Active tactile discrimination is coupled with and modulated by the cardiac cycle

Galvez-Pol, Alejandro; Virdee, Pavandeep; Villacampa, Javier; Kilner, James M.

doi:10.7554/elife.78126

Cited by 21 publications

(6 citation statements)

References 78 publications

(143 reference statements)

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“…Thereby, heart-to-brain information flow seems to change more broadly (in time and space) with different affective states than - in the opposite direction - the brain-to-heart information flow. This supports the view that signals from the internal body (e.g., the heart) influence our perception of the world and our interaction with it (Ohl et al, 2016; Kunzendorf et al, 2019; Motyka et al, 2019; Galvez-Pol et al, 2022). Changes in bodily rhythms, as they occur in different affective states, change attentional processes (Sutherland & Mather, 2018) or - more generally - the way in which sensory evidence is accumulated (Allen et al, 2022), for example through increased ascending (heart-to-brain) compared to reduced descending (brain-to-heart) information flow.…”

Section: Discussionsupporting

confidence: 82%

Linking brain-heart interactions to emotional arousal in immersive virtual reality

Fourcade,

Klotzsche,

Hofmann

et al. 2024

Preprint

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The subjective experience of emotions is rooted in the contextualized perception of changes in bodily (e.g., heart) activity. Increased emotional arousal (EA) has been related to lower high- frequency heart rate variability (HF-HRV), lower EEG parieto-occipital alpha power, and higher heartbeat-evoked potential (HEP) amplitudes. We studied EA-related brain-heart interactions (BHIs) using immersive virtual reality (VR) for naturalistic yet controlled emotion induction. 29 healthy adults (13 women, age: 26±3) completed a VR experience that included rollercoasters while EEG and ECG were recorded. Continuous EA ratings were collected during a video replay immediately after. We analyzed EA-related changes in HF-HRV as well as in BHIs using HEPs and directional functional BHI modeling.Higher EA was associated with lower HEP amplitudes in a left fronto-central electrode cluster. While parasympathetic modulation of the heart (HF-HRV) and parieto-occipital EEG alpha power were reduced during higher EA, there was no evidence for the hypothesized EA-related changes in bidirectional information flow between them. Whole-brain exploratory analyses in additional EEG (delta, theta, alpha, beta and gamma) and HRV (low-frequency, LF, and HF) frequency bands indicated a temporo-occipital cluster, in which higher EA was linked to decreased brain-to-heart (gamma→HF-HRV) and increased heart-to-brain (LF-HRV→gamma) information flow. Our results confirm previous findings from less naturalistic experiments and suggest EA-related BHI changes in temporo-occipital gamma power.

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Section: Discussionsupporting

confidence: 82%

Linking brain-heart interactions to emotional arousal in immersive virtual reality

Fourcade,

Klotzsche,

Hofmann

et al. 2024

Preprint

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“…To assess on the group level whether the daily practice data were uniformly distributed or, alternatively, oriented towards a specific time, we used a Rayleigh-test (Landler et al, 2021; Mardia, 1975). We adapted code from (Galvez-Pol et al, 2022). To test for differences between two circular distributions (OCD, HV), we followed the recommendations of Landler et al, 2021 and employed the high-powered Watson’s U 2 test, a non-parametric rank-based test (function watson.two.test in R).…”

Section: Methodsmentioning

confidence: 99%

Action-sequence learning, habits and automaticity in obsessive-compulsive disorder

Banca

Ruiz

González-Zalba

et al. 2023

Preprint

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Enhanced habit formation, greater automaticity and impaired goal/habit arbitration in obsessive-compulsive disorder (OCD) are key hypotheses from the goal/habit imbalance theory of compulsion which have not been directly investigated. This article tests these hypotheses using a combination of newly developed behavioral tasks. First, we trained patients with OCD and healthy controls, using a novel smartphone app, to perform chunked action sequences, previously shown to engage habit brain circuitry. The motor training was daily over one month period. There was equivalent procedural learning and attainment of habitual performance (measured with an objective criteria of automaticity) in both groups, despite greater subjective habitual tendencies in patients with OCD, self-reported via a recently developed questionnaire. We then used a combination of follow-up behavioral tasks to further assess the arbitration between previous automatic and new goal-directed action sequences. We found no evidence for impairments of goal/habit arbitration in OCD following re-evaluation based on monetary feedback, although there was a greater preference for engaging in the trained habitual sequence under certain conditions which may have derived from its intrinsic value. These findings may lead to a reformulation of the goal/habit imbalance hypothesis in OCD. Finally, OCD patients with higher compulsivity scores and habitual tendencies showed more engagement with the motor habit-training app and reported symptom alleviation, with implications for its potential use as a form of habit reversal therapy.

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“…It is likely that these signals undergo similar causal inference processes early in development, enabling the precise predictions required for homeostatic survival. Moreover, recent evidence has shown that active sampling of the external world by exteroceptive senses such as vision and touch are unconsciously timed to the cardiac cycle to allow better signal-to-noise differentiation [124,125].…”

Section: Interoceptive Signalsmentioning

confidence: 99%

Multisensory decisions from self to world

Zaidel,

Salomon

2023

Phil. Trans. R. Soc. B

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Classic Bayesian models of perceptual inference describe how an ideal observer would integrate ‘unisensory’ measurements (multisensory integration) and attribute sensory signals to their origin(s) (causal inference). However, in the brain, sensory signals are always received in the context of a multisensory bodily state—namely, in combination with other senses. Moreover, sensory signals from both interoceptive sensing of one's own body and exteroceptive sensing of the world are highly interdependent and never occur in isolation. Thus, the observer must fundamentally determine whether each sensory observation is from an external (versus internal, self-generated) source to even be considered for integration. Critically, solving this primary causal inference problem requires knowledge of multisensory and sensorimotor dependencies. Thus, multisensory processing is needed to separate sensory signals. These multisensory processes enable us to simultaneously form a sense of self and form distinct perceptual decisions about the external world. In this opinion paper, we review and discuss the similarities and distinctions between multisensory decisions underlying the sense of self and those directed at acquiring information about the world. We call attention to the fact that heterogeneous multisensory processes take place all along the neural hierarchy (even in forming ‘unisensory’ observations) and argue that more integration of these aspects, in theory and experiment, is required to obtain a more comprehensive understanding of multisensory brain function. This article is part of the theme issue ‘Decision and control processes in multisensory perception’.

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Active tactile discrimination is coupled with and modulated by the cardiac cycle

Cited by 21 publications

References 78 publications

Linking brain-heart interactions to emotional arousal in immersive virtual reality

Linking brain-heart interactions to emotional arousal in immersive virtual reality

Action-sequence learning, habits and automaticity in obsessive-compulsive disorder

Multisensory decisions from self to world

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