Amygdala habituation: A reliable fMRI phenotype

Plichta, Michael M.; Grimm, O.; Morgen, Katrin; Mier, Daniela; Sauer, Christian; Haddad, Leila; Tost, Heike; Esslinger, Christine; Kirsch, Peter; Schwarz, Adam J.; Meyer‐Lindenberg, Andreas

doi:10.1016/j.neuroimage.2014.09.059

Cited by 127 publications

(136 citation statements)

References 44 publications

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“…Based on these prior single-site studies [Johnstone et al, 2005; Lipp et al, 2014; Plichta et al, 2012; Sauder et al, 2013; Van den Bulk et al, 2013], the reliability coefficients for amygdala activation in this study fall within the expected range. Activation was more stable in the right amygdala than the left amygdala, consistent with prior work using the same task (Manuck et al, 2007; Plichta et al, 2014), which may be due to high visuospatial demands of emotion matching rather than underlying neural properties. It has also been suggested that amygdala activation is more reliable to fearful faces than other facial expressions (Sauder et al, 2013; Stark et al, 2004); however, the current block design precluded comparisons by emotional expression.…”

Section: Discussionsupporting

confidence: 84%

“…Emotion labeling and emotion matching were also compared with implicit baseline (consisting of unmodeled fixation events during the intertrial intervals). We selected these contrasts based on prior work with this task [Fakra et al, 2008; Hariri et al, 2000; Lieberman et al, 2007; Plichta et al, 2014]. …”

Section: Methodsmentioning

confidence: 99%

“…The motion-corrected, smoothed, and filtered data were probed for mean and maximum percent signal change for each contrast of interest. Amygdala habituation was calculated based on the amplitude difference between the first and second run of the task for each condition (Blackford et al, 2013; Plichta et al, 2014). …”

Section: Methodsmentioning

confidence: 99%

“…We predicted that variance in activation due to person-related factors would be greater than variance due to site-related factors and that the person effect would be reliable across sites for the amygdala and IFG. Given recent evidence that habituation has more stable test-retest reliability than amplitude of activation for the amygdala (Plichta et al, 2014), we also examined amygdala habituation. In the second study sample, fMRI data for all healthy individuals who had been recruited as control participants in the NAPLS study (for comparison to the CHR sample) were aggregated across sites using two statistical methods.…”

Section: Introductionmentioning

confidence: 99%

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Reliability of an fMRI paradigm for emotional processing in a multisite longitudinal study

Gee

McEwen

Forsyth

et al. 2015

Human Brain Mapping

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Multisite neuroimaging studies can facilitate the investigation of brain-related changes in many contexts, including patient groups that are relatively rare in the general population. Though multisite studies have characterized the reliability of brain activation during working memory and motor functional magnetic resonance imaging tasks, emotion processing tasks, pertinent to many clinical populations, remain less explored. A traveling participants study was conducted with eight healthy volunteers scanned twice on consecutive days at each of the eight North American Longitudinal Prodrome Study sites. Tests derived from generalizability theory showed excellent reliability in the amygdala false(Eρ2=0.82false), inferior frontal gyrus false(normalIFG;Eρ2=0.83false), anterior cingulate cortex false(normalACC;0.2emEρ2=0.76false), insula false(Eρ2=0.85false), and fusiform gyrus false(Eρ2=0.91false) for maximum activation and fair to excellent reliability in the amygdala false(Eρ2=0.44false), IFG false(Eρ2=0.48false), ACC false(Eρ2=0.55false), insula false(Eρ2=0.42false), and fusiform gyrus false(Eρ2=0.83false) for mean activation across sites and test days. For the amygdala, habituation false(Eρ2=0.71false) was more stable than mean activation. In a second investigation, data from 111 healthy individuals across sites were aggregated in a voxelwise, quantitative meta-analysis. When compared with a mixed effects model controlling for site, both approaches identified robust activation in regions consistent with expected results based on prior single-site research. Overall, regions central to emotion processing showed strong reliability in the traveling participants study and robust activation in the aggregation study. These results support the reliability of blood oxygen level-dependent signal in emotion processing areas across different sites and scanners and may inform future efforts to increase efficiency and enhance knowledge of rare conditions in the population through multisite neuroimaging paradigms.

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Section: Discussionsupporting

confidence: 84%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Reliability of an fMRI paradigm for emotional processing in a multisite longitudinal study

Gee

McEwen

Forsyth

et al. 2015

Human Brain Mapping

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“…Other potential sources of these inconsistent findings have been suggested, including differences in habituation to emotional stimuli, which have been noted in individuals with BPD [125,126]. Differences in amygdala habituation to fearful stimuli may be a more reliable neural marker than amygdala activation, which may be more variable across an entire task [127,128]. van Zutphen additionally argues that differences in levels of dissociation in individuals with BPD, which is often not assessed in fMRI studies using emotion processing tasks, may account for differences in amygdala activation -that is, dissociation may disrupt emotion processing and amygdala activation [129].…”

Section: Using Functional Neuroimaging To Refine the Diagnostic Constmentioning

confidence: 99%

Using Functional Neuroimaging to Refine the Diagnostic Construct of Borderline Personality Disorder

Silverman¹,

Schulz²,

Cullen³

2016

J Neuroimaging Psychiatry Neurol

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Neurobiological correlates of violence perception in martial artists

et al. 2019

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Objectives The direct exertion as well as the visual perception of violence can have a hedonistic effect and elicit positive arousal in predisposed individuals. This appetitive aspect of aggression in healthy subjects has been neglected in psychiatric research so far. Methods Using functional magnetic resonance imaging, we tested whether subjects trained in sports with a violent component (martial arts) show altered brain responses in reward‐associated brain areas when compared to controls. Sixteen martial artists (e.g., boxing, mixed martial arts) and 24 controls watched violent versus neutral pictures while performing a cognitive cover task. Subjects’ aggressiveness was assessed by the aggressiveness factors questionnaire (FAF). Results While watching violent pictures, martial artists had a stronger activation in the left amygdala than controls. Within the martial artist group however, there was an inverse correlation between activation in the left amygdala and degree of aggressiveness. Conclusions Higher amygdala activation while watching violent pictures might reflect that perception of violence conveys increased salience to martial artists as compared to controls. The inverse correlation between amygdala activation and aggressiveness within the martial artist group might be explained by the assumption that the more aggressive martial artists may be more accustomed to violent situations leading to a down‐modulation of amygdala activation. Appetitive aggression should be taken into account as a factor contributing to violence.

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Amygdala habituation: A reliable fMRI phenotype

Cited by 127 publications

References 44 publications

Reliability of an fMRI paradigm for emotional processing in a multisite longitudinal study

Reliability of an fMRI paradigm for emotional processing in a multisite longitudinal study

Using Functional Neuroimaging to Refine the Diagnostic Construct of Borderline Personality Disorder

Neurobiological correlates of violence perception in martial artists

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