in the meditative and mindfulness literature is a change in the perspective of the self. In this paper, I will review how meditation alters those neural circuits providing a plausible mechanism that can explain the changes in the self. I also propose a rudimentary conceptual framework to account for some of the mixed results found throughout meditation literature. [ABSTRACT FROM AUTHOR]

Published

2024

32. Multi-omics insights into the microbiota-gut-brain axis and cognitive improvement post-bariatric surgery.

Author

Xiang, Qiaoyuan, Yu, Minhua, Cai, Qi, Hu, Mengjie, Rao, Bo, Liang, Xin, Liu, Zhenxing, Xie, Yu, Cen, Kuan, Zhang, Renwei, Xu, Haibo, and Liu, Yumin

Subjects

*DEFAULT mode network, *GUT microbiome, *SALIENCE network, *LARGE-scale brain networks, *SLEEVE gastrectomy

Abstract

Background: Although numerous studies have shown that bariatric surgery results in sustained weight loss and modifications in gut microbiota composition and cognitive function, the exact underlying mechanisms are unclear. This study aimed to investigate the effects of bariatric surgery on cognitive function through the microbiota-gut-brain axis (MGBA). Methods: Demographic data, serum samples, fecal samples, cognitive assessment scales, and resting-state functional connectivity magnetic resonance imaging (rs-fMRI) scans were obtained from 39 obese patients before and after (6 months) laparoscopic sleeve gastrectomy (LSG). PCA analysis, OPLS-DA analysis, and permutation tests were used to conduct fecal 16 S microbiota profiling, serum metabolomics, and neuroimaging analyses, and a bariatric surgery-specific rs-fMRI brain functional connectivity network was constructed. Spearman correlation analysis and Co-inertia analysis were employed to correlate significant alterations in cognitive assessment scales and resting-state functional connectivity difference networks with differential serum metabolites and 16 S microbiota data to identify key gut microbiota and serum metabolic factors. Results: LSG significantly reduced the weight of obese patients, with reductions of up to 28%. Furthermore, cognitive assessment scale measurements revealed that LSG enhanced cognitive functions, including memory (HVLT, p = 0.000) and executive function (SCWT, p = 0.008). Also, LSG significantly altered gut microbiota composition (p = 0.001), with increased microbial abundance and diversity (p < 0.05). Moreover, serum metabolite levels were significantly altered, revealing intergroup differences in 229 metabolites mapped to 72 metabolic pathways (p < 0.05, VIP > 1). Spearman correlation analysis among cognitive assessment scales, gut microbiota species, and serum metabolites revealed correlations with 68 gut microbiota species and 138 serum metabolites (p < 0.05). Furthermore, pairwise correlations were detected between gut microbiota and serum metabolites (p < 0.05). Functional neuroimaging analysis revealed that LSG increased functional connectivity in cognitive-related frontotemporal networks (FPN, p < 0.01). Additionally, normalization of the default mode network (DMN) and salience network (SN) connectivity was observed after LSG (p < 0.001). Further canonical correlation and correlation analysis suggested that the cognitive-related brain network changes induced by LSG were associated with key gut microbiota species (Akkermansia, Blautia, Collinsella, Phascolarctobacterium, and Ruminococcus, p < 0.05) and neuroactive metabolites (Glycine, L-Serine, DL-Dopa, SM (d18:1/24:1(15Z), p < 0.05). Conclusion: These findings indicate the pathophysiological role of the microbiota-gut-brain axis in enhancing cognitive function after bariatric surgery, and the study provides a basis for clinical dietary adjustments, probiotic supplementation, and guidance for bariatric surgery, but further research is still needed. Trial registration: Chinese Clinical Trial Registry, ChiCTR2100049403. Registered 02 August 2021, https://www.chictr.org.cn/. [ABSTRACT FROM AUTHOR]

Published

2024

33. Multimodal gradients of basal forebrain connectivity across the neocortex.

Author

Chakraborty, Sudesna, Haast, Roy A. M., Onuska, Kate M., Kanel, Prabesh, Prado, Marco A. M., Prado, Vania F., Khan, Ali R., and Schmitz, Taylor W.

Subjects

SALIENCE network, FUNCTIONAL magnetic resonance imaging, PROSENCEPHALON, FUNCTIONAL connectivity, NEOCORTEX

Abstract

Cortical cholinergic projections originate from subregions of the basal forebrain (BF). To examine its organization in humans, we computed multimodal gradients of BF connectivity by combining 7 T diffusion and resting state functional MRI. Moving from anteromedial to posterolateral BF, we observe reduced tethering between structural and functional connectivity gradients, with the lowest tethering in the nucleus basalis of Meynert. In the neocortex, this gradient is expressed by progressively reduced tethering from unimodal sensory to transmodal cortex, with the lowest tethering in the midcingulo-insular network, and is also spatially correlated with the molecular concentration of VAChT, measured by [18F]fluoroethoxy-benzovesamicol (FEOBV) PET. In mice, viral tracing of BF cholinergic projections and [18F]FEOBV PET confirm a gradient of axonal arborization. Altogether, our findings reveal that BF cholinergic neurons vary in their branch complexity, with certain subpopulations exhibiting greater modularity and others greater diffusivity in the functional integration with their cortical targets. The basal forebrain innervates the cortex with cholinergic projections via long-range branching projections. Using MRI and PET, the authors show that these projections exhibit gradients of increasing branch complexity traversing unimodal to transmodal cortex. [ABSTRACT FROM AUTHOR]

Published

2024

34. The distinct functional brain network and its association with psychotic symptom severity in men with methamphetamine-associated psychosis.

Author

Hwang, Zhen-An, Hsu, Ai-Ling, Li, Chia-Wei, Wu, Changwei W., Chen, Chun-Hsin, Chan, Wing P., and Huang, Ming-Chyi

Subjects

*DEFAULT mode network, *FUNCTIONAL magnetic resonance imaging, *FRONTOPARIETAL network, *SALIENCE network, *LARGE-scale brain networks

Abstract

Background: Individuals using methamphetamine (METH) may experience psychosis, which usually requires aggressive treatment. Studies of the neural correlates of METH-associated psychosis (MAP) have focused predominantly on the default mode network (DMN) and cognitive control networks. We hypothesize that METH use alters global functional connections in resting-state brain networks and that certain cross-network connections could be associated with psychosis. Methods: We recruited 24 healthy controls (CRL) and 54 men with METH use disorder (MUD) who were then divided into 25 without psychosis (MNP) and 29 with MAP. Psychotic symptom severity was assessed using the Positive and Negative Syndrome Scale (PANSS), evaluating (1) large-scale alterations in regional-wise resting-state functional connectivity (rsFC) across 11 brain networks and (2) associations between rsFC and psychotic symptom severity. Results: The MUD group exhibited greater rsFC between the salience network (SN)-DMN, and subcortical network (SCN)-DMN compared to the CRL group. The MAP group exhibited decreased rsFC in the sensory/somatomotor network (SMN)-dorsal attention network (DAN), SMN-ventral attention network (VAN), SMN-SN, and SMN-auditory network (AN), whereas the MNP group exhibited increased rsFC in the SMN-DMN and the frontoparietal network (FPN)-DMN compared to CRL. Additionally, the MAP group exhibited decreased rsFC strength between the SMN-DMN, SMN-AN, SMN-FPN, and DMN-VAN compared to the MNP group. Furthermore, across the entire MUD group, the PANSS-Positive subscale was negatively correlated with the DMN-FPN and FPN-SMN, while the PANSS-Negative subscale was negatively correlated with the DMN-AN and SMN-SMN. Conclusion: MUD is associated with altered global functional connectivity. In addition, the MAP group exhibits a different brain functional network compared to the MNP group. [ABSTRACT FROM AUTHOR]

Published

2024

35. Neuroimaging studies of resting-state functional magnetic resonance imaging in eating disorders.

Author

Chen, Xiong, Ai, Chunqi, Liu, Zhongchun, and Wang, Gang

Subjects

FRONTOPARIETAL network, DEFAULT mode network, FUNCTIONAL magnetic resonance imaging, LARGE-scale brain networks, SALIENCE network, COMPULSIVE eating, BULIMIA

Abstract

Eating disorders (EDs), including anorexia nervosa (AN), bulimia nervosa (BN), binge-eating disorder (BED), and pica, are psychobehavioral conditions characterized by abnormal eating behaviors and an excessive preoccupation with weight and body shape. This review examines changes in brain regions and functional connectivity in ED patients over the past decade (2013–2023) using resting-state functional magnetic resonance imaging (rs-fMRI). Key findings highlight alterations in brain networks such as the default mode network (DMN), central executive network (CEN), and emotion regulation network (ERN). In individuals with AN, there is reduced functional connectivity in areas associated with facial information processing and social cognition, alongside increased connectivity in regions linked to sensory stimulation, aesthetic judgment, and social anxiety. Conversely, BED patients show diminished connectivity in the dorsal anterior cingulate cortex within the salience network and increased connectivity in the posterior cingulate cortex and medial prefrontal cortex within the DMN. These findings suggest that rs-fMRI could serve as a valuable biomarker for assessing brain function and predicting treatment outcomes in EDs, paving the way for personalized therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

36. The associations among glycemic control, heart variability, and autonomic brain function in healthy individuals: Age- and sex-related differences.

Author

Yu, Jeffrey X., Hussein, Ahmad, Mah, Linda, and Jean Chen, J.

Subjects

*GLYCOSYLATED hemoglobin, *HEART beat, *AUTONOMIC nervous system, *GLYCEMIC control, *SALIENCE network

Abstract

The purpose of this study was to clarify the relationships between glycemia and function of the autonomic nervous system (ANS), assessed via resting-state functional connectivity (FC) and heart-rate variability (HRV). Data for this study were extracted from the Leipzig Study for Mind-Body-Emotion Interactions, including 146 healthy adults (114 young, 32 older). Variables of interest were glycated hemoglobin (HbA1c), resting-state FC in the salience aspect of the central-autonomic (S-CAN) and salience network (SN) and HRV (RMSSD and high-frequency HRV (HF-HRV)). HbA1c was inversely correlated with FC in the S-CAN but not SN. HbA1c was inversely correlated with HRV. Both RMSSD and log(HF-HRV) were correlated with FC in the S-CAN and SN. Age- (not sex-related) differences were observed in the Hb1Ac-FC associations (stronger in older adults) while sex- (not age-related) differences were observed in the HRV-FC (stronger in females). These findings extend the diabetes literature to healthy adults in relating glycemia and brain function. The age- and sex-related differences in these relationships highlight the need to account for the potential effects of age and sex in future investigations. • Glycated hemoglobin inversely related with functional connectivity (FC) in controls. • High heart rate variability (RMSSD) was associated with high FC. • Age- but not sex-related differences found in the association between Hb1Ac and FC. • Sex- but not age-related differences found in the association between HRV and FC. [ABSTRACT FROM AUTHOR]

Published

2024

37. Smoking Progression and Nicotine-Enhanced Reward Sensitivity Predicted by Resting-State Functional Connectivity in Salience and Executive Control Networks.

Author

Gunn, Matthew P, Rose, Gregory M, Whitton, Alexis E, Pizzagalli, Diego A, and Gilbert, David G

Subjects

*CONTROL (Psychology), *FUNCTIONAL magnetic resonance imaging, *REWARD (Psychology), *SALIENCE network, *EXECUTIVE function

Abstract

Introduction The neural underpinnings underlying individual differences in nicotine-enhanced reward sensitivity (NERS) and smoking progression are poorly understood. Thus, we investigated whether brain resting-state functional connectivity (rsFC.) during smoking abstinence predicts NERS and smoking progression in young light smokers. We hypothesized that high rsFC between brain areas with high densities of nicotinic receptors (insula, anterior cingulate cortex [ACC], hippocampus, thalamus) and areas involved in reward-seeking (nucleus accumbens [NAcc], prefrontal cortex [PFC]) would predict NERS and smoking progression. Aims and Methods Young light smokers (N  = 64, age 18–24, M = 1.89 cigarettes/day) participated in the study. These individuals smoked between 5 and 35 cigarettes per week and lifetime use never exceeded 35 cigarettes per week. Their rsFC was assessed using functional magnetic resonance imaging after 14 hours of nicotine deprivation. Subjects also completed a probabilistic reward task after smoking a placebo on 1 day and a regular cigarette on another day. Results The probabilistic-reward-task assessed greater NERS was associated with greater rsFC between the right anterior PFC and right NAcc, but with reduced rsFC between the ACC and left inferior prefrontal gyrus and the insula and ACC. Decreased rsFC within the salience network (ACC and insula) predicted increased smoking progression across 18 months and greater NERS. Conclusions These findings provide the first evidence that differences in rsFCs in young light smokers are associated with nicotine-enhanced reward sensitivity and smoking progression. Clinical trial registration NCT02129387 (preregistered hypothesis: www.clinicaltrials.gov). Implications Weaker rsFC within the salience network predicted greater NERS and smoking progression. These findings suggest that salience network rsFC and drug-enhanced reward sensitivity may be useful tools and potential endophenotypes for reward sensitivity and drug-dependence research. [ABSTRACT FROM AUTHOR]

Published

2024

38. Characteristics of Functional Connections and Topographical Properties Distinguished the Healthy State and Obsessive-Compulsive Disorder.

Author

Shafaghi, Lida, Arbabi, Mohammad, Tehrani-Doost, Mehdi, Batouli, Seyed Amirhossein, Ziaa, Mohammad Javad, and Hadjighassem, Mahmoudreza

Subjects

*DEFAULT mode network, *SALIENCE network, *FRONTOPARIETAL network, *LARGE-scale brain networks, *PARIETAL lobe

Abstract

Background: Obsessive-compulsive disorder (OCD) is characterized by alterations in brain connectivity, particularly within the default mode network (DMN) and the salience network (SN). Investigating these connectivity differences can provide a deeper understanding of the neural mechanisms underlying OCD. Methods: This cross-sectional study involved 58 patients diagnosed with OCD and 38 healthy control subjects, totaling 96 participants. Resting-state functional MRI (fMRI) data were acquired and analyzed using the CONN toolbox to examine functional connectivity within intrinsic resting-state networks. Graph theory metrics were applied to evaluate node connections and the overall network topology. Clinical symptoms were assessed using the Yale-Brown Obsessive-Compulsive Scale (Y-BOCS), and their correlations with connectivity patterns and graph-theory parameters were analyzed. Results: The OCD patients and healthy controls were matched in terms of age, gender, marital status, socioeconomic status, and handedness. However, OCD patients had significantly worse general health, quality of life, and higher levels of depression and anxiety. Network analyses revealed altered whole-brain connectivity in OCD patients, particularly within the DMN and the frontoparietal network. The most significant between-group connectivity differences were observed between the posterior parietal cortex (PPC) and the precuneus. Disruptions in the DMN, specifically altered connectivity between the medial prefrontal cortex and posterior cingulate cortex, and changes in the SN involving the anterior insula and anterior cingulate cortex, were significantly correlated with the severity of OCD symptoms. Conclusions: The findings suggest that OCD is associated with distinct alterations in DMN connectivity, which may play a critical role in the disorder's pathophysiology. These disruptions offer potential targets for therapeutic intervention. Further research is needed to explore these connectivity changes in larger cohorts and at various stages of OCD to better understand their clinical significance. [ABSTRACT FROM AUTHOR]

Published

2024

39. Differences in brain connectivity between older adults practicing Tai Chi and Water Aerobics: a case--control study.

Author

Port, Ana Paula, Paulo, Artur José Marques, de Azevedo Neto, Raymundo Machado, Lacerda, Shirley Silva, Radvany, João, Santaella, Danilo Forghieri, and Kozasa, Elisa Harumi

Subjects

INSULAR cortex, FRONTOPARIETAL network, SALIENCE network, TAI chi, PARIETAL lobe, MIRROR neurons

Abstract

Background: This study aimed to investigate the neural mechanisms that differentiate mind--body practices from aerobic physical activities and elucidate their effects on cognition and healthy aging. We examined functional brain connectivity in older adults (age > 60) without pre-existing uncontrolled chronic diseases, comparing Tai Chi with Water Aerobics practitioners. Methods: We conducted a cross-sectional, case--control fMRI study involving two strictly matched groups (n = 32) based on gender, age, education, and years of practice. Seed-to-voxel analysis was performed using the Salience, and Frontoparietal Networks as seed regions in Stroop Word-Color and N-Back tasks and Resting State. Results: During Resting State condition and using Salience network as a seed, Tai Chi group exhibited a stronger correlation between Anterior Cingulate Cortex and Insular Cortex areas (regions related to interoceptive awareness, cognitive control and motor organization of subjective aspects of experience). In N-Back task and using Salience network as seed, Tai Chi group showed increased correlation between Left Supramarginal Gyrus and various cerebellar regions (related to memory, attention, cognitive processing, sensorimotor control and cognitive flexibility). In Stroop task, using Salience network as seed, Tai Chi group showed enhanced correlation between Left Rostral Prefrontal Cortex and Right Occipital Pole, and Right Lateral Occipital Cortex (areas associated with sustained attention, prospective memory, mediate attention between external stimuli and internal intention). Additionally, in Stroop task, using Frontoparietal network as seed, Water Aerobics group exhibited a stronger correlation between Left Posterior Parietal Lobe (specialized in word meaning, representing motor actions, motor planning directed to objects, and general perception) and different cerebellar regions (linked to object mirroring). Conclusion: Our study provides evidence of differences in functional connectivity between older adults who have received training in a mind--body practice (Tai Chi) or in an aerobic physical activity (Water Aerobics) when performing attentional and working memory tasks, as well as during resting state. [ABSTRACT FROM AUTHOR]

Published

2024

40. Resting-state brain networks alterations in adolescents with Internet Gaming Disorder associate with cognitive control impairments.

Author

Tao Zhao, Yibo Zhang, Yange Li, Jie Wu, Ruiqi Wang, Qiyan Lv, Dingyi Li, and Yan Lang

Subjects

LARGE-scale brain networks, GAMING disorder, FUNCTIONAL magnetic resonance imaging, CONTROL (Psychology), SALIENCE network

Abstract

Objective: Research indicates that cognitive control is compromised in individuals with internet gaming disorder (IGD). However, the neural mechanisms behind it are still unclear. This study aims to investigate alterations in resting-state brain networks in adolescents with IGD and the potential neurobiological mechanisms underlying cognitive dysfunction. Materials and methods: A total of 44 adolescent IGD subjects (male/female: 38/ 6) and 50 healthy controls (male/female: 40/10) were enrolled. Participants underwent demographic assessments, Young's Internet Addiction Scale, Barratt Impulsiveness Scale 11 Chinese Revised Version, the Chinese Adolescents' Maladaptive Cognitions Scale, exploratory eye movement tests, and functional magnetic resonance imaging (fMRI). FMRI data were analyzed using the GIFT software for independent component analysis, focusing on functional connectivity within and between resting-state brain networks. Results: In comparison to the control group, impulsivity in adolescent IGD subjects showed a positive correlation with the severity of IGD (r=0.6350, p < 0.001), linked to impairments in the Executive Control Network (ECN) and a decrease in functional connectivity between the Salience Network (SN) and ECN (r=0.4307, p=0.0021; r=-0.5147, p=0.0034). Decreased resting state activity of the dorsal attention network (DAN) was associated with attentional dysregulation of IGD in adolescents (r=0.4071, p=0.0017), and ECN increased functional connectivity with DAN. The degree of IGD was positively correlated with enhanced functional connectivity between the ECN and DAN (r=0.4283, p=0.0037). Conclusions: This research demonstrates that changes in the ECN and DAN correlate with heightened impulsivity and attentional deficits in adolescents with IGD. The interaction between cognitive control disorders and resting-state brain networks in adolescent IGD is related. [ABSTRACT FROM AUTHOR]

Published

2024

41. Comparative study on structural and functional brain differences in mild cognitive impairment patients with tinnitus.

Author

Sang-Yoon Han, Heejung Kim, Yejin Yun, Min Jae Lee, Jun-Young Lee, Sun-Won Park, Yu Kyeong Kim, and Young Ho Kim

Subjects

BRAIN anatomy, MILD cognitive impairment, FUNCTIONAL connectivity, RESEARCH funding, RADIOPHARMACEUTICALS, CLUSTER analysis (Statistics), T-test (Statistics), BRAIN, DEOXY sugars, BODY surface mapping, QUESTIONNAIRES, MAGNETIC resonance imaging, DESCRIPTIVE statistics, TINNITUS, GRAY matter (Nerve tissue), RESEARCH, DATA analysis software, FACTOR analysis, COMPARATIVE studies, AMYLOID beta-protein precursor, DISEASE complications

Abstract

Objective: Tinnitus may be associated with various brain changes. However, the degenerative changes in patients with tinnitus have not been extensively investigated. We aimed to evaluate degenerative, structural, and functional brain changes in patients with mild cognitive impairment (MCI) who also suffer from tinnitus. Materials and methods: This study included participants aged 60 to 80 years with MCI and a hearing level better than 40 dB. The participants were classified into two groups: MCI with tinnitus (MCI-T) and MCI without tinnitus (MCI-NT). All patients underwent Tinnitus Handicap Inventory (THI), 3 T brain MRI, F18-florapronol PET, and F18-FDG PET. Results: The MCI-T group exhibited higher ß-amyloid deposition in the superior temporal gyrus, temporal pole, and middle temporal gyrus compared to the MCI-NT group (p < 0.05 for all). Additionally, the MCI-T group showed increased metabolism in the inferior frontal gyrus, insula, and anterior cingulate cortex (ACC) (p < 0.005 for all). The THI score was strongly correlated with increased volume in the insula, ACC, superior frontal gyrus, supplementary motor area, white matter near the hippocampus, and precentral gyrus (p < 0.05 for all). Moreover, the MCI-T group demonstrated higher metabolic activity in the default mode network (DMN) and lower activity in the executive control network (ECN) (p < 0.05 for all). In the MCI-T group, the posterior DMN was positively correlated with the visual network and negatively with the ECN, whereas in the MCI-NT group, it correlated positively with the ECN. Conclusion: The MCI-T group exhibited greater ß-amyloid accumulation in the auditory cortex and more extensive changes across various brain networks compared with the MCI-NT group, potentially leading to diverse clinical symptoms such as dementia with semantic deficits or depression. Tinnitus in MCI patients may serve as a biomarker for degenerative changes in the temporal lobe and alterations in brain network dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

42. A connectome-based model of delusion in schizophrenia using functional connectivity under working memory task.

Author

Liu, Xiawei, Liu, Zhening, Wang, Feiwen, Cheng, Peng, Yang, Jun, Tan, Wenjian, Cheng, Yixin, Huang, Danqing, Xiang, Zhibiao, Zhang, Jiamei, Li, Jinyue, Xie, Yuxin, Zhong, Maoxing, and Yang, Jie

Subjects

*DEFAULT mode network, *SALIENCE network, *COGNITIVE bias, *SHORT-term memory, *FUNCTIONAL connectivity

Abstract

Delusion is an important feature of schizophrenia, which may stem from cognitive biases. Working memory (WM) is the core foundation of cognition, closely related to delusion. However, the knowledge of neural mechanisms underlying the relationship between WM and delusion in schizophrenia is poorly investigated. Two hundred and thirty patients with schizophrenia (dataset 1: n = 130; dataset 2: n = 100) were enrolled and scanned for an N-back WM task. We constructed the WM-related whole-brain functional connectome and conducted Connectome-based Predictive Modelling (CPM) to detect the delusion-related networks and built the correlation model in dataset 1. The correlation between identified networks and delusion severity was tested in a separate, heterogeneous sample of dataset 2 that mainly includes early-onset schizophrenia. The identified delusion-related network has a strong correlation with delusion severity measured by the NO.20 item of SAPS in dataset 1 (r = 0.433, p = 2.7 × 10−7, permutation- p = 0.035), and can be validated in the same dataset by using another delusion measurement, that is, the P1 item of PANSS (r = 0.362, p = 0.0005). It can be validated in another independent dataset 2 (NO.20 item of SAPS for r = 0.31, p = 0.0024, P1 item of PANSS for r = 0.27, p = 0.0074). The delusion-related network comprises the connections between the default mode network (DMN), cingulo-opercular network (CON), salience network (SN), subcortical, sensory-somatomotor network (SMN), and visual networks. We successfully established correlation models of individualized delusion based on the WM-related functional connectome and showed a strong correlation between delusion severity and connections within the DMN, CON, SMN, and subcortical network. [ABSTRACT FROM AUTHOR]

Published

2024

43. Abnormal multimodal neuroimaging patterns associated with social deficits in male autism spectrum disorder.

Author

Wei, Long, Xu, Xin, Su, Yuwei, Lan, Min, Wang, Sifeng, and Zhong, Suyu

Subjects

*AUTISM spectrum disorders, *GRAY matter (Nerve tissue), *LIMBIC system, *SALIENCE network, *WHITE matter (Nerve tissue)

Abstract

Atypical social impairments (i.e., impaired social cognition and social communication) are vital manifestations of autism spectrum disorder (ASD) patients, and the incidence rate of ASD is significantly higher in males than in females. Characterizing the atypical brain patterns underlying social deficits of ASD is significant for understanding the pathogenesis. However, there are no robust imaging biomarkers that are specific to ASD, which may be due to neurobiological complexity and limitations of single‐modality research. To describe the multimodal brain patterns related to social deficits in ASD, we highlighted the potential functional role of white matter (WM) and incorporated WM functional activity and gray matter structure into multimodal fusion. Gray matter volume (GMV) and fractional amplitude of low‐frequency fluctuations of WM (WM‐fALFF) were combined by fusion analysis model adopting the social behavior. Our results revealed multimodal spatial patterns associated with Social Responsiveness Scale multiple scores in ASD. Specifically, GMV exhibited a consistent brain pattern, in which salience network and limbic system were commonly identified associated with all multiple social impairments. More divergent brain patterns in WM‐fALFF were explored, suggesting that WM functional activity is more sensitive to ASD's complex social impairments. Moreover, brain regions related to social impairment may be potentially interconnected across modalities. Cross‐site validation established the repeatability of our results. Our research findings contribute to understanding the neural mechanisms underlying social disorders in ASD and affirm the feasibility of identifying biomarkers from functional activity in WM. [ABSTRACT FROM AUTHOR]

Published

2024

44. Functional and structural abnormalities of thalamus in individuals at early stage of schizophrenia.

Author

Wang, Yujue, Ouyang, Lijun, Fan, Lejia, Zheng, Wenxiao, Li, Zongchang, Tang, Jinsong, Yuan, Liu, Li, Chunwang, Jin, Ke, Liu, Weiqing, Chen, Xiaogang, He, Ying, and Ma, Xiaoqian

Subjects

*DEFAULT mode network, *EXECUTIVE function, *GRAY matter (Nerve tissue), *PEARSON correlation (Statistics), *SALIENCE network

Abstract

Thalamic abnormalities in schizophrenia are recognized, alongside cognitive deficits. However, the current findings about these abnormalities during the prodromal period remain relatively few and inconsistent. This study applied multimodal methods to explore the alterations in thalamic function and structure and their relationship with cognitive function in first-episode schizophrenia (FES) patients and ultra-high-risk (UHR) individuals, aiming to affirm the thalamus's role in schizophrenia development and cognitive deficits. 75 FES patients, 60 UHR individuals, and 60 healthy controls (HC) were recruited. Among the three groups, gray matter volume (GMV) and functional connectivity (FC) were evaluated to reflect the structural and functional abnormalities in the thalamus. Pearson correlation was used to calculate the association between these abnormalities and cognitive impairments. No significant difference in GMV of the thalamus was found among the abovementioned three groups. Compared with HC individuals, FES patients had decreased thalamocortical FC mostly in the thalamocortical triple network, including the default mode network (DMN), salience network (SN), and executive control network (ECN). UHR individuals had similar but milder dysconnectivity as the FES group. Furthermore, FC between the left thalamus and right putamen was significantly correlated with execution speed and attention in the FES group. Our findings revealed decreased thalamocortical FC associated with cognitive deficits in FES and UHR subjects. This improves our understanding of the functional alterations in thalamus in prodromal stage of schizophrenia and the related factors of the cognitive impairment of the disease. ClinicalTrials.gov NCT03965598 ; https://clinicaltrials.gov/ct2/show/NCT03965598. [ABSTRACT FROM AUTHOR]

Published

2024

45. Atrophy in behavioural variant frontotemporal dementia spans multiple large-scale prefrontal and temporal networks.

Author

Eldaief, Mark, Brickhouse, Michael, Katsumi, Yuta, Rosen, Howard, Carvalho, Nicole, Touroutoglou, Alexandra, and Dickerson, Bradford

Subjects

behavioural variant frontotemporal dementia (bvTD), control network, default-mode network, limbic network, salience network, Humans, Frontotemporal Dementia, Reproducibility of Results, Magnetic Resonance Imaging, Brain, Atrophy

Abstract

The identification of a neurodegenerative disorders distributed pattern of atrophy-or atrophy signature-can lend insights into the cortical networks that degenerate in individuals with specific constellations of symptoms. In addition, this signature can be used as a biomarker to support early diagnoses and to potentially reveal pathological changes associated with said disorder. Here, we characterized the cortical atrophy signature of behavioural variant frontotemporal dementia (bvFTD). We used a data-driven approach to estimate cortical thickness using surface-based analyses in two independent, sporadic bvFTD samples (n = 30 and n = 71, total n = 101), using age- and gender-matched cognitively and behaviourally normal individuals. We found highly similar patterns of cortical atrophy across the two independent samples, supporting the reliability of our bvFTD signature. Next, we investigated whether our bvFTD signature targets specific large-scale cortical networks, as is the case for other neurodegenerative disorders. We specifically asked whether the bvFTD signature topographically overlaps with the salience network, as previous reports have suggested. We hypothesized that because phenotypic presentations of bvFTD are diverse, this would not be the case, and that the signature would cross canonical network boundaries. Consistent with our hypothesis, the bvFTD signature spanned rostral portions of multiple networks, including the default mode, limbic, frontoparietal control and salience networks. We then tested whether the signature comprised multiple anatomical subtypes, which themselves overlapped with specific networks. To explore this, we performed a hierarchical clustering analysis. This yielded three clusters, only one of which extensively overlapped with a canonical network (the limbic network). Taken together, these findings argue against the hypothesis that the salience network is preferentially affected in bvFTD, but rather suggest that-at least in patients who meet diagnostic criteria for the full-blown syndrome-neurodegeneration in bvFTD encompasses a distributed set of prefrontal, insular and anterior temporal nodes of multiple large-scale brain networks, in keeping with the phenotypic diversity of this disorder.

Published

2023

46. Alpha and Theta Oscillations Associated With Behavioral Phenotypes of Pain–Attention Interaction

Author

Nikou Kelardashti, Benjamin T. Dunkley, Rima El‐Sayed, Vaidhehi Veena Sanmugananthan, Junseok Andrew Kim, Natalie Rae Osborne, Joshua C. Cheng, Anton Rogachov, Rachael L. Bosma, Ariana E. Besik, and Karen Deborah Davis

Subjects

alpha oscillations, attention, default mode network, pain, salience network, somatosensory cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

ABSTRACT Purpose Pain is inherently salient and so draws our attention in addition to impacting performance on attention‐demanding tasks. Individual variability in pain–attention interactions can be assessed by two kinds of behavioral phenotypes that quantify how individuals prioritize pain versus attentional needs. The intrinsic attention to pain (IAP) measure quantifies the degree to which a person attends to pain (high‐IAP) or mind‐wanders away from pain (low‐IAP). The A/P categorization quantifies how pain impacts cognitive performance during an attention‐demanding task classifying individuals into P type (pain dominates, worse performance during pain in comparison to no pain) and A type (attention to task dominates, better performance during pain in comparison to no pain). Although previous MRI‐based studies have linked these phenotypes with the dynamic pain connectome (DPC), the underlying neural oscillations are not known. This paper aims to examine the brain–behavior relationship between alpha and theta oscillations within nodes of the DPC and pain–attention phenotypes. Method Fifty participants (27 F, 23 M) underwent resting‐state magnetoencephalography (MEG). Individual IAP scores were determined by assessing mind‐wandering during pain and A/P type was based on interference of pain with cognitive task performance. Finding The main findings were: (1) peak alpha frequency (PAF) power did not differ between low/high‐IAP individuals or A/P‐type individuals within the nodes of the DPC; (2) compared to high‐IAP individuals, those with low‐IAP have slower PAF in the left primary somatosensory cortex, posterior cingulate cortex and precuneus and higher theta power in the ascending nociceptive pathway and default mode network; (3) males with low‐IAP, compared to females, had higher PAF power throughout the DPC. Conclusion Alpha and theta oscillations within the DPC may underlie aspects of attentional focus and pain–attention interactions.

Published

2025

47. Investigation of functional connectivity differences based on anxiety tendencies

Author

Misuzu Oishi, Noriko Sakurai, Yuki Kawasaki, Kei Sasaki, Satoshi Kasai, and Naoki Kodama

Subjects

resting-state functional MRI, functional connectivity, salience network, anterior cingulate cortex, anterior insula, anxiety, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionAnxiety is an emotion necessary for human survival. However, persistent and excessive anxiety can be clinically challenging. Increased anxiety affects daily life and requires early detection and intervention. Therefore, a better understanding of the neural basis of mild anxiety is needed. However, previous studies have focused primarily on resting-state functional magnetic resonance imaging (rs-fMRI) in patients with psychiatric disorders presenting with anxiety. Notably, only a few studies have been conducted on healthy participants, and the relationship between anxiety and functional brain connectivity in the healthy range remains unclear. Therefore, in this study, we aimed to clarify the differences in functional brain connectivity at different degrees of anxiety among healthy participants.MethodsThis study included 48 healthy participants with no history of psychiatric disorders. Participants were administered The General Health Questionnaire (GHQ) 60, a psychological test for assessing anxiety, and the Manifest Anxiety Scale (MAS). The participants then underwent rs-fMRI. Based on the results of each psychological test, the participants were classified into normal and anxiety groups, and the functional connectivity between the two groups was compared using a seed-to-voxel analysis.ResultsComparison of functional brain connectivity between the normal and anxiety groups classified based on the GHQ60 and MAS revealed differences between brain regions comprising the salience network (SN) in both psychological tests. For the GHQ60, the anxiety group showed reduced connectivity between the right supramarginal gyrus and insular cortex compared with the normal group. However, for the MAS, the anxiety group showed reduced connectivity between the right supramarginal and anterior cingulate cortical gyri compared with the normal group.ConclusionFunctional connectivity within the SN was reduced in the group with higher anxiety when functional brain connectivity at different anxiety levels was examined in healthy participants. This suggests that anxiety is involved in changes in the functional brain connectivity associated with emotional processing and cognitive control.

Published

2024

48. Evaluating state-based network dynamics in anhedonia

Author

Angela Pisoni, Jeffrey Browndyke, Simon W. Davis, and Moria Smoski

Subjects

Anhedonia, Network dynamics, Default mode network, Salience network, Reward, Graph theory, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Anhedonia is a transdiagnostic clinical syndrome associated with significant clinical impairment. In spite of this, a clear network-level characterization of anhedonia does not yet exist. The present study addressed this gap in the literature by taking a graph theoretical approach to characterizing state-based (i.e., reward anticipation, rest) network dynamics in a transdiagnostic sample of adults with clinically significant anhedonia (n = 77). Analyses focused on three canonical brain networks: the Salience Network (SN), the Default Mode Network (DMN) and the Central Executive Network (CEN), with hypotheses focusing on the role of saliency-mapping in anhedonia. Contrary to hypotheses, no significant relation was found between the SN and anhedonia symptom severity. Exploratory results revealed a significant association between anhedonia severity and DMN reorganization from rest to reward anticipation. Specifically, greater anhedonia severity was associated with less reward-related reorganization. This finding suggests that anhedonia severity may be associated with DMN hyposensitivity, such that individuals with more severe anhedonia may have a difficult time disengaging from their internal world in the context of potentially rewarding experiences. Although preliminary, this finding challenges the centrality of the SN in anhedonia severity and suggests the importance of the DMN. Clinical implications and future directions are explored.

Published

2024

49. Salience Network in Autism: preliminary results on functional connectivity analysis in resting state

Author

Attanasio, Margherita, Mazza, Monica, Le Donne, Ilenia, Nigri, Anna, and Valenti, Marco

Published

2024

50. Longitudinal neurofunctional changes in medication overuse headache patients after mindfulness practice in a randomized controlled trial (the MIND-CM study)

Author

Davide Fedeli, Giuseppe Ciullo, Greta Demichelis, Jean Paul Medina Carrion, Maria Grazia Bruzzone, Emilio Ciusani, Alessandra Erbetta, Stefania Ferraro, Marina Grisoli, Erika Guastafierro, Domenico D’Amico, Alberto Raggi, Anna Nigri, and Licia Grazzi

Subjects

Mindfulness, Medication overuse headache, Resting state fMRI, Salience network, Chronic pain, Cortical thickness, Medicine

Abstract

Abstract Background Mindfulness practice has gained interest in the management of Chronic Migraine associated with Medication Overuse Headache (CM-MOH). Mindfulness is characterized by present-moment self-awareness and relies on attention control and emotion regulation, improving headache-related pain management. Mindfulness modulates the Default Mode Network (DMN), Salience Network (SN), and Fronto-Parietal Network (FPN) functional connectivity. However, the neural mechanisms underlying headache-related pain management with mindfulness are still unclear. In this study, we tested neurofunctional changes after mindfulness practice added to pharmacological treatment as usual in CM-MOH patients. Methods The present study is a longitudinal phase-III single-blind Randomized Controlled Trial (MIND-CM study; NCT03671681). Patients had a diagnosis of CM-MOH, no history of neurological and severe psychiatric comorbidities, and were attending our specialty headache centre. Patients were divided in Treatment as Usual (TaU) and mindfulness added to TaU (TaU + MIND) groups. Patients underwent a neuroimaging and clinical assessment before the treatment and after one year. Longitudinal comparisons of DMN, SN, and FPN connectivity were performed between groups and correlated with clinical changes. Vertex-wise analysis was performed to assess cortical thickness changes. Results 177 CM-MOH patients were randomized to either TaU group or TaU + MIND group. Thirty-four patients, divided in 17 TaU and 17 TaU + MIND, completed the neuroimaging follow-up. At the follow-up, both groups showed an improvement in most clinical variables, whereas only TaU + MIND patients showed a significant headache frequency reduction (p = 0.028). After one year, TaU + MIND patients showed greater SN functional connectivity with the left posterior insula (p-FWE = 0.007) and sensorimotor cortex (p-FWE = 0.026). In TaU + MIND patients only, greater SN-insular connectivity was associated with improved depression scores (r = -0.51, p = 0.038). A longitudinal increase in cortical thickness was observed in the insular cluster in these patients (p = 0.015). Increased anterior cingulate cortex thickness was also reported in TaU + MIND group (p-FWE = 0.02). Conclusions Increased SN-insular connectivity might modulate chronic pain perception and the management of negative emotions. Enhanced SN-sensorimotor connectivity could reflect improved body-awareness of painful sensations. Expanded cingulate cortex thickness might sustain improved cognitive processing of nociceptive information. Our findings unveil the therapeutic potential of mindfulness and the underlying neural mechanisms in CM-MOH patients. Trial Registration Name of Registry; MIND-CM study; Registration Number ClinicalTrials.gov identifier: NCT0367168; Registration Date: 14/09/2018

Published

2024