Selective Biasing of a Specific Bistable-Figure Percept Involves fMRI Signal Changes in Frontostriatal Circuits: A Step Toward Unlocking the Neural Correlates of Top-Down Control and Self-Regulation

Raz, Amir; Lamar, Melissa; Buhle, Jason T.; Kane, Michael J.; Peterson, Bradley S.

doi:10.1080/00029157.2007.10401611

Cited by 26 publications

(21 citation statements)

References 90 publications

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“…Other depth studies used methods more similar to those used for binocular rivalry, such as multivoxel pattern analysis [8], event-related adaptation [15], event-related designs in which brain activation was correlated to changes in perceived depth [5,16], or adaptation in a block design to assess population responsiveness to different types of depth stimuli [14]. These differences in methodology also mean that subjects performed a task in rivalry or multistabiity studies using event-related designs [5,19,20,22,[28][29][30]32,33,36], or block designs [1,2,26,31,34,35], but subjects did not perform tasks in depth studies [3,6,[9][10][11][12][13]17], although there are a few exceptions to this generalization for depth [2,4,5,7,17]. Also, a few rivalry or multistability studies did not use a task [21,37,61], and some rivalry studies used fixation tasks unrelated to the perception of rivalry [23,28].…”

Section: Methodological Issues In Fmri Studies and Role Of Frontal Areasmentioning

confidence: 99%

“…These frontal and parietal areas were the most frequently reported sites of activation in these studies. However, several studies confirmed that activation also occurs in occipital areas, including ventral occipital (fusiform gyrus) [1,29,32,36], medial temporal areas (hMT+) [19,30,32,33,[35][36][37][38] and areas V1, V2, V3, V3A or V4-d topo [1,5,31,32,37,38].…”

Section: Multistabilitymentioning

confidence: 99%

“…In general, multistability studies have used methods which are quite similar to those used in rivalry studies. For example, a large number of multistability studies used event-related designs correlating brain activation to reversals [29,30,32,33,36], while others used block designs comparing multistability to baseline conditions [31,34,35,37], or multivariate pattern analysis to predict perceptual states [38].…”

Section: Methodological Issues In Fmri Studies and Role Of Frontal Areasmentioning

confidence: 99%

“…These parietal areas included superior parietal lobe [1,19,30,32,[34][35][36][37][38], intraparietal sulcus [1,19,29,30,[32][33][34][35][36][37][38] and temporoparietal junction [19,29,30,32,33,[35][36][37]. The frontal sites of activation which also could be related to attention included dorsolateral prefrontal cortex or middle frontal gyrus [1,19,31,32,[34][35][36], ventrolateral prefrontal cortex or inferior frontal gyrus [1,19,30,33]. Again, as was seen earlier for rivalry, a number of frontal areas were present which could be associated with attention or the preparation and execution of motor reports, such as frontal eye fields, anterior cingulate [1,19,29,[30][31][32]…”

Section: Multistabilitymentioning

confidence: 99%

“…The frontal sites of activation which also could be related to attention included dorsolateral prefrontal cortex or middle frontal gyrus [1,19,31,32,[34][35][36], ventrolateral prefrontal cortex or inferior frontal gyrus [1,19,30,33]. Again, as was seen earlier for rivalry, a number of frontal areas were present which could be associated with attention or the preparation and execution of motor reports, such as frontal eye fields, anterior cingulate [1,19,29,[30][31][32][33][34] and supplementary motor area [1,33,35,36]. These frontal and parietal areas were the most frequently reported sites of activation in these studies.…”

Section: Multistabilitymentioning

confidence: 99%

See 4 more Smart Citations

Neural Mechanisms for Binocular Depth, Rivalry and Multistability

Buckthought¹,

Mendola²

2012

Visual Cortex - Current Status and Perspectives

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Section: Methodological Issues In Fmri Studies and Role Of Frontal Areasmentioning

confidence: 99%

Section: Multistabilitymentioning

confidence: 99%

Section: Methodological Issues In Fmri Studies and Role Of Frontal Areasmentioning

confidence: 99%

Section: Multistabilitymentioning

confidence: 99%

Section: Multistabilitymentioning

confidence: 99%

See 3 more Smart Citations

Neural Mechanisms for Binocular Depth, Rivalry and Multistability

Buckthought¹,

Mendola²

2012

Visual Cortex - Current Status and Perspectives

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Differences in neural activity when processing emotional arousal and valence in autism spectrum disorders

Tseng

Wang

Huo

et al. 2015

Human Brain Mapping

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Individuals with autism spectrum disorders (ASD) often have difficulty recognizing and interpreting facial expressions of emotion, which may impair their ability to navigate and communicate successfully in their social, interpersonal environments. Characterizing specific differences between individuals with ASD and their typically-developing (TD) counterparts in the neural activity subserving their experience of emotional faces may provide distinct targets for ASD interventions. Thus we used functional magnetic resonance imaging (fMRI) and a parametric experimental design to identify brain regions in which neural activity correlated with ratings of arousal and valence for a broad range of emotional faces. Participants (51 ASD, 84 TD) were group-matched by age, sex, IQ, race, and socioeconomic status. Using task-related change in blood-oxygen-level-dependent (BOLD) fMRI signal as a measure, and covarying for age, sex, FSIQ, and ADOS scores, we detected significant differences across diagnostic groups in the neural activity subserving the dimension of arousal but not valence. BOLD-signal in TD participants correlated inversely with ratings of arousal in regions associated primarily with attentional functions, whereas BOLD-signal in ASD participants correlated positively with arousal ratings in regions commonly associated with impulse control and default-mode activity. Only minor differences were detected between groups in the BOLD signal correlates of valence ratings. Our findings provide unique insight into the emotional experiences of individuals with ASD. Although behavioral responses to face-stimuli were comparable across diagnostic groups, the corresponding neural activity for our ASD and TD groups differed dramatically. The near absence of group differences for valence correlates and the presence of strong group differences for arousal correlates suggest that individuals with ASD are not atypical in all aspects of emotion-processing. Studying these similarities and differences may help us to understand the origins of divergent interpersonal emotional experience in persons with ASD.

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The top‐down regulation from the prefrontal cortex to insula via hypnotic aversion suggestions reduces smoking craving

Chen

et al. 2018

Human Brain Mapping

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Hypnosis has been shown to have treatment effects on nicotine addiction. However, the neural basis of these effects is poorly understood. This preliminary study investigated the neural mechanisms of hypnosis‐based treatment on cigarette smoking, specifically, whether the hypnosis involves a top‐down or bottom‐up mechanism. Two groups of 45 smokers underwent a smoking aversion suggestion and viewed smoking‐related pictures and neutral pictures. One group underwent functional magnetic resonance imaging scanning twice (control and hypnotic states), whereas the other group underwent two electroencephalograph sessions. Our study found that self‐reported smoking craving decreased in both groups following hypnosis. Smoking cue‐elicited activations in the right dorsal lateral prefrontal cortex (rDLPFC) and left insula (lI) and the functional connectivity between the rDLPFC and lI were increased in the hypnotic state compared with the control state. The delta band source waveforms indicated the activation from 390 to 862 ms at the rDLPFC and from 490 to 900 ms at the lI was significantly different between the smoking and neutral conditions in the hypnotic state, suggesting the activation in the rDLPFC preceded that in the lI. These results suggest that the decreased smoking craving via hypnotic aversion suggestions may arise from the top‐down regulation of the rDLPFC to the lI. Our findings provide novel neurobiological evidence for understanding the therapeutic effects of hypnosis on nicotine addiction, and the prefrontal–insula circuit may serve as an imaging biomarker to monitor the treatment efficacy noninvasively.

show abstract

Selective Biasing of a Specific Bistable-Figure Percept Involves fMRI Signal Changes in Frontostriatal Circuits: A Step Toward Unlocking the Neural Correlates of Top-Down Control and Self-Regulation

Cited by 26 publications

References 90 publications

Neural Mechanisms for Binocular Depth, Rivalry and Multistability

Neural Mechanisms for Binocular Depth, Rivalry and Multistability

Differences in neural activity when processing emotional arousal and valence in autism spectrum disorders

The top‐down regulation from the prefrontal cortex to insula via hypnotic aversion suggestions reduces smoking craving

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