Your search keyword '"orbitofrontal cortex"' showing total 277 results

1. Opposite changes in morphometric similarity of medial reward and lateral non-reward orbitofrontal cortex circuits in obesity

Author

Debo Dong, Ximei Chen, Wei Li, Xiao Gao, Yulin Wang, Feng Zhou, Simon B. Eickhoff, and Hong Chen

Subjects

Obesity, Body mass index, Morphometric similarity networks, Orbitofrontal cortex, Multimodal MRI, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Obesity has a profound impact on metabolic health thereby adversely affecting brain structure and function. However, the majority of previous studies used a single structural index to investigate the link between brain structure and body mass index (BMI), which hinders our understanding of structural covariance between regions in obesity. This study aimed to examine the relationship between macroscale cortical organization and BMI using novel morphometric similarity networks (MSNs). The individual MSNs were first constructed from individual eight multimodal cortical morphometric features between brain regions. Then the relationship between BMI and MSNs within the discovery sample of 434 participants was assessed. The key findings were further validated in an independent sample of 192 participants. We observed that the lateral non-reward orbitofrontal cortex (lOFC) exhibited decoupling (i.e., reduction in integration) in obesity, which was mainly manifested by its decoupling with the cognitive systems (i.e., DMN and FPN) while the medial reward orbitofrontal cortex (mOFC) showed de-differentiation (i.e., decrease in distinctiveness) in obesity, which was mainly represented by its de-differentiation with the cognitive and attention systems (i.e., DMN and VAN). Additionally, the lOFC showed de-differentiation with the visual system in obesity, while the mOFC showed decoupling with the visual system and hyper-coupling with the sensory-motor system in obesity. As an important first step in revealing the role of underlying structural covariance in body mass variability, the present study presents a novel mechanism that underlies the reward-control interaction imbalance in obesity, thus can inform future weight-management approaches.

Published

2024

2. Continuous inhalation of essential oil increases gray matter volume

Author

Keisuke Kokubun, Kiyotaka Nemoto, and Yoshinori Yamakawa

Subjects

Aromatherapy, Gray matter volume, Rose essential oil, Posterior cingulate cortex, Amygdala, Orbitofrontal cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Research into the health benefits of scents is on the rise. However, little is known about the effects of continuous inhalation, such as wearing scents on clothing, on brain structure. Therefore, in this study, an intervention study was conducted on a total of 50 healthy female people, 28 in the intervention group and 22 in the control group, asking them to wear a designated rose scent on their clothes for a month. The effect of continuous inhalation of essential oil on the gray matter of the brain was measured by calculating changes in brain images of participants taken before and after the intervention using Magnetic Resonance Imaging (MRI). The results showed that the intervention increased the gray matter volume (GMV) of the whole brain and posterior cingulate cortex (PCC) subregion. On the other hand, the GMV of the amygdala and orbitofrontal cortex (OFC) did not change. This study is the first to show that continuous scent inhalation changes brain structure.

Published

2024

3. 1Hz right orbitofrontal TMS benefits depressed patients unresponsive to dorsolateral prefrontal cortex TMS

Author

Amourie Prentice, Ylka Kolken, Christina Tuttle, Joris van Neijenhof, Richard Pitch, Iris van Oostrom, Vera Kruiver, Jonathan Downar, Alexander T. Sack, Martijn Arns, and Nikita van der Vinne

Subjects

Orbitofrontal cortex, TMS, Treatment-resistant depression, Dorsolateral prefrontal cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023

4. State-specific modulation of mood using intracranial electrical stimulation of the orbitofrontal cortex

Author

Dan Cao, Qihong Liu, Jiaqi Zhang, Jin Li, and Tianzi Jiang

Subjects

Intracranial electrical stimulation, Orbitofrontal cortex, State-specific modulation, Emotional network, Intracranial EEG, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Background: Orbitofrontal cortex (OFC) is a promising target for intracranial electrical stimulation (iES) aimed at improving mood states. However, knowledge gaps remain regarding the underlying neural mechanisms of iES effects, such as the effect of the OFC target in comparison with other emotional network targets, the impact of brain state at the time of stimulation, and the neural response induced by iES at both local and network scales. Objective: Our study aims to address the neural mechanisms underlying the effects of iES in improving mood states. Methods: We conducted a study in 24 epilepsy patients who received iES through implanted electrodes in the emotional network and compared the effects of iES on multiple targets in the emotional network. Results: We found that only iES applied to the orbitofrontal cortex (OFC) led to mood improvement and changes in neural activity. We also observed that iES to the OFC suppressed the delta-theta power when the brain was in a low mood state. Moreover, the iES to the OFC decreased delta-theta power and increased gamma power at local regions within the emotional network, and enhanced the information flow through the frequency domain among regions within the emotional network. Conclusions: These findings provide insight into the neural correlates of iES-induced mood improvement and support the potential of iES as a therapeutic intervention for mood disorders.

Published

2023

5. Orbitofrontal and striatal metabolism, volume, thickness and structural connectivity in relation to social anhedonia in depression: A multimodal study

Author

Brianna M. Donnelly, David T. Hsu, John Gardus, Junying Wang, Jie Yang, Ramin V. Parsey, and Christine DeLorenzo

Subjects

Major depression disorder, Social anhedonia, Brain imaging, Orbitofrontal cortex, SSRI treatment, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background: Social anhedonia is common within major depressive disorder (MDD) and associated with worse treatment outcomes. The orbitofrontal cortex (OFC) is implicated in both reward (medial OFC) and punishment (lateral OFC) in social decision making. Therefore, to understand the biology of social anhedonia in MDD, medial/lateral OFC metabolism, volume, and thickness, as well as structural connectivity to the striatum, amygdala, and ventral tegmental area/nucleus accumbens were examined. A positive relationship between social anhedonia and these neurobiological outcomes in the lateral OFC was hypothesized, whereas an inverse relationship was hypothesized for the medial OFC. The association between treatment-induced changes in OFC neurobiology and depression improvement were also examined. Methods: 85 medication-free participants diagnosed with MDD were assessed with Wisconsin Schizotypy Scales to assess social anhedonia and received pretreatment simultaneous fluorodeoxyglucose positron emission tomography (FDG-PET) and magnetic resonance imaging (MRI), including structural and diffusion. Participants were then treated in an 8-week randomized placebo-controlled double-blind course of escitalopram. PET/MRI were repeated following treatment. Metabolic rate of glucose uptake was quantified from dynamic FDG-PET frames using Patlak graphical analysis. Structure (volume and cortical thickness) was quantified from structural MRI using Freesurfer. To assess structural connectivity, probabilistic tractography was performed on diffusion MRI and average FA was calculated within the derived tracts. Linear mixed models with Bonferroni correction were used to examine the relationships between variables. Results: A significantly negative linear relationship between pretreatment social anhedonia score and structural connectivity between the medial OFC and the amygdala (estimated coefficient: −0.006, 95 % CI: −0.0108 – −0.0012, p-value = 0.0154) was observed. However, this finding would not survive multiple comparisons correction. No strong evidence existed to show a significant linear relationship between pretreatment social anhedonia score and metabolism, volume, thickness, or structural connectivity to any of the regions examined. There was also no strong evidence to suggest significant linear relationships between improvement in depression and percent change in these variables. Conclusions: Based on these multimodal findings, the OFC likely does not underlie social anhedonia in isolation and therefore should not be the sole target of treatment for social anhedonia. This is consistent with previous reports that other areas of the brain such as the amygdala and the striatum are highly involved in this behavior. Relatedly, amygdala-medial OFC structural connectivity could be a future target. The results of this study are crucial as, to our knowledge, they are the first to relate structure/function of the OFC with social anhedonia severity in MDD. Future work may need to involve a whole brain approach in order to develop therapeutics for social anhedonia.

Published

2024

6. DREADD activation of the lateral orbitofrontal increases cocaine-taking and cocaine-seeking in male and female rats during intermittent access self-administration under risky conditions

Author

Zackari D. Murphy, Ruth Mulugeta, Alex Tran, and Susan M. Ferguson

Subjects

Rat, Cocaine, Orbitofrontal cortex, Addiction, Punishment, Negative consequences, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Addiction is a disorder that can be characterized in part as the constant pursuit of a particular substance despite negative consequences. Although the orbitofrontal cortex (OFC) is known to regulate risk-taking more generally and be critical to the development of addiction, its role in regulating drug use under risk-taking conditions is unknown. To address this, we examined drug-taking and drug-seeking in male and female rats under conditions where cocaine infusions were paired with foot shock punishment 50% of the time and combined this paradigm with cFos immunohistochemistry. We found that rats that showed higher levels of drug-taking and drug-seeking prior to punishment showed decreased responding during self-administration sessions under risky conditions and lower levels of c-Fos expression in the lateral but not medial OFC. However, despite these initial differences in responses to infusions paired with foot shocks, all rats showed decreased responding with additional punishment sessions. We then used chemogenetic viral approaches to examine how altering activity of the lateral OFC affects drug-taking and drug-seeking during punished drug use. Although there was no effect of Gi/o DREADD-mediated inhibition of the lateral OFC on these behaviors, Gq DREADD-mediated activation increased drug-taking and drug-seeking when drug use was associated with foot shock 50% of the time. Interestingly, this manipulation had no effect on non-risky self-administration behavior. These results suggest that the involvement of lateral OFC in cocaine use is context-sensitive and influences decision-making based on negative outcomes.

Published

2023

7. Gray matter volume reduction in orbitofrontal cortex correlated with plasma glial cell line-derived neurotrophic factor (GDNF) levels within major depressive disorder

Author

Yifan Wu, Lingtao Kong, Anqi Yang, Kaiqi Xin, Yihui Lu, Xintong Yan, Wen Liu, Yue Zhu, Yingrui Guo, Xiaowei Jiang, Yifang Zhou, Qikun Sun, Yanqing Tang, and Feng Wu

Subjects

Gray matter volume, GDNF, Major depressive disorder, Neuroimaging, Orbitofrontal cortex, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Background: Major depressive disorder (MDD) is a severe mental disorder characterized by reduced gray matter volume (GMV). To date, the pathogenesis of MDD remains unclear, but neurotrophic factors play an essential role in the pathophysiological alterations of MDD during disease development. In particular, plasma glial cell line-derived neurotrophic factor (GDNF) has been suggested as a potential biomarker that may be associated with disease activity and neurological progression in MDD. Our study investigated whether plasma GDNF levels in MDD patients and healthy controls (HCs) are correlated with GMV alterations. Methods: We studied 54 MDD patients and 48 HCs. The effect of different diagnoses on whole-brain GMV was investigated using ANOVA (Analysis of Variance). The threshold of significance was p

Published

2023

8. The Orbitofrontal Cortex to Striatal Cholinergic Interneuron Circuit Controls Cognitive Flexibility Shaping Alcohol-Seeking Behavior.

Author

Li J, Zhou Y, Yin F, Du Y, Xu J, Fan S, Li Z, Wang X, Shen Q, Zhu Y, and Ma T

Abstract

Background: A top-down neuronal circuit from the orbitofrontal cortex (OFC) to the dorsomedial striatum (DMS) appears to be critical for cognitive flexibility. However, how OFC projections to different types of neurons in the DMS control cognitive flexibility and contribute to substance seeking and use, which are relatively inflexible behaviors, remains unclear., Methods: Mice were trained on two-bottle choice and operant alcohol self-administration procedures. The cognitive flexibility of the mice was tested through a place discrimination task. Electrophysiology and in vivo optogenetics were used to test the function of neural circuits in alcohol-seeking behavior., Results: We depicted a connection from the OFC to striatal neurons and found that OFC afferents could elicit functional flexibility in striatal cholinergic interneurons (CINs). A mouse model of chronic alcohol consumption showed impaired cognitive flexibility and reduced burst-pause firing. The impairment of the OFC-DMS circuit resulted in a reduction in glutamatergic transmission in OFC-medium spiny neurons (MSNs) through a CIN-mediated pre-inhibition mechanism. Importantly, remodeling the OFC-DMS circuit by inducing LTP restored cognitive flexibility. Furthermore, CINs were responsible for the impact of remodeling of the OFC-DMS circuit on cognitive flexibility. This regulatory role of CINs preferentially facilitated the potentiation of glutamatergic transmission in D2 receptor-expressing medium spiny neurons (D2-MSNs) but not in D1-MSNs. Finally, activation of the OFC-CIN-D2-MSN circuit decreased alcohol-seeking behavior., Conclusions: Improving OFC-CIN circuit-mediated cognitive flexibility may provide a novel strategy for treating uncontrolled alcohol-seeking behavior., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

9. Abnormal Global Cortical Responses in Drug-Naïve Patients With Schizophrenia Following Orbitofrontal Cortex Stimulation: A Concurrent Transcranial Magnetic Stimulation-Electroencephalography Study.

Author

Jiao X, Hu Q, Tang Y, Zhang T, Zhang J, Wang X, Sun J, and Wang J

Subjects

Humans, Female, Male, Adult, Young Adult, Evoked Potentials physiology, Transcranial Magnetic Stimulation methods, Schizophrenia physiopathology, Schizophrenia therapy, Electroencephalography, Prefrontal Cortex physiopathology

Abstract

Background: Abnormalities in cortical excitability and plasticity have been considered to underlie the pathophysiology of schizophrenia. Transcranial magnetic stimulation combined with electroencephalography (TMS-EEG) can provide a direct evaluation of cortical responses to TMS. Here, we employed TMS-EEG to investigate cortical responses to orbitofrontal cortex (OFC) stimulation in schizophrenia., Methods: In total, we recruited 92 drug-naïve patients with first-episode schizophrenia and 51 age- and sex-matched healthy individuals. For each participant, one session of 1-Hz repetitive TMS (rTMS) was delivered to the right OFC, and TMS-EEG data were obtained to explore the change in cortical-evoked activities before and immediately after rTMS during the eyes-closed state. The MATRICS Consensus Cognitive Battery was used to assess neurocognitive performance., Results: The cortical responses indexed by global mean field amplitudes (i.e., P30, N45, and P60) were larger in patients with schizophrenia than in healthy control participants at baseline. Furthermore, after one session of 1-Hz rTMS over the right OFC, the N100 amplitude was significantly reduced in the healthy control group but not in the schizophrenia group. In the healthy control participants, there was a significant correlation between modulation of P60 amplitude by rTMS and working memory; however, this correlation was absent in patients with schizophrenia., Conclusions: Aberrant global cortical responses following right OFC stimulation were found in patients with drug-naïve first-episode schizophrenia, supporting its significance in the primary pathophysiology of schizophrenia., (Copyright © 2024 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2024

10. Tractography indicates lateralized differences between trigeminal and olfactory pathways

Author

Divesh Thaploo, Akshita Joshi, Charalampos Georgiopoulos, Jonathan Warr, and Thomas Hummel

Subjects

Diffusion MRI, Piriform cortex, Orbitofrontal cortex, Thalamus, Probabilistic tractography, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Odorous sensations are based on trigeminal and olfactory perceptions. Both trigeminal and olfactory stimuli generate overlapping as well as distinctive activations in the olfactory cortex including the piriform cortex. Orbitofrontal cortex (OFC), an integrative center for all senses, is directly activated in the presence of olfactory stimulations. In contrast, the thalamus, a very important midbrain structure, is not directly activated in the presence of odors, but rather acts as a relay for portions of olfactory information between primary olfactory cortex and higher-order processing centers. The aims of the study were (1) to examine the number of streamlines between the piriform cortex and the OFC and also between the piriform cortex and the thalamus and (2) to explore potential correlations between these streamlines and trigeminal and olfactory chemosensory perceptions. Thirty-eight healthy subjects were recruited for the study and underwent diffusion MRI using a 3T MRI scanner with 67 diffusion directions. ROIs were adapted from two studies looking into olfaction in terms of functional and structural properties of the olfactory system. The “waytotal number” was used which corresponds to number of streamlines between two regions of interests. We found the number of streamlines between the piriform cortex and the thalamus to be higher in the left hemisphere, whereas the number of streamlines between the piriform cortex and the OFC were higher in the right hemisphere. We also found streamlines between the piriform cortex and the thalamus to be positively correlated with the intensity of irritating (trigeminal) odors. On the other hand, streamlines between the piriform cortex and the OFC were correlated with the threshold scores for these trigeminal odors. This is the first studying the correlations between streamlines and olfactory scores using tractography. Results suggest that different chemosensory stimuli are processed through different networks in the chemosensory system involving the thalamus.

Published

2022

11. Oxytocin moderates corticolimbic social stress reactivity in cocaine use disorder and healthy controls

Author

Jane E. Joseph, Nicholas Bustos, Kathleen Crum, Julianne Flanagan, Nathaniel L. Baker, Karen Hartwell, Megan Moran Santa-Maria, Kathleen Brady, and Aimee McRae-Clark

Subjects

Montreal imaging stress task, Amygdala, Orbitofrontal cortex, Childhood trauma, Craving, Anxiety, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Psychology, BF1-990

Abstract

Social stress can contribute to the development of substance use disorders (SUDs) and increase the likelihood of relapse. Oxytocin (OT) is a potential pharmacotherapy that may buffer the effects of social stress on arousal and reward neurocircuitry. However, more research is needed to understand how OT moderates the brain’s response to social stress in SUDs. The present study examined the effect of intransasal OT (24 IU) versus placebo (PBO) on corticolimbic functional connectivity associated with acute social stress in individuals with cocaine use disorder (CUD; n = 67) and healthy controls (HC; n = 52). Psychophysiological interaction modeling used the left and right amygdala as seed regions with the left and right orbitofrontal and anterior cingulate cortex as a priori regions of interest. Moderators of the OT response included childhood trauma history and biological sex, which were examined in independent analyses. The main finding was that OT normalized corticolimbic connectivity (left amygdala-orbitofrontal and left amygdala-anterior cingulate) as a function of childhood trauma such that connectivity was different between trauma-present and trauma-absent groups on PBO, but not between trauma groups on OT. Effects of OT on corticolimbic connectivity were not different as a function of diagnosis (CUD vs HC) or sex. However, OT reduced subjective anxiety during social stress for CUD participants who reported childhood trauma compared to PBO and normalized craving response as a function of sex in CUD. The present findings add to some prior findings of normalizing effects of OT on corticolimbic circuitry in individuals with trauma histories and provide some initial support that OT can normalize subjective anxiety and craving in CUD.

Published

2022

12. Brain functional connectivities that mediate the association between childhood traumatic events, and adult mental health and cognition

Author

Zhuo Wan, Edmund T. Rolls, Jianfeng Feng, and Wei Cheng

Subjects

Childhood traumatic events, Functional connectivity, Mental health, Cognition, Orbitofrontal cortex, Medicine, Medicine (General), R5-920

Abstract

Summary: Background: Childhood traumatic events are risk factors for psychopathology, but large-scale studies of how childhood traumatic events relate to mental health and cognition in adulthood, and how the brain is involved, are needed. Methods: The associations between childhood traumatic events (such as abuse and neglect, and defined by the ‘Childhood Trauma’ questions in the UK Biobank database) and brain functional connectivity, mental health problems, and cognitive performance were investigated by a univariate correlation analysis with 19,535 participants aged 45–79 from the UK Biobank dataset. The results were replicated with 17,747 independent participants in the second release from the same dataset. Findings: Childhood traumatic events were significantly associated with mental health problems in adulthood including anxiety (r=0.19, p

Published

2022

13. Risk-taking in humans and the medial orbitofrontal cortex reward system

Author

Edmund T. Rolls, Zhuo Wan, Wei Cheng, and Jianfeng Feng

Subjects

Orbitofrontal cortex, Functional connectivity, Risk-taking, Reward, Non-reward, Impulsivity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Risk-taking differs between humans, and is associated with the personality measures of impulsivity and sensation-seeking. To analyse the brain systems involved, self-report risk-taking, resting state functional connectivity, and related behavioral measures were analyzed in 18,740 participants of both sexes from the UK Biobank. Functional connectivities of the medial orbitofrontal cortex, ventromedial prefrontal cortex (VMPFC), and the parahippocampal areas were significantly higher in the risk-taking group (p

Published

2022

14. Emotion dysregulation and integration of emotion-related brain networks affect intraindividual change in ADHD severity throughout late adolescence

Author

Tammo Viering, Pieter J. Hoekstra, Alexandra Philipsen, Jilly Naaijen, Andrea Dietrich, Catharina A. Hartman, Barbara Franke, Jan K. Buitelaar, Andrea Hildebrandt, Christiane M. Thiel, and Carsten Gießing

Subjects

Attention deficit/hyperactivity disorder, Emotion dysregulation, Latent change score modeling, Nodal efficiency, Orbitofrontal cortex, Resting state fmri, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The course of attention deficit hyperactivity disorder (ADHD) from adolescence into adulthood shows large variations between individuals; nonetheless determinants of interindividual differences in the course are not well understood. A frequent problem in ADHD, associated with worse outcomes, is emotion dysregulation. We investigated whether emotion dysregulation and integration of emotion-related functional brain networks affect interindividual differences in ADHD severity change. ADHD severity and resting state neuroimaging data were measured in ADHD and unaffected individuals at two points during adolescence and young adulthood. Bivariate latent change score models were applied to investigate whether emotion dysregulation and network integration affect ADHD severity changes. Emotion dysregulation was gauged from questionnaire subscales for conduct problems, emotional problems and emotional lability. Better emotion regulation was associated with a better course of ADHD (104 participants, 44 females, age range: 12–27). Using graph analysis, we determined network integration of emotion-related functional brain networks. Network integration was measured by nodal efficiency, i.e., the average inverse path distance from one node to all other nodes. A pattern of low nodal efficiency of cortical regions associated with emotion processing and high nodal efficiency in subcortical areas and cortical areas involved in implicit emotion regulation predicted a better ADHD course. Larger nodal efficiency of the right orbitofrontal cortex was related to a better course of ADHD (99 participants, 42 females, age range: 10–29). We demonstrated that neural and behavioral covariates associated with emotion regulation affect the course of ADHD severity throughout adolescence and early adulthood beyond baseline effects of ADHD severity.

Published

2021

15. Long-Term Impact of Early-Life Stress on Serotonin Connectivity.

Author

Ramkumar R, Edge-Partington M, Terstege DJ, Adigun K, Ren Y, Khan NS, Rouhi N, Jamani NF, Tsutsui M, Epp JR, and Sargin D

Subjects

Animals, Female, Male, Mice, Prefrontal Cortex metabolism, Prefrontal Cortex physiopathology, Mice, Inbred C57BL, Disease Models, Animal, Optogenetics, Anxiety physiopathology, Anxiety metabolism, Neural Pathways physiopathology, Proto-Oncogene Proteins c-fos metabolism, Behavior, Animal physiology, Stress, Psychological metabolism, Stress, Psychological physiopathology, Serotonin metabolism, Raphe Nuclei metabolism

Abstract

Background: Chronic childhood stress is a prominent risk factor for developing affective disorders, yet mechanisms underlying this association remain unclear. Maintenance of optimal serotonin (5-HT) levels during early postnatal development is critical for the maturation of brain circuits. Understanding the long-lasting effects of early-life stress (ELS) on serotonin-modulated brain connectivity is crucial to develop treatments for affective disorders arising from childhood stress., Methods: Using a mouse model of chronic developmental stress, we determined the long-lasting consequences of ELS on 5-HT circuits and behavior in females and males. Using FosTRAP mice, we cross-correlated regional c-Fos density to determine brain-wide functional connectivity of the raphe nucleus. We next performed in vivo fiber photometry to establish ELS-induced deficits in 5-HT dynamics and optogenetics to stimulate 5-HT release to improve behavior., Results: Adult female and male mice exposed to ELS showed heightened anxiety-like behavior. ELS further enhanced susceptibility to acute stress by disrupting the brain-wide functional connectivity of the raphe nucleus and the activity of 5-HT neuron population, in conjunction with increased orbitofrontal cortex (OFC) activity and disrupted 5-HT release in medial OFC. Optogenetic stimulation of 5-HT terminals in the medial OFC elicited an anxiolytic effect in ELS mice in a sex-dependent manner., Conclusions: These findings suggest a significant disruption in 5-HT-modulated brain connectivity in response to ELS, with implications for sex-dependent vulnerability. The anxiolytic effect of the raphe-medial OFC circuit stimulation has potential implications for developing targeted stimulation-based treatments for affective disorders that arise from early life adversities., (Copyright © 2024 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2024

16. Structural and functional neural patterns among sub-threshold bulimia nervosa: Abnormalities in dorsolateral prefrontal cortex and orbitofrontal cortex.

Author

Luo L, Luo Y, Chen X, Xiao M, Bian Z, Leng X, Li W, Wang J, Yang Y, Liu Y, and Chen H

Subjects

Humans, Female, Young Adult, Adult, Gray Matter diagnostic imaging, Gray Matter pathology, Gray Matter physiopathology, Prefrontal Cortex diagnostic imaging, Prefrontal Cortex physiopathology, Prefrontal Cortex pathology, Male, Adolescent, Bulimia Nervosa diagnostic imaging, Bulimia Nervosa physiopathology, Bulimia Nervosa pathology, Bulimia Nervosa psychology, Magnetic Resonance Imaging, Dorsolateral Prefrontal Cortex diagnostic imaging, Dorsolateral Prefrontal Cortex physiopathology, Dorsolateral Prefrontal Cortex pathology

Abstract

Background: Disordered eating behaviors are prevalent among youngsters and highly associated with dysfunction in neurocognitive systems. We aimed to identify the potential changes in individuals with bulimia symptoms (sub-BN) to generate insights to understand developmental pathophysiology of bulimia nervosa., Methods: We investigated group differences in terms of degree centrality (DC) and gray matter volume (GMV) among 145 undergraduates with bulimia symptoms and 140 matched control undergraduates, with the secondary analysis of the whole brain connectivity in these regions of interest showing differences in static functional connectivity (FC)., Results: The sub-BN group exhibited abnormalities of the right dorsolateral prefrontal cortex and right orbitofrontal cortex in both GMV and DC, and displayed decreased FC between these regions and the precuneus. We also observed that sub-BN presented with reduced FC between the calcarine and superior temporal gyrus, middle temporal gyrus and inferior parietal gyrus. Additionally, brain-behavioral associations suggest a distinct relationship between these FCs and psychopathological symptoms in sub-BN group., Conclusions: Our study demonstrated that individuals with bulimia symptoms present with aberrant neural patterns that mainly involved in cognitive control and reward processing, as well as attentional and self-referential processing, which could provide important insights into the pathology of BN., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

17. Assessment of olfactory information in the human brain using 7-Tesla functional magnetic resonance imaging

Author

Yuka Donoshita, Uk-Su Choi, Hiroshi Ban, and Ikuhiro Kida

Subjects

BOLD fMRI, MVPA, Odor, Olfaction, Orbitofrontal cortex, Piriform Cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Olfaction could prove to be an early marker of neurodegenerative diseases, including Alzheimer's and Parkinson's diseases. To use olfaction for disease diagnosis, elucidating the standard olfactory functions in healthy humans is necessary. However, the olfactory function in the human brain is less frequently assessed because of methodological difficulties associated with olfactory-related cerebral areas. Using ultra-high fields (UHF), functional magnetic resonance imaging (fMRI) with high spatial resolution and sensitivity may allow for the measurement of activation in the cerebral areas. This study aimed to apply 7-Tesla fMRI to assess olfactory function in the human brain by exposing individuals to four different odorants for 8 s. We found that olfactory stimulation mainly activated the piriform and orbitofrontal cortex in addition to the amygdala. Among these regions, univariate fMRI analysis indicated that subjective odor intensity significantly correlated with the averaged fMRI signals in the piriform cortex but not with subjective hedonic tone in any region. In contrast, multivariate fMRI analysis showed that subjective hedonic tone could be discriminated from the fMRI response patterns in the posterior orbitofrontal cortex. Thus, the piriform cortex is mainly associated with subjective odor intensity, whereas the posterior orbitofrontal cortex are involved in the discrimination of the subjective hedonic tone of the odorant. UHF-fMRI may be useful for assessing olfactory function in the human brain.

Published

2021

18. Perturbing fMRI brain dynamics using transcranial direct current stimulation

Author

Yiheng Tu, Jin Cao, Seyhmus Guler, Thalia Chai-Zhang, Joan A. Camprodon, Mark Vangel, Randy L. Gollub, Darin D. Dougherty, and Jian Kong

Subjects

Transcranial direct current stimulation, Co-activation patterns, Dorsolateral prefrontal cortex, Orbitofrontal cortex, Brain dynamics, Neuronal excitability, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The dynamic nature of resting-state functional magnetic resonance imaging (fMRI) brain activity and connectivity has drawn great interest in the past decade. Specific temporal properties of fMRI brain dynamics, including metrics such as occurrence rate and transitions, have been associated with cognition and behaviors, indicating the existence of mechanism distruption in neuropsychiatric disorders. The development of new methods to manipulate fMRI brain dynamics will advance our understanding of these pathophysiological mechanisms from native observation to experimental mechanistic manipulation. In the present study, we applied repeated transcranial direct current stimulation (tDCS) to the right dorsolateral prefrontal cortex (rDLPFC) and the left orbitofrontal cortex (lOFC), during multiple simultaneous tDCS-fMRI sessions from 81 healthy participants to assess the modulatory effects of stimulating target brain regions on fMRI brain dynamics. Using the rDLPFC and the lOFC as seeds, respectively, we first identified two reoccurring co-activation patterns (CAPs) and calculated their temporal properties (e.g., occurrence rate and transitions) before administering tDCS. The spatial maps of CAPs were associated with different cognitive and disease domains using meta-analytical decoding analysis. We then investigated how active tDCS compared to sham tDCS in the modulation of the occurrence rates of these different CAPs and perturbations of transitions between CAPs. We found that by enhancing neuronal excitability of the rDLPFC and the lOFC, the occurrence rate of one CAP was significantly decreased while that of another CAP was significantly increased during the first 6 min of stimulation. Furthermore, these tDCS-associated changes persisted over subsequent testing sessions (both during and before/after tDCS) across three consecutive days. Active tDCS could perturb transitions between CAPs and a non-CAP state (when the rDLPFC and the lOFC were not activated), but not the transitions within CAPs. These results demonstrate the feasibility of modulating fMRI brain dynamics, and open new possibilities for discovering stimulation targets and dynamic connectivity patterns that can ensure the propagation of tDCS-induced neuronal excitability, which may facilitate the development of new treatments for disorders with altered dynamics.

Published

2021

19. Structural variations in the sulco-gyral pattern of the orbitofrontal cortex

Author

Krisna Els, Chris Warton, Geney Gunston, Brandon Michael Henry, and Kerri Keet

Subjects

Orbitofrontal cortex, Sulco-gyral pattern, Anatomical variation, Long-term cannabis use, South Africa, Schizophrenia, Human anatomy, QM1-695

Abstract

Background: The orbitofrontal cortex (OFC) is composed of sulci and gyri, which form patterns that are variations of an H-shape. Three pattern types are described with the Type III pattern associated with schizophrenia and increased risk of long-term cannabis use. No studies from Africa have described the prevalence of pattern types of the OFC. The aim of the study was to determine the sulcal and gyral patterns of the OFC in a South African sample, and whether there are any significant differences in these patterns between hemispheres and sex. Methods: A cross-sectional study of 43 embalmed adult brains was undertaken. The patterns of the sulci and gyri of the OFC were investigated, and the prevalence of each pattern type determined. Differences in the prevalence between hemispheres and sex were analyzed with Chi-square tests. Results: Type I was present in 27 hemispheres (31%), Type II in 28 (33%) and Type III in 31 (36%), with no significant differences observed between hemispheres and sex for any of the pattern types. Conclusion: The Type III pattern was found to be the most prevalent in this study. The Type III pattern may result from abnormal folding of the gyrus associated with premature birth. An increased expression of Type III has been observed in patients with an increased risk of developing schizophrenia and substance abuse disorders. Further studies are needed to investigate these associations and whether Type III can be considered as a biomarker for psychiatric disorders.

Published

2021

20. Altered orbitofrontal activation in preterm-born young adolescents during performance of a reality filtering task

Author

Lorena G.A. Freitas, Maria Chiara Liverani, Vanessa Siffredi, Armin Schnider, Cristina Borradori Tolsa, Russia Ha-Vinh Leuchter, Dimitri Van De Ville, and Petra S. Hüppi

Subjects

Preterm, Orbitofrontal Cortex, Reality filtering, fMRI, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Preterm birth is one of the main causes for neurodevelopmental problems, and has been associated with a wide range of impairments in cognitive functions including executive functions and memory. One of the factors contributing to these adverse outcomes is the intrinsic vulnerability of the premature brain. Neuroimaging studies have highlighted structural and functional alterations in several brain regions in preterm individuals across lifetime. The orbitofrontal cortex (OFC) is crucial for a multitude of complex and adaptive behaviours, and its structure is particularly affected by premature birth. Nevertheless, studies on the functional impact of prematurity on the OFC are still missing.Orbitofrontal Reality filtering (ORFi) refers to the ability to distinguish if a thought is relevant to present reality or not. It can be tested using a continuous recognition task and is mediated by the OFC in adults and typically developing young adolescents. Therefore, the ORFi task was used to investigate whether OFC functioning is affected by prematurity. We compared the neural correlates of ORFi in 35 young adolescents born preterm (below 32 weeks of gestation) and aged 10 to 14 years with 25 full term-born controls.Our findings indicate that OFC activation was required only in the full-term group, whereas preterm young adolescents did not involve OFC in processing the ORFi task, despite being able to correctly perform it.

Published

2021

21. Interaction of developmental factors and ordinary stressful life events on brain structure in adults

Author

Kai G. Ringwald, Tina Meller, Simon Schmitt, Till F.M. Andlauer, Frederike Stein, Katharina Brosch, Julia-Katharina Pfarr, Olaf Steinsträter, Susanne Meinert, Hannah Lemke, Lena Waltemate, Katharina Thiel, Dominik Grotegerd, Verena Enneking, Melissa Klug, Andreas Jansen, Andreas J. Forstner, Fabian Streit, Stephanie H. Witt, Marcella Rietschel, Bertram Müller-Myhsok, Markus M. Nöthen, Udo Dannlowski, Axel Krug, Igor Nenadić, and Tilo Kircher

Subjects

Stressful life events, Orbitofrontal cortex, Voxel-based morphometry, Magnetic resonance imaging, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

An interplay of early environmental and genetic risk factors with recent stressful life events (SLEs) in adulthood increases the risk for adverse mental health outcomes. The interaction of early risk and current SLEs on brain structure has hardly been investigated.Whole brain voxel-based morphometry analysis was performed in N = 786 (64.6% female, mean age = 33.39) healthy subjects to identify correlations of brain clusters with commonplace recent SLEs. Genetic and early environmental risk factors, operationalized as those for severe psychopathology (i.e., polygenic scores for neuroticism, childhood maltreatment, urban upbringing and paternal age) were assessed as modulators of the impact of SLEs on the brain.SLEs were negatively correlated with grey matter volume in the left medial orbitofrontal cortex (mOFC, FWE p = 0.003). This association was present for both, positive and negative, life events. Cognitive-emotional variables, i.e., neuroticism, perceived stress, trait anxiety, intelligence, and current depressive symptoms did not account for the SLE-mOFC association. Further, genetic and environmental risk factors were not correlated with grey matter volume in the left mOFC cluster and did not affect the association between SLEs and left mOFC grey matter volume.The orbitofrontal cortex has been implicated in stress-related psychopathology, particularly major depression in previous studies. We find that SLEs are associated with this area. Important early life risk factors do not interact with current SLEs on brain morphology in healthy subjects.

Published

2021

22. Optogenetically-induced long term depression in the rat orbitofrontal cortex ameliorates stress-induced reversal learning impairment

Author

Samantha M. Adler, Milena Girotti, and David A. Morilak

Subjects

Orbitofrontal cortex, Chronic stress, Plasticity, Optogenetics, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429, Neurophysiology and neuropsychology, QP351-495

Abstract

Cognitive flexibility is a higher-order executive function that requires plasticity in neuronal circuits of the prefrontal cortex. Deficits in cognitive flexibility are prominent in a variety of psychiatric disorders, such as major depression, obsessive-compulsive disorder, and posttraumatic stress disorder. Chronic stress induces deficits in cognitive flexibility, perhaps through effects on plasticity, but the mechanism is not well understood. Previous work has demonstrated that stress reduces activity and dendritic elaboration in the medial prefrontal cortex (mPFC). In contrast, stress appears to increase dendritic elaboration in the orbitofrontal cortex (OFC). This suggests that there may be a differential effect of stress on plasticity in different prefrontal cortical areas. To test this hypothesis, we examined the effects of inducing plasticity optogenetically in the OFC on reversal learning, an OFC-mediated form of cognitive flexibility, in stressed and non-stressed rats. Inducing opto-LTD in the projection from mediodorsal thalamus to OFC ameliorated reversal learning deficits in rats exposed to chronic intermittent cold (CIC) stress. Additionally, we found that inducing opto-LTP in non-stressed rats produced deficits in reversal learning similar to those seen in rats after CIC stress. Finally, CIC stress produced complex subregion-specific changes in dendritic material and spine subtype composition in the OFC. These results indicate that the effects of stress on plasticity in the OFC are distinct from those in the mPFC, and that the PFC should therefore not be treated as a homogenous region in studying either stress effects or potential treatments for stress-related psychiatric disorders.

Published

2020

23. Sensation-seeking is related to functional connectivities of the medial orbitofrontal cortex with the anterior cingulate cortex

Author

Zhuo Wan, MSc, Edmund T. Rolls, DSc, Wei Cheng, PhD, and Jianfeng Feng, PhD

Subjects

Orbitofrontal cortex, Functional connectivity, Reward, Non-reward, Impulsivity, Anterior cingulate cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Sensation-seeking is a multifaceted personality trait with components that include experience-seeking, thrill and adventure seeking, disinhibition, and susceptibility to boredom, and is an aspect of impulsiveness. We analysed brain regions involved in sensation-seeking in a large-scale study with 414 participants and showed that the sensation-seeking score could be optimally predicted from the functional connectivity with typically (in different participants) 18 links between brain areas (measured in the resting state with fMRI) with correlation r ​= ​0.34 (p ​= ​7.3 ​× ​10−13) between the predicted and actual sensation-seeking score across all participants. Interestingly, 8 of the 11 links that were common for all participants were between the medial orbitofrontal cortex and the anterior cingulate cortex and yielded a prediction accuracy r ​= ​0.30 (p ​= ​4.8 ​× ​10−10). We propose that this important aspect of personality, sensation-seeking, reflects a strong effect of reward (in which the medial orbitofrontal cortex is implicated) on promoting actions to obtain rewards (in which the anterior cingulate cortex is implicated). Risk-taking was found to have a moderate correlation with sensation-seeking (r ​= ​0.49, p ​= ​3.9 ​× ​10−26), and three of these functional connectivities were significantly correlated (p ​

Published

2020

24. Automated anatomical labelling atlas 3

Author

Edmund T. Rolls, Chu-Chung Huang, Ching-Po Lin, Jianfeng Feng, and Marc Joliot

Subjects

AAL3, Automated anatomical labelling 3, AAL, AAL2, Human brain, Orbitofrontal cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Following a first version AAL of the automated anatomical labeling atlas (Tzourio-Mazoyer et al., 2002), a second version (AAL2) (Rolls et al., 2015) was developed that provided an alternative parcellation of the orbitofrontal cortex following the description provided by Chiavaras, Petrides, and colleagues. We now provide a third version, AAL3, which adds a number of brain areas not previously defined, but of interest in many neuroimaging investigations. The 26 new areas in the third version are subdivision of the anterior cingulate cortex into subgenual, pregenual and supracallosal parts; subdivision of the thalamus into 15 parts; the nucleus accumbens, substantia nigra, ventral tegmental area, red nucleus, locus coeruleus, and raphe nuclei. The new atlas is available as a toolbox for SPM, and can be used with MRIcron.

Published

2020

25. Orbitofrontal cortex grey matter volume is related to children’s depressive symptoms

Author

Matthew R.J. Vandermeer, Pan Liu, Ola Mohamed Ali, Andrew R. Daoust, Marc F. Joanisse, Deanna M. Barch, and Elizabeth P. Hayden

Subjects

Voxel-based morphometry, Depression, Orbitofrontal cortex, Children, Reward, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Adults with a history of depression show distinct patterns of grey matter volume (GMV) in frontal cortical (e.g., prefrontal cortex, orbitofrontal cortex) and limbic (e.g., anterior cingulate, amygdala, hippocampus, dorsal striatum) structures, regions relevant to the processing and regulation of reward, which is impaired in the context of depression. However, it is unclear whether these GMV associations with depression precede depressive disorder onset or whether GMV is related to early emerging symptoms or familial depression. To address these questions, we used voxel-based morphometry (VBM) to examine GMV in 85 community-dwelling children (M = 11.12 years, SD = 0.63 years) screened for current and lifetime depression. Associations between children’s depressive symptoms (self- and mother-report of children’s symptoms), children’s maternal depression history, and GMV were examined. Although maternal depression history was unrelated to children’s GMV, child GMV in the orbitofrontal cortex (OFC) was negatively related to children’s self-reported depressive symptoms, using both a priori ROI and whole-brain analyses. Moderated regression analyses indicated that girls’ GMV was negatively related to girls’ depressive symptoms (as indexed by both self- and mother-report of girls’ symptoms), whereas boys’ symptoms were positively related to GMV. Our findings suggest that brain morphology in the OFC, a region with functional roles in processes relevant to depressive symptoms (i.e., reward-based learning and reward processing), is associated with early depressive symptoms prior to the development of clinically significant depression.

Published

2020

26. Childhood assaultive trauma and physical aggression: Links with cortical thickness in prefrontal and occipital cortices

Author

Nadia Bounoua, Rickie Miglin, Jeffrey M. Spielberg, and Naomi Sadeh

Subjects

Stress exposure, Cycle of violence, Orbitofrontal cortex, Pericalcarine, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Although the link between childhood maltreatment and violence perpetration in adulthood (i.e., the “cycle of violence”) is well-documented, the neural mechanisms driving these processes remain relatively unknown. The objectives of this study were to investigate whether cortical thickness in adulthood varies as a function of childhood assaultive trauma exposure and whether such neurobiological markers of early trauma relate to the perpetration of aggression across the lifespan. In a sample of 138 ethnically-diverse men and women, whole-brain analysis of the cortical mantle revealed that individuals with exposure to assaultive trauma before age 13 had less cortical thickness in two clusters that survived multiple comparison correction: a region that peaked in the left lateral orbitofrontal cortex (OFC) and a region peaking in the right pericalcarine cortex. Diminished cortical thickness in the left OFC cluster was, in turn, associated with greater physical aggression, and mediation analysis revealed that reductions in cortical thickness in this left prefrontal region partially accounted for the association between exposure to childhood assaultive trauma and lifetime perpetration of aggression in adulthood. Findings extend previous investigations into the morphological correlates of early assaultive trauma by implicating reductions in cortical thickness as a potential mechanism linking early violence exposure to violence perpetration that extends into adulthood.

Published

2020

27. Neurobiological Correlates and Predictors of Two Distinct Personality Trait Pathways to Escalated Alcohol Use

Author

Malak Abu Shakra, Marco Leyton, Hussein Moghnieh, Jens Pruessner, Alain Dagher, and Robert Pihl

Subjects

Alcohol, fMRI, Sensation seeking, Anxiety sensitivity, Amygdala, Orbitofrontal cortex, Medicine, Medicine (General), R5-920

Abstract

Background: The delineation of the behavioral neurobiological mechanisms underlying the heterogeneous pathways for alcohol use disorders (AUDs) is ostensibly imperative for the development of more cost-effective treatments predicated on better understanding of this complex psychopathology. Methods: 1) Forty-eight high anxiety sensitive (HAS) and high sensation seeking (HSS) psychopathology-free emerging adults (mean (SD) age: 20.4 (1.9) years) completed a Face Emotion Processing Task and a social stress paradigm (Montreal Imaging Stress Task) during functional magnetic resonance imaging sessions with and without alcohol ingestion (1 ml/kg of 95% USP alcohol, p.o.). Drug and alcohol use was reassessed during follow-up interviews 2–3 years later. Outcomes: The effects of alcohol (versus placebo) ingestion depended upon the task and risk group. In response to negative (versus neutral) faces, alcohol diminished amygdala (AMYG) activations in HAS but not HSS subjects. In response to psychosocial evaluative stress, alcohol enhanced activations of the medial orbitofrontal cortex (mOFC), perigenual anterior cingulate cortex, and nucleus accumbens in HAS male subjects (HASMS), but decreased mOFC activity in HSS male subjects (HSSMS). At follow-up, a greater alcohol versus placebo differential for threat-related AMYG activations predicted escalating drinking and/or illicit drug use among HAS but not HSS participants, whereas a greater differential for mOFC activations during acute social stress predicted escalating substance use among HSS but not HAS participants. Interpretation: This double dissociation provides evidence of distinct neurobiological profiles in a priori identified personality trait-based risk groups for AUDs, and links these signatures to clinically relevant substance use outcomes at follow-up. AUD subtypes might benefit from motivationally and personality-specific ameliorative and preventative interventions.

Published

2018

28. Hope and the brain: Trait hope mediates the protective role of medial orbitofrontal cortex spontaneous activity against anxiety

Author

Song Wang, Xin Xu, Ming Zhou, Taolin Chen, Xun Yang, Guangxiang Chen, and Qiyong Gong

Subjects

Hope, Anxiety, Orbitofrontal cortex, Resting-state fMRI, Fractional amplitude of low-frequency fluctuations, Psychoradiology, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

As a central research topic in the field of positive psychology, hope refers to an individual's goal-oriented expectations that include both agency thinking (i.e., the motivation to initiate and sustain actions to achieve goals) and pathway thinking (i.e., the capacity to find ways toward goals). Evidence from many previous studies has shown the role of hope in protecting against anxiety. However, little is known about the neurobiological basis of hope and the underlying mechanism that how hope reduces anxiety in the brain. Here, we employed fractional amplitude of low-frequency fluctuations (fALFF) to investigate these issues in 231 high school students using resting-state functional magnetic resonance imaging (RS-fMRI). The whole-brain correlation analyses revealed that higher trait hope was related to lower fALFF in the bilateral medial orbitofrontal cortex (mOFC), which is involved in reward-related processing, motivation production, problem solving and goal-directed behaviors. Furthermore, mediation analyses suggested that trait hope acted as a mediator in the association between mOFC spontaneous activity and anxiety. These results persisted even after adjusting for the effects of positive and negative affect. Overall, this study provides the first evidence for functional brain substrates underlying trait hope and reveals a potential mechanism that trait hope mediates the protective role of spontaneous brain activity against anxiety.

Published

2017

29. Electroconvulsive therapy enhances degree centrality in the orbitofrontal cortex in depressive rumination.

Author

Wang H, Zhang T, Zu M, Fan S, Kai Y, Zhang J, Ji Y, Pang X, and Tian Y

Subjects

Humans, Magnetic Resonance Imaging, Brain, Prefrontal Cortex diagnostic imaging, Electroconvulsive Therapy, Depressive Disorder, Major

Abstract

Depressive rumination has been implicated in the onset, duration, and treatment response of refractory depression. Electroconvulsive therapy (ECT) is remarkably effective in treatment of refractory depression by modulating the functional coordination between brain hubs. However, the mechanisms by which ECT regulates depressive rumination remain unsolved. We investigated degree centrality (DC) in 32 pre- and post-ECT depression patients as well as 38 matched healthy controls. An identified brain region was defined as the seed to calculate functional connectivity (FC) in whole brains. Rumination was measured by the Ruminative Response Scale (RRS) and its relationships with identified DC and FC alterations were examined. We found a significant negative correlation between DC of the right orbitofrontal cortex (rOFC) before ECT and brooding level before and after treatment. Moreover, rOFC DC increased after ECT. DC of the left superior temporal gyrus (lSTG) was positively correlated with reflective level before intervention, while lSTG DC decreased after ECT. Patients showed elevated FC in the rOFC with default mode network. No significant association was found between decreased RRS scores and changes in DC and FC. Our findings suggest that functional changes in rOFC and lSTG may be associated with the beneficial effects of ECT on depressive rumination., Competing Interests: Declaration of Competing Interest The authors have no conflicts of interest or financial disclosures to report., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2024

30. Orbitofrontal and striatal metabolism, volume, thickness and structural connectivity in relation to social anhedonia in depression: A multimodal study.

Author

Donnelly BM, Hsu DT, Gardus J, Wang J, Yang J, Parsey RV, and DeLorenzo C

Subjects

Humans, Depression, Fluorodeoxyglucose F18, Brain, Magnetic Resonance Imaging methods, Anhedonia, Depressive Disorder, Major diagnostic imaging, Depressive Disorder, Major drug therapy, Depressive Disorder, Major pathology

Abstract

Background: Social anhedonia is common within major depressive disorder (MDD) and associated with worse treatment outcomes. The orbitofrontal cortex (OFC) is implicated in both reward (medial OFC) and punishment (lateral OFC) in social decision making. Therefore, to understand the biology of social anhedonia in MDD, medial/lateral OFC metabolism, volume, and thickness, as well as structural connectivity to the striatum, amygdala, and ventral tegmental area/nucleus accumbens were examined. A positive relationship between social anhedonia and these neurobiological outcomes in the lateral OFC was hypothesized, whereas an inverse relationship was hypothesized for the medial OFC. The association between treatment-induced changes in OFC neurobiology and depression improvement were also examined., Methods: 85 medication-free participants diagnosed with MDD were assessed with Wisconsin Schizotypy Scales to assess social anhedonia and received pretreatment simultaneous fluorodeoxyglucose positron emission tomography (FDG-PET) and magnetic resonance imaging (MRI), including structural and diffusion. Participants were then treated in an 8-week randomized placebo-controlled double-blind course of escitalopram. PET/MRI were repeated following treatment. Metabolic rate of glucose uptake was quantified from dynamic FDG-PET frames using Patlak graphical analysis. Structure (volume and cortical thickness) was quantified from structural MRI using Freesurfer. To assess structural connectivity, probabilistic tractography was performed on diffusion MRI and average FA was calculated within the derived tracts. Linear mixed models with Bonferroni correction were used to examine the relationships between variables., Results: A significantly negative linear relationship between pretreatment social anhedonia score and structural connectivity between the medial OFC and the amygdala (estimated coefficient: -0.006, 95 % CI: -0.0108 - -0.0012, p-value = 0.0154) was observed. However, this finding would not survive multiple comparisons correction. No strong evidence existed to show a significant linear relationship between pretreatment social anhedonia score and metabolism, volume, thickness, or structural connectivity to any of the regions examined. There was also no strong evidence to suggest significant linear relationships between improvement in depression and percent change in these variables., Conclusions: Based on these multimodal findings, the OFC likely does not underlie social anhedonia in isolation and therefore should not be the sole target of treatment for social anhedonia. This is consistent with previous reports that other areas of the brain such as the amygdala and the striatum are highly involved in this behavior. Relatedly, amygdala-medial OFC structural connectivity could be a future target. The results of this study are crucial as, to our knowledge, they are the first to relate structure/function of the OFC with social anhedonia severity in MDD. Future work may need to involve a whole brain approach in order to develop therapeutics for social anhedonia., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

31. Dissociation of GLP-1 and insulin association with food processing in the brain: GLP-1 sensitivity despite insulin resistance in obese humans

Author

Martin Heni, Stephanie Kullmann, Baptist Gallwitz, Hans-Ulrich Häring, Hubert Preissl, and Andreas Fritsche

Subjects

Glucagon-like peptide-1, Incretin, Brain, fMRI, Orbitofrontal cortex, Brain insulin resistance, Internal medicine, RC31-1245

Abstract

Objective: Glucagon-like peptide-1 (GLP-1) is released into the bloodstream after food intake. In addition to stimulating insulin release, it causes satiety and contributes to the termination of food intake. In this study, we investigated whether endogenous GLP-1 affects food-related brain activity and hunger. Methods: Twenty-four volunteers (12 lean; 12 obese) underwent a 75 g oral glucose tolerance test that promotes GLP-1 secretion. Food cue-induced brain activity was assessed by functional magnetic resonance imaging and GLP-1 concentrations were measured before, 30, and 120 min after glucose intake. Results: The significant increase in GLP-1 levels negatively correlated with a change in the food cue-induced brain activity in the orbitofrontal cortex, a major reward area. This association was independent of simultaneous alterations in insulin and glucose concentrations. The association was present in lean and overweight participants. By contrast, postprandial insulin changes were associated with orbitofrontal activations in lean individuals only. Conclusions: The postprandial release of GLP-1 might alter reward processes in the orbitofrontal cortex and might thereby support the termination of food intake and reduce hunger. While obese persons showed brain insulin resistance, no GLP-1 resistance was observed. Our study provides novel insight into the central regulation of food intake by the incretin hormone GLP-1.

Published

2015

32. Development of the uncinate fasciculus: Implications for theory and developmental disorders

Author

Ingrid R. Olson, Rebecca J. Von Der Heide, Kylie H. Alm, and Govinda Vyas

Subjects

Diffusion tensor imaging, White matter, Orbitofrontal cortex, Autism, Conduct disorder, Anti-social personality disorder, Neurophysiology and neuropsychology, QP351-495

Abstract

The uncinate fasciculus (UF) is a long-range white matter tract that connects limbic regions in the temporal lobe to the frontal lobe. The UF is one of the latest developing tracts, and continues maturing into the third decade of life. As such, individual differences in the maturational profile of the UF may serve to explain differences in behavior. Indeed, atypical macrostructure and microstructure of the UF have been reported in numerous studies of individuals with developmental and psychiatric disorders such as social deprivation and maltreatment, autism spectrum disorders, conduct disorder, risk taking, and substance abuse. The present review evaluates what we currently know about the UF's developmental trajectory and reviews the literature relating UF abnormalities to specific disorders. Additionally, we take a dimensional approach and critically examine symptoms and behavioral impairments that have been demonstrated to cluster with UF aberrations, in an effort to relate these impairments to our speculations regarding the functionality of the UF. We suggest that developmental disorders with core problems relating to memory retrieval, reward and valuation computation, and impulsive decision making may be linked to aberrations in uncinate microstructure.

Published

2015

33. Dynamics of the connectome in Huntington's disease: A longitudinal diffusion MRI study

Author

Omar F.F. Odish, Karen Caeyenberghs, Hadi Hosseini, Simon J.A. van den Bogaard, Raymund A.C. Roos, and Alexander Leemans

Subjects

Graph theoretical analysis, Executive control, Orbitofrontal cortex, Hubs, TRACK-HD, Longitudinal biomarker, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Objectives: To longitudinally investigate the connectome in different stages of Huntington's disease (HD) by applying graph theoretical analysis to diffusion MRI data. Experimental design: We constructed weighted structural networks and calculated their topological properties. Twenty-two premanifest (preHD), 10 early manifest HD and 24 healthy controls completed baseline and 2 year follow-up scans. We stratified the preHD group based on their predicted years to disease onset into a far (preHD-A) and near (preHD-B) to disease onset group. We collected clinical and behavioural measures per assessment time point. Principle observations: We found a significant reduction over time in nodal betweenness centrality both in the early manifest HD and preHD-B groups as compared to the preHD-A and control groups, suggesting a decrease of importance of specific nodes to overall network organization in these groups (FDR adjusted ps

Published

2015

34. 1Hz right orbitofrontal TMS benefits depressed patients unresponsive to dorsolateral prefrontal cortex TMS.

Author

Prentice A, Kolken Y, Tuttle C, van Neijenhof J, Pitch R, van Oostrom I, Kruiver V, Downar J, Sack AT, Arns M, and van der Vinne N

Subjects

Humans, Transcranial Magnetic Stimulation, Dorsolateral Prefrontal Cortex, Prefrontal Cortex

Abstract

Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: JD has received research support from NIH, CIHR, Brain Canada, Ontario Brain Institute, the Klarman Family Foundation, the Arrell Family Foundation, and the Buchan Family Foundation, in-kind equipment support for investigator-initiated trials from MagVenture, is an advisor for BrainCheck, Arc Health Partners and Salience Neuro Health, and is a co-founder of Ampa Health. ATS is Chief Scientific Advisor of PlatoScience, Scientific Advisor of Alpha Brain Technologies, CEO of Neurowear Medical B.V., Director of the International Clinical TMS Certification Course (www.tmscourse.eu) and got equipment support from MagVenture, Deymed Medical and MagStim Company. MA holds equity/stock in neurocare and Sama Therapeutics, serves as consultant to Synaeda, Sama Therapeutics and Roche and is named inventor on patents and intellectual property but receives no royalties. Brainclinics Foundation received equipment support from MagVenture and Deymed. The following authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper: AP, YK, CT, JN, RP, IO, VK and NV.

Published

2023

35. Dopamine D1 receptor in orbitofrontal cortex to dorsal striatum pathway modulates methamphetamine addiction.

Author

Liu M, Mu S, Han W, Tan X, Liu E, Hang Z, Zhu S, Yue Q, and Sun J

Subjects

Prefrontal Cortex metabolism, Neurons metabolism, Receptors, Dopamine D1 metabolism, Corpus Striatum metabolism, Methamphetamine pharmacology

Abstract

The orbitofrontal cortex (OFC)-dorsal striatum (DS) is an important neural circuit that contributes to addictive behavior, including compulsive reinforcement, yet the specific types of neurons that play a major role still need to be further elucidated. Here, we used a place conditioning paradigm to measure the conditioned responses to methamphetamine (MA). The results demonstrated that MA increases the expression of c-Fos, synaptic plasticity in OFC and DS. Patch-clamp recording showed that MA activated projection neurons from the OFC to the DS, and chemogenetic manipulation of neuronal activity in OFC-DS projection neurons affects conditioned place preference (CPP) scores. And the combined patch-electrochemical technique was used to detect the DA release in OFC, the data indicated that the DA release was increased in MA group. Additionally, SCH23390, a D1R antagonist, was used to verify the function of D1R projection neurons, showing that SCH23390 reversed MA addiction-like behavior. Collectively, these findings provide evidence for the D1R neuron is sufficient to regulate MA addiction in the OFC-DS pathway, and the study provides new insight into the underlying mechanism of pathological changes in MA addiction., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

36. Emotional reactivity and its impact on neural circuitry for attention–emotion interaction in childhood and adolescence

Author

Susan B. Perlman, Tyler C. Hein, and Stephanie D. Stepp

Subjects

Emotion, Attention, Orbitofrontal cortex, Emotional reactivity, Development, Adolescence, Neurophysiology and neuropsychology, QP351-495

Abstract

Attention modulation when confronted with emotional stimuli is considered a critical aspect of executive function, yet rarely studied during childhood and adolescence, a developmental period marked with changes in these processes. We employed a novel, and child-friendly fMRI task that used emotional faces to investigate the neural underpinnings of the attention–emotion interaction in a child and adolescent sample (n = 23, age M = 13.46, SD = 2.86, range = 8.05–16.93 years). Results implied modulation of activation in the orbitofrontal cortex (OFC) due to emotional distractor valence, which marginally correlated with participant age. Additionally, parent-reported emotional reactivity predicted the trajectory of BOLD signal increase for fearful emotional face distractors such that participants low in emotional reactivity had a steeper latency to peak activation. Results imply that the use of the OFC to modulate attention in the face of social/emotional stimuli may mature with age and may be tightly coupled with adaptive emotional functioning. Findings are discussed in the context of risk for the development of psychiatric disorders, where increased emotional reactivity is particularly apparent.

Published

2014

37. Altered functional connectivity links in neuroleptic-naïve and neuroleptic-treated patients with schizophrenia, and their relation to symptoms including volition

Author

Weidan Pu, Edmund T. Rolls, Shuixia Guo, Haihong Liu, Yun Yu, Zhimin Xue, Jianfeng Feng, and Zhening Liu

Subjects

Schizophrenia, Volition, Functional connectivity, Precuneus, Negative symptoms, Orbitofrontal cortex, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

In order to analyze functional connectivity in untreated and treated patients with schizophrenia, resting-state fMRI data were obtained for whole-brain functional connectivity analysis from 22 first-episode neuroleptic-naïve schizophrenia (NNS), 61 first-episode neuroleptic-treated schizophrenia (NTS) patients, and 60 healthy controls (HC). Reductions were found in untreated and treated patients in the functional connectivity between the posterior cingulate gyrus and precuneus, and this was correlated with the reduction in volition from the Positive and Negative Symptoms Scale (PANSS), that is in the willful initiation, sustenance, and control of thoughts, behavior, movements, and speech, and with the general and negative symptoms. In addition in both patient groups interhemispheric functional connectivity was weaker between the orbitofrontal cortex, amygdala and temporal pole. These functional connectivity changes and the related symptoms were not treated by the neuroleptics. Differences between the patient groups were that there were more strong functional connectivity links in the NNS patients (including in hippocampal, frontal, and striatal circuits) than in the NTS patients. These findings with a whole brain analysis in untreated and treated patients with schizophrenia provide evidence on some of the brain regions implicated in the volitional, other general, and negative symptoms, of schizophrenia that are not treated by neuroleptics so have implications for the development of other treatments; and provide evidence on some brain systems in which neuroleptics do alter the functional connectivity.

Published

2014

38. Voxel-wise resting-state MEG source magnitude imaging study reveals neurocircuitry abnormality in active-duty service members and veterans with PTSD

Author

Ming-Xiong Huang, Kate A. Yurgil, Ashley Robb, Annemarie Angeles, Mithun Diwakar, Victoria B. Risbrough, Sharon L. Nichols, Robert McLay, Rebecca J. Theilmann, Tao Song, Charles W. Huang, Roland R. Lee, and Dewleen G. Baker

Subjects

MEG, Post-traumatic stress disorder, Amygdala, Ventromedial prefrontal cortex, Orbitofrontal cortex, Precuneous, Computer applications to medicine. Medical informatics, R858-859.7, Neurology. Diseases of the nervous system, RC346-429

Abstract

Post-traumatic stress disorder (PTSD) is a leading cause of sustained impairment, distress, and poor quality of life in military personnel, veterans, and civilians. Indirect functional neuroimaging studies using PET or fMRI with fear-related stimuli support a PTSD neurocircuitry model that includes amygdala, hippocampus, and ventromedial prefrontal cortex (vmPFC). However, it is not clear if this model can fully account for PTSD abnormalities detected directly by electromagnetic-based source imaging techniques in resting-state. The present study examined resting-state magnetoencephalography (MEG) signals in 25 active-duty service members and veterans with PTSD and 30 healthy volunteers. In contrast to the healthy volunteers, individuals with PTSD showed: 1) hyperactivity from amygdala, hippocampus, posterolateral orbitofrontal cortex (OFC), dorsomedial prefrontal cortex (dmPFC), and insular cortex in high-frequency (i.e., beta, gamma, and high-gamma) bands; 2) hypoactivity from vmPFC, Frontal Pole (FP), and dorsolateral prefrontal cortex (dlPFC) in high-frequency bands; 3) extensive hypoactivity from dlPFC, FP, anterior temporal lobes, precuneous cortex, and sensorimotor cortex in alpha and low-frequency bands; and 4) in individuals with PTSD, MEG activity in the left amygdala and posterolateral OFC correlated positively with PTSD symptom scores, whereas MEG activity in vmPFC and precuneous correlated negatively with symptom score. The present study showed that MEG source imaging technique revealed new abnormalities in the resting-state electromagnetic signals from the PTSD neurocircuitry. Particularly, posterolateral OFC and precuneous may play important roles in the PTSD neurocircuitry model.

Published

2014

39. Cortical structural changes related to early antiretroviral therapy (ART) interruption in perinatally HIV-infected children at 5 years of age

Author

Barbara Laughton, Frances Robertson, Emmanuel C. Nwosu, Martha J. Holmes, Francesca Little, Els Dobbels, Ernesta M. Meintjes, Mark F. Cotton, and Andre van der Kouwe

Subjects

ART interruption, Pediatrics, medicine.medical_specialty, medicine.diagnostic_test, Pediatric HIV, business.industry, General Neuroscience, Brain morphometry, Neurosciences. Biological psychiatry. Neuropsychiatry, Magnetic resonance imaging, Cortical thickness, medicine.anatomical_structure, Neuroimaging, Pill, Cortex (anatomy), Cohort, medicine, Orbitofrontal cortex, business, Gyrification, RC321-571, Research Paper

Abstract

ART interruption in children can occur especially in resource-limited settings for reasons including poor adherence, stock-outs, ART intolerance of non-pediatric formulas and pill size, as well as ultimately to test for HIV remission. Although early ART initiation is now standard of care in pediatric HIV management, very little is known on the effect of early ART initiation or subsequent interruption on brain development. This study aimed to investigate the effect of ART interruption on brain cortical thickness (CT) and folding in a subset of children from the Children with HIV Early antiRetroviral therapy (CHER) trial cohort who all started ART before 18 months of age. CHER participants in the neuroimaging follow-up study had magnetic resonance (MRI) scans on a 3T Siemens Allegra brain scanner at age 5.44 ± 0.37 years. MR images were processed using the automated cross-sectional stream in FreeSurfer v6.0 and vertex wise comparisons of CT and local gyrification indices (LGIs) were performed between HIV+ children and HIV- controls, as well as between HIV+ children on interrupted or continuous ART and controls. HIV+ children (n = 46) showed thicker cortex than HIV- children (n = 29) in bilateral frontal and left temporo-insular regions but lower LGIs in left superior and bilateral medial orbitofrontal cortex extending into rostral anterior cingulate. Children on interrupted ART (n = 21) had thicker cortex than HIV- controls in left frontal and right insular regions, but children on continuous treatment (n = 25) showed no difference from controls. Children on both interrupted and continuous ART showed region-specific alterations in LGI relative to controls. Cortical folding appears more sensitive than CT to early life events including early ART and interruption. However, immune health resilience in children can translate to long term preservation of morphometric brain development, especially for those on early and continuous treatment.

Published

2021

40. Maladaptive Avoidance Learning in the Orbitofrontal Cortex in Adolescents With Major Depression

Author

Iliana I. Karipidis, Sophie Emery, Isabelle Häberling, David Willinger, Susanne Walitza, Silvia Brem, Carolina Rauch, Selina Neuer, Gregor Berger, and University of Zurich

Subjects

medicine.medical_specialty, Adolescent, Anhedonia, Cognitive Neuroscience, Prefrontal Cortex, 610 Medicine & health, Learned helplessness, Audiology, behavioral disciplines and activities, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, Avoidance Learning, medicine, Orbitofrontal cortex, Humans, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, 10064 Neuroscience Center Zurich, MID, Biological Psychiatry, Depression (differential diagnoses), Depressive Disorder, Major, Habenula, Connectivity, medicine.diagnostic_test, Mechanism (biology), Depression, 05 social sciences, fMRI, Infant, 10058 Department of Child and Adolescent Psychiatry, medicine.disease, Adolescence, Avoidance, Major depressive disorder, Neurology (clinical), medicine.symptom, Functional magnetic resonance imaging, Psychology, Insula, 030217 neurology & neurosurgery, Clinical psychology

Abstract

Background Understanding the mechanisms in the brain’s incentive network that give rise to symptoms of major depressive disorder (MDD) during adolescence provides new perspectives to address MDD in early stages of development. This functional magnetic resonance imaging study determines whether instrumental vigor and brain responses to appetitive and aversive monetary incentives are altered in adolescent MDD and associated with symptom severity. Methods Adolescents with moderate to severe MDD (n = 30, mean age [SD] = 16.1 [1.4] years) and healthy control subjects (n = 33, mean age = 16.2 [1.9] years) matched for age, sex, and IQ performed a monetary incentive delay task. During outcome presentation, prediction error signals were used to study the response and coupling of the incentive network during learning of cue-outcome associations. A computational reinforcement model was used to assess adaptation of response vigor. Brain responses and effective connectivity to model-derived prediction errors were assessed and related to depression severity and anhedonia levels. Results Participants with MDD behaved according to a more simplistic learning model and exhibited slower learning. Effective connectivity analysis of functional magnetic resonance imaging data revealed that impaired loss error processing in the orbitofrontal cortex was associated with aberrant gain control. Anhedonia scores correlated with loss-related error signals in the posterior insula and habenula. Conclusions Adolescent MDD is selectively related to impaired processing of error signals during loss, but not reward, in the orbitofrontal cortex. Aberrant evaluation of loss outcomes might reflect an early mechanism of how negative bias and helplessness manifest in the brain. This approach sheds light on pathomechanisms in MDD and may improve early diagnosis and treatment selection., Biological Psychiatry: Cognitive Neuroscience and Neuroimaging, 7 (3), ISSN:2451-9022, ISSN:2451-9030

Published

2022

41. State-specific modulation of mood using intracranial electrical stimulation of the orbitofrontal cortex.

Author

Cao D, Liu Q, Zhang J, Li J, and Jiang T

Subjects

Humans, Emotions physiology, Depression, Electric Stimulation, Affect physiology, Prefrontal Cortex physiology

Abstract

Background: Orbitofrontal cortex (OFC) is a promising target for intracranial electrical stimulation (iES) aimed at improving mood states. However, knowledge gaps remain regarding the underlying neural mechanisms of iES effects, such as the effect of the OFC target in comparison with other emotional network targets, the impact of brain state at the time of stimulation, and the neural response induced by iES at both local and network scales., Objective: Our study aims to address the neural mechanisms underlying the effects of iES in improving mood states., Methods: We conducted a study in 24 epilepsy patients who received iES through implanted electrodes in the emotional network and compared the effects of iES on multiple targets in the emotional network., Results: We found that only iES applied to the orbitofrontal cortex (OFC) led to mood improvement and changes in neural activity. We also observed that iES to the OFC suppressed the delta-theta power when the brain was in a low mood state. Moreover, the iES to the OFC decreased delta-theta power and increased gamma power at local regions within the emotional network, and enhanced the information flow through the frequency domain among regions within the emotional network., Conclusions: These findings provide insight into the neural correlates of iES-induced mood improvement and support the potential of iES as a therapeutic intervention for mood disorders., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

42. A Novel Insular/Orbital-Prelimbic Circuit That Prevents Persistent Avoidance in a Rodent Model of Compulsive Behavior.

Author

Martínez-Rivera FJ, Pérez-Torres J, Velázquez-Díaz CD, Sánchez-Navarro MJ, Huertas-Pérez CI, Diehl MM, Phillips ML, Haber SN, and Quirk GJ

Subjects

Humans, Rats, Animals, Prefrontal Cortex physiology, Gyrus Cinguli, Compulsive Behavior, Rodentia, Cerebral Cortex physiology

Abstract

Background: A common symptom of obsessive-compulsive disorder is the persistent avoidance of cues incorrectly associated with negative outcomes. This maladaptation becomes increasingly evident as subjects fail to respond to extinction-based treatments such as exposure-with-response prevention therapy. While previous studies have highlighted the role of the insular-orbital cortex in fine-tuning avoidance-based decisions, little is known about the projections from this area that might modulate compulsive-like avoidance., Methods: Here, we used anatomical tract-tracing, single-unit recording, and optogenetics to characterize the projections from the insular-orbital cortex. To model exposure-with-response prevention and persistent avoidance in rats, we used the platform-mediated avoidance task followed by extinction-with-response prevention training., Results: Using tract-tracing and unit recording, we found that projections from the agranular insular/lateral orbital (AI/LO) cortex to the prefrontal cortex predominantly target the rostral portion of the prelimbic (rPL) cortex and excite rPL neurons. Photoinhibiting this projection induced persistent avoidance after extinction-with-response prevention training, an effect that was still present 1 week later. Consistent with this, photoexcitation of this projection prevented persistent avoidance in overtrained rats. This projection to rPL appears to be key for AI/LO's effects, considering that there was no effect of photoinhibiting AI/LO projections to the ventral striatum or basolateral amygdala., Conclusions: Our findings suggest that projections from the AI/LO to the rPL decreases the likelihood of avoidance behavior following extinction. In humans, this connectivity may share some homology of projections from lateral prefrontal cortices (i.e., ventrolateral prefrontal cortex, orbitofrontal cortex, and insula) to other prefrontal areas and the anterior cingulate cortex, suggesting that reduced activity in these pathways may contribute to obsessive-compulsive disorder., (Copyright © 2022 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2023

43. Distinct suppressing effects of deep brain stimulation in the orbitofrontal cortex on the development, extinction, and reinstatement of methamphetamine-seeking behaviors.

Author

Fattahi M, Eskandari K, Riahi E, Khosrowabadi R, and Haghparast A

Subjects

Rats, Animals, Conditioning, Operant, Extinction, Psychological, Prefrontal Cortex, Recurrence, Methamphetamine, Deep Brain Stimulation methods

Abstract

Aims: The orbitofrontal cortex (OFC) is implicated in compulsive drug-seeking and relapse, the characteristics that result in addiction treatment failure. Structural and functional impairments within the OFC have been detected in many substance use disorders (SUDs). Deep brain stimulation (DBS) is proposed as a promising therapeutic option in treating SUDs. Therefore, the present study aimed to investigate the potential efficacy of DBS application on the various stages of the methamphetamine-conditioned place preference (CPP) paradigm in rats., Main Methods: Electrodes were implanted unilaterally in the rat's right OFC. DBS in the form of high- or low-frequency stimulation (HFS: 130 Hz, LFS: 13 Hz) was applied during the 5-day conditioning phase (a daily 30-min session) or extinction period (30-min session, daily, ten days) of methamphetamine-induced CPP in two separate sets of experiments. Following extinction, place preference was reinstated by injecting a priming dose of methamphetamine (0.25 mg/kg)., Key Findings: The HFS and LFS significantly decreased the methamphetamine place preference when applied over the conditioning period. In the extinction experiment, only HFS could remarkably accelerate the extinction of reward-context associations and even reduce the methamphetamine-induced reinstatement of seeking behaviors., Significance: Conclusively, DBS administration in the OFC demonstrated some positive results, including suppressing effects on the development, maintenance, and relapse of methamphetamine-seeking behavior. These findings encourage conducting more preclinical studies to strongly suggest a wide range of DBS applications in cortical areas such as OFC as an efficient treatment modality for psychostimulant use disorder., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

44. Distinct Patterns of Abnormal Lateral Orbitofrontal Cortex Activity During Compulsive Grooming and Reversal Learning Normalize After Fluoxetine.

Author

Manning EE, Geramita MA, Piantadosi SC, Pierson JL, and Ahmari SE

Subjects

Mice, Animals, Reversal Learning physiology, Grooming, Prefrontal Cortex, Mice, Knockout, Nerve Tissue Proteins physiology, Fluoxetine pharmacology, Obsessive-Compulsive Disorder drug therapy

Abstract

Background: Patients with obsessive-compulsive disorder (OCD) display disrupted performance and abnormal lateral orbitofrontal cortex (LOFC) activity during reversal learning tasks. However, it is unknown whether compulsions and reversal learning deficits share a common neural substrate. To answer this question, we measured neural activity with in vivo calcium imaging in LOFC during compulsive grooming and reversal learning before and after fluoxetine treatment., Methods: Sapap3 knockout (KO) mice were used as a model for OCD-relevant behaviors. Sapap3 KOs and control littermates were injected with a virus encoding GCaMP6f and implanted with gradient-index lenses to visualize LOFC activity using miniature microscopes. Grooming, reversal learning, and neural activity were measured pre- and post-fluoxetine treatment (18 mg/kg, 4 weeks)., Results: Baseline compulsive grooming and reversal learning impairments in KOs improved after fluoxetine treatment. In addition, KOs displayed distinct patterns of abnormal LOFC activity during grooming and reversal learning, both of which normalized after fluoxetine. Finally, reversal learning-associated neurons were distributed randomly among grooming-associated neurons (i.e., overlap is what would be expected by chance)., Conclusions: In OCD, LOFC is disrupted during both compulsive behaviors and reversal learning, but whether these behaviors share common neural underpinnings is unknown. We found that LOFC plays distinct roles in compulsive grooming and impaired reversal learning and their improvement with fluoxetine. These findings suggest that LOFC plays separate roles in pathophysiology and treatment of different perseverative behaviors in OCD., (Copyright © 2022. Published by Elsevier Inc.)

Published

2023

45. Non-invasive vagal nerve stimulation decreases brain activity during trauma scripts

Author

Minxuan Huang, Lucy Shallenberger, Mark Hyman Rapaport, Amit J. Shah, Stacy L. Ladd, Omer T. Inan, Yi-An Ko, Viola Vaccarino, J. Douglas Bremner, Bradley D. Pearce, Nil Z. Gurel, Ammer A. Haffer, Nancy Murrah, Matthew T. Wittbrodt, Md. Mobashir Hasan Shandhi, Zuhayr S. Alam, and Jonathon A. Nye

Subjects

Adult, Male, Vagus Nerve Stimulation, Brain activity and meditation, Emotions, Biophysics, Hippocampus, Insula, Stress, behavioral disciplines and activities, Prefrontal cortex, 050105 experimental psychology, Article, Temporal lobe, lcsh:RC321-571, Premotor cortex, Stress Disorders, Post-Traumatic, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Double-Blind Method, medicine, Humans, 0501 psychology and cognitive sciences, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Brain Mapping, business.industry, Trauma scripts, General Neuroscience, 05 social sciences, Brain, PTSD, medicine.anatomical_structure, Positron-Emission Tomography, Orbitofrontal cortex, Female, Neurology (clinical), business, Neuroscience, Vagal nerve stimulation, 030217 neurology & neurosurgery, Parahippocampal gyrus

Abstract

Background Traumatic stress can have lasting effects on neurobiology and result in psychiatric conditions such as posttraumatic stress disorder (PTSD). We hypothesize that non-invasive cervical vagal nerve stimulation (nVNS) may alleviate trauma symptoms by reducing stress sympathetic reactivity. This study examined how nVNS alters neural responses to personalized traumatic scripts. Methods Nineteen participants who had experienced trauma but did not have the diagnosis of PTSD completed this double-blind sham-controlled study. In three sequential time blocks, personalized traumatic scripts were presented to participants immediately followed by either sham stimulation (n = 8; 0–14 V, 0.2 Hz, pulse width = 5s) or active nVNS (n = 11; 0–30 V, 25 Hz, pulse width = 40 ms). Brain activity during traumatic scripts was assessed using High Resolution Positron Emission Tomography (HR-PET) with radiolabeled water to measure brain blood flow. Results Traumatic scripts resulted in significant activations within the bilateral medial and orbital prefrontal cortex, premotor cortex, anterior cingulate, thalamus, insula, hippocampus, right amygdala, and right putamen. Greater activation was observed during sham stimulation compared to nVNS within the bilateral prefrontal and orbitofrontal cortex, premotor cortex, temporal lobe, parahippocampal gyrus, insula, and left anterior cingulate. During the first exposure to the trauma scripts, greater activations were found in the motor cortices and ventral visual stream whereas prefrontal cortex and anterior cingulate activations were more predominant with later script presentations for those subjects receiving sham stimulation. Conclusion nVNS decreases neural reactivity to an emotional stressor in limbic and other brain areas involved in stress, with changes over repeated exposures suggesting a shift from scene appraisal to cognitively processing the emotional event.

Published

2020

46. What are the neural correlates of meta-cognition and anosognosia in Alzheimer's disease? A systematic review

Author

Rohan Bhome, Jonathan Huntley, Sergi G. Costafreda, Justin Chan, and Brendan Hallam

Subjects

0301 basic medicine, Male, Aging, Inferior frontal gyrus, Neuroimaging, Review, 03 medical and health sciences, 0302 clinical medicine, Neural-correlates, Functional neuroimaging, Alzheimer Disease, Medicine, Humans, Anosognosia, Anterior cingulate cortex, business.industry, General Neuroscience, Medial frontal gyrus, Alzheimer's disease, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, Superior frontal gyrus, Posterior cingulate, Systematic review, Agnosia, Orbitofrontal cortex, Female, Neurology (clinical), Geriatrics and Gerontology, business, Metacognition, Neuroscience, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Awareness of one's own cognitive processes (metacognition) or of one's own illness or deficits (anosognosia) can be impaired in people with Alzheimer's disease (AD). The neural correlates of anosognosia within AD remain inconclusive. Understanding anosognosia is of importance because of its impact on carer burden and increased institutionalization. A systematic review of structural and functional neuroimaging studies was conducted to identify specific brain regions associated with anosognosia within AD. Thirty-two studies were included in the systematic review. Reduced gray matter density, cerebral blood flow, and hypometabolism in 8 key regions were significantly associated with increased anosognosia scores in people with AD. The most frequently associated regions were the inferior frontal gyrus, anterior cingulate cortex, and medial temporal lobe. Other key regions include the superior frontal gyrus, medial frontal gyrus, orbitofrontal cortex, posterior cingulate cortex, and the insula. Identifying brain regions associated with anosognosia can aid understanding and identification of anosognosia in people with AD and potentially facilitate improvements in care., Highlights • Thirty-two studies included within the systematic review. • Eight key brain regions were linked with anosognosia within Alzheimer's disease. • Reduced gray matter density and cerebral blood flow linked with anosognosia. • More homogenous studies needed to be able to conduct meta-analysis.

Published

2020

47. Neurocognitive mechanisms underlying improvement of prosocial responses by a novel implicit compassion promotion task

Author

Stephan Hamann, Sang Hee Kim, and Shin Ah Kim

Subjects

Adult, Male, animal structures, Medial orbitofrontal cortex, Cognitive Neuroscience, media_common.quotation_subject, Prefrontal Cortex, Compassion, Neurosciences. Biological psychiatry. Neuropsychiatry, Attetional bias, Developmental psychology, Attentional Bias, Young Adult, Cognition, Parietal Lobe, Intervention (counseling), Humans, Association (psychology), media_common, Prosocial, fMRI, Empathic distress, Altruism, Magnetic Resonance Imaging, Distress, Neurology, Prosocial behavior, Compassion promotion, Female, Orbitofrontal cortex, Empathy, Psychology, Neurocognitive, Photic Stimulation, Vigilance (psychology), RC321-571

Abstract

Compassion is closely associated with prosocial behavior. Although there is growing interest in developing strategies that cultivate compassion, most available strategies rely on effortful reflective processes. Furthermore, few studies have investigated neurocognitive mechanisms underlying compassion-dependent improvement of prosocial responses. We devised a novel implicit compassion promotion task that operates based on association learning and examined its prosocial effects in two independent experiments. In Experiment 1, healthy adults were assigned to either the compassion or control group. For the intervention task, the compassion group completed word fragments that were consistently related to compassionate responses toward others; in contrast, the control group completed word fragments related to emotionally neutral responses toward others. Following the intervention task, we measured attentional biases to fearful, sad, and happy faces. Prosocial responses were assessed using two measures of helping: the pen-drop test and the helping intentions rating test. In Experiment 2, independent groups of healthy adults completed the same intervention tasks used in Experiment 1. Inside a functional MRI scanner, participants rated empathic care and distress based on either distressful or neutral video clips. Outside the scanner, we assessed the degree of helping intentions toward the victims depicted in the distressful clips. The results of Experiment 1 showed that the compassion promotion task reduced attentional vigilance to fearful faces, which in turn mediated a compassion promotion task-dependent increase in helping intentions. In Experiment 2, relative to the control group, the compassion group showed reduced empathic distress and increased activity in the medial orbitofrontal cortex in response to others' suffering. Furthermore, increased functional connectivity of the medial orbitofrontal and inferior parietal cortex, predicted by reduced empathic distress, explained the increase in helping intentions. These results suggest the potential of implicit compassion promotion intervention to modulate compassion-related and prosocial responses as well as highlight the brain activation and connectivity related to these responses, contributing to our understanding of the neurocognitive mechanisms underlying compassion-dependent prosocial improvement.

Published

2021

48. Neuroanatomical Correlates of Emotion-Related Impulsivity.

Author

Elliott MV, Esmail SAS, Weiner KS, and Johnson SL

Subjects

Adult, Humans, Adolescent, Young Adult, Middle Aged, Frontal Lobe, Impulsive Behavior, Amygdala diagnostic imaging, Magnetic Resonance Imaging methods, Cerebral Cortex diagnostic imaging, Prefrontal Cortex, Cognitive Dysfunction

Abstract

Background: Emotion-related impulsivity (ERI) refers to chronically poor self-control during periods of strong emotion. ERI robustly predicts psychiatric disorders and related problems, yet its neuroanatomical correlates are largely unknown. We tested whether local brain morphometry in targeted brain regions that integrate emotion and control could explain ERI severity., Methods: One hundred twenty-two adults (ages 18-55 years) with internalizing or externalizing psychopathology completed a structural magnetic resonance imaging (MRI) scan, the Three-Factor Impulsivity Index, and the Structured Clinical Interview for DSM-5. The Three-Factor Impulsivity Index measures two types of ERI and a third type of impulsivity not linked to emotion. Cortical reconstruction yielded cortical thickness and local gyrification measurements. We evaluated whether morphometry in the orbitofrontal cortex (OFC), insula, amygdala, and nucleus accumbens was associated with ERI severity. Hypotheses and analyses were preregistered., Results: Lower cortical gyrification in the right lateral OFC was associated with high ERI severity in a full, preregistered model. Separate examinations of local gyrification and cortical thickness also showed a positive association between gyrification in the left lateral OFC and ERI. An integrated measure of hemispheric imbalance in lateral OFC gyrification (right < left) correlated with ERI severity. These findings were specific to ERI and did not appear with non-emotion-related impulsivity., Conclusions: Local gyrification in the lateral OFC is associated with ERI severity. The current findings fit with existing theories of OFC function, strengthen the connections between the transdiagnostic literature in psychiatry and neuroscience, and may guide future treatment development., (Copyright © 2022 Society of Biological Psychiatry. Published by Elsevier Inc. All rights reserved.)

Published

2023

49. Assessment of olfactory information in the human brain using 7-Tesla functional magnetic resonance imaging

Author

Ikuhiro Kida, Uk-Su Choi, Yuka Donoshita, and Hiroshi Ban

Subjects

Adult, Male, Olfactory system, Cognitive Neuroscience, Prefrontal Cortex, Piriform Cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, Olfaction, Amygdala, 050105 experimental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Physical Stimulation, Piriform cortex, MVPA, Odor, Orbitofrontal cortex, Humans, Medicine, 0501 psychology and cognitive sciences, BOLD fMRI, Brain Mapping, medicine.diagnostic_test, business.industry, 05 social sciences, Hedonic tone, Human brain, Olfactory Perception, Magnetic Resonance Imaging, medicine.anatomical_structure, Neurology, nervous system, Female, business, Functional magnetic resonance imaging, Neuroscience, 030217 neurology & neurosurgery, psychological phenomena and processes, RC321-571

Abstract

Olfaction could prove to be an early marker of neurodegenerative diseases, including Alzheimer's and Parkinson's diseases. To use olfaction for disease diagnosis, elucidating the standard olfactory functions in healthy humans is necessary. However, the olfactory function in the human brain is less frequently assessed because of methodological difficulties associated with olfactory-related cerebral areas. Using ultra-high fields (UHF), functional magnetic resonance imaging (fMRI) with high spatial resolution and sensitivity may allow for the measurement of activation in the cerebral areas. This study aimed to apply 7-Tesla fMRI to assess olfactory function in the human brain by exposing individuals to four different odorants for 8 s. We found that olfactory stimulation mainly activated the piriform and orbitofrontal cortex in addition to the amygdala. Among these regions, univariate fMRI analysis indicated that subjective odor intensity significantly correlated with the averaged fMRI signals in the piriform cortex but not with subjective hedonic tone in any region. In contrast, multivariate fMRI analysis showed that subjective hedonic tone could be discriminated from the fMRI response patterns in the posterior orbitofrontal cortex. Thus, the piriform cortex is mainly associated with subjective odor intensity, whereas the posterior orbitofrontal cortex are involved in the discrimination of the subjective hedonic tone of the odorant. UHF-fMRI may be useful for assessing olfactory function in the human brain.

Published

2021

50. Functional coupling of the orbitofrontal cortex and the basolateral amygdala mediates the association between spontaneous reappraisal and emotional response

Author

Bharat B. Biswal, Wei Gao, Jiajin Yuan, Xinran Wu, and Shengdong Chen

Subjects

Adult, Male, Adolescent, Cognitive Neuroscience, Emotions, Prefrontal Cortex, Amygdala, lcsh:RC321-571, Cognitive reappraisal, Young Adult, Basolateral amygdala, medicine, Humans, Association (psychology), Expressive Suppression, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Functional coupling, Actual use, Suppression, Basolateral Nuclear Complex, Reappraisal, Emotion regulation, Centromedial amygdala, Magnetic Resonance Imaging, Dorsolateral prefrontal cortex, medicine.anatomical_structure, Neurology, Female, Orbitofrontal cortex, Self Report, Nerve Net, Psychology, Neuroscience, Photic Stimulation

Abstract

Emotional regulation is known to be associated with activity in the amygdala. The amygdala is an emotion-generative region that comprises of structurally and functionally distinct nuclei. However, little is known about the contributions of different frontal-amygdala sub-region pathways to emotion regulation. Here, we investigated how functional couplings between frontal regions and amygdala sub-regions are involved in different spontaneous emotion regulation processes by using an individual-difference approach and a generalized psycho-physiological interaction (gPPI) approach. Specifically, 50 healthy participants reported their dispositional use of spontaneous cognitive reappraisal and expressive suppression in daily life and their actual use of these two strategies during the performance of an emotional-picture watching task. Results showed that functional coupling between the orbitofrontal cortex (OFC) and the basolateral amygdala (BLA) was associated with higher scores of both dispositional and actual uses of reappraisal. Similarly, functional coupling between the dorsolateral prefrontal cortex (dlPFC) and the centromedial amygdala (CMA) was associated with higher scores of both dispositional and actual uses of suppression. Mediation analyses indicated that functional coupling of the right OFC-BLA partially mediated the association between reappraisal and emotional response, irrespective of whether reappraisal was measured by dispositional use (indirect effect(SE)=-0.2021 (0.0811), 95%CI(BC)= [-0.3851, -0.0655]) or actual use (indirect effect(SE)=-0.1951 (0.0796), 95%CI(BC)= [-0.3654, -0.0518])). These findings suggest that spontaneous reappraisal and suppression involve distinct frontal- amygdala functional couplings, and the modulation of BLA activity from OFC may be necessary for changing emotional response during spontaneous reappraisal.

Published

2021