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Recent studies suggest that time estimation relies on bodily rhythms and interoceptive signals. We provide the first direct electrophysiological evidence suggesting an association between the brain's processing of heartbeat and duration judgment. We examined heartbeat-evoked potential (HEP) and contingent negative variation (CNV) during an auditory duration-reproduction task and a control reaction-time task spanning 4, 8, and 12 s intervals, in both male and female participants. Interoceptive awareness was assessed with the Self-Awareness Questionnaire (SAQ) and interoceptive accuracy through the heartbeat-counting task (HCT). Results revealed that SAQ scores, but not the HCT, correlated with mean reproduced durations with higher SAQ scores associating with longer and more accurate duration reproductions. Notably, the HEP amplitude changes during the encoding phase of the timing task, particularly within 130-270 ms (HEP1) and 470-520 ms (HEP2) after the R-peak, demonstrated interval-specific modulations that did not emerge in the control task. A significant ramp-like increase in HEP2 amplitudes occurred during the duration-encoding phase of the timing but not during the control task. This increase within the reproduction phase of the timing task correlated significantly with the reproduced durations for the 8 s and the 4 s intervals. The larger the increase in HEP2, the greater the under-reproduction of the estimated duration. CNV components during the encoding phase of the timing task were more negative than those in the reaction-time task, suggesting greater executive resources orientation toward time. We conclude that interoceptive awareness (SAQ) and cortical responses to heartbeats (HEP) predict duration reproductions, emphasizing the embodied nature of time.
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Previously, we observed cortisol induced enhancement of neural fear acquisition in women. Yet, less is known about cortisol effects on neural fear extinction. Via differential fear conditioning, we explored cortisol effects on acquisition and extinction. Twenty contingency aware women taking monophasic oral contraceptives were included; 10 received placebo, 10 cortisol before conditioning. Group differences emerged in anterior cingulate cortex (ACC), hippocampus, and--as trend--in insula and thalamus during acquisition and in hippocampus, thalamus, and--as trend--in amygdala, insula, and ACC during extinction. During acquisition group differences were due to higher responses to the CS+ than to the CS- in the cortisol group. Notably, during extinction, group differences were due to higher responses to the CS- than to the CS+ in this group. Thus, cortisol induced a fear acquisition and extinction specific enhanced neural differentiation.
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INTRODUCTION: Learning processes like classical conditioning are involved in mediating sexual behavior. Yet, the neural bases underlying these processes have not been investigated so far. AIM: The aim of this study was to explore neural activations of classical conditioning of sexual arousal with respect to sex differences and contingency awareness. METHODS: In the acquisition phase, a geometric figure (CS+) was presented for 8 seconds and was followed by highly sexual arousing pictures (UCS), whereas another figure (CS-) predicted neutral pictures. Ratings and contingency awareness were assessed after the entire conditioning procedure. Forty subjects (20 females) were classified into one of four groups according to their sex and the development of contingency awareness (aware females, aware males, unaware females, and unaware males). MAIN OUTCOME MEASURES: Blood oxygen level dependent (BOLD) responses measured by functional magnetic resonance imaging (fMRI), skin conductance responses (SCRs), and subjective ratings. RESULTS: fMRI analysis showed two effects (awareness and sex) when comparing CS+ with CS-: (i) aware compared to unaware subjects showed enhanced differentiation (e.g., ventral striatum, orbitofrontal cortex, occipital cortex); and (ii) men showed increased activity compared to women in the amygdala, thalamus, and brainstem. CS+ and CS- ratings differed in aware subjects only. However, no conditioned SCRs occurred in any group. CONCLUSION: The increased activity in men is in line with theories postulating that men are generally more prone to conditioning of sexual arousal. Further, contingency awareness seems to be an important factor in appetitive learning processes, which facilitates conditioning processes.
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The ability to detect and learn contingencies between fearful stimuli and their predictive cues is an important capacity to cope with the environment. Contingency awareness refers to the ability to verbalize the relationships between conditioned and unconditioned stimuli. Although there is a heated debate about the influence of contingency awareness on conditioned fear responses, neural correlates behind the formation process of contingency awareness have gained only little attention in human fear conditioning. Recent animal studies indicate that the ventral striatum (VS) could be involved in this process, but in human studies the VS is mostly associated with positive emotions. To examine this question, we reanalyzed four recently published classical fear conditioning studies (n = 117) with respect to the VS at three distinct levels of contingency awareness: subjects, who did not learn the contingencies (unaware), subjects, who learned the contingencies during the experiment (learned aware) and subjects, who were informed about the contingencies in advance (instructed aware). The results showed significantly increased activations in the left and right VS in learned aware compared to unaware subjects. Interestingly, this activation pattern was only found in learned but not in instructed aware subjects. We assume that the VS is not involved when contingency awareness does not develop during conditioning or when contingency awareness is unambiguously induced already prior to conditioning. VS involvement seems to be important for the transition from a contingency unaware to a contingency aware state. Implications for fear conditioning models as well as for the contingency awareness debate are discussed.
Erkunden
Eintragsart
Sprache
- Englisch (4)
Thema
- Awareness/physiology
- Adult (3)
- Amygdala/physiology (1)
- Analysis of Variance (1)
- Arousal/*physiology (1)
- Association Learning/*physiology (1)
- Basal Ganglia/blood supply/drug effects/*physiology (1)
- Basal Ganglia/physiology (1)
- Brain Mapping (2)
- Brain/*physiology (1)
- *Brain/physiology (1)
- Brain Stem/physiology (1)
- Conditioning, Classical/drug effects/*physiology (1)
- Conditioning, Classical/*physiology (1)
- Conditioning, Classical/physiology (1)
- contingent negative variation (CNV) (1)
- Contingent Negative Variation/physiology (1)
- Databases, Factual/statistics & numerical data (1)
- Double-Blind Method (1)
- duration reproduction (1)
- Electric Stimulation (1)
- *Electroencephalography (1)
- Evoked Potentials/physiology (1)
- Extinction, Psychological/*physiology (1)
- *Fear/drug effects (1)
- Fear/*physiology (1)
- Female (4)
- Frontal Lobe/physiology (1)
- Galvanic Skin Response (1)
- Gyrus Cinguli/physiology (1)
- *Heart Rate/physiology (1)
- heartbeat-counting task (1)
- heartbeat-evoked potential (HEP) (1)
- Humans (4)
- Hydrocortisone/analysis/*metabolism (1)
- Hydrocortisone/pharmacology (1)
- Image Processing, Computer-Assisted (1)
- *Interoception/physiology (1)
- Magnetic Resonance Imaging (2)
- Magnetic Resonance Imaging/methods (1)
- Male (3)
- Models, Statistical (1)
- Occipital Lobe/physiology (1)
- Oxygen/blood (1)
- Photic Stimulation (1)
- Reaction Time/physiology (1)
- Saliva/chemistry (1)
- Sex Characteristics (1)
- Sexual Behavior/*physiology (1)
- Surveys and Questionnaires (1)
- Thalamus/physiology (1)
- time perception (1)
- *Time Perception/physiology (1)
- Young Adult (3)