Brain-heart interactions in the neurobiology of consciousness

Candia-Rivera, Diego

doi:10.31219/osf.io/xm8ns

Cited by 5 publications

(10 citation statements)

References 159 publications

(261 reference statements)

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“…The study of mental stress elicited in other paradigms, such as mental arithmetic, could give a broader view of the physiological processes involved in brain–heart information exchange. Our study confirms the advantages of analyzing the interactions between brain and heart, instead of studying heart rate and brain dynamics separately [19,67], to understand the origin and potential pathways of the observed physiological changes. The understanding of brain–heart dynamics and the neurophysiological substrates of stress has clinical relevance.…”

Section: Discussionsupporting

confidence: 78%

“…The existing EEG evidence is described as neural correlates, which does not imply causality between the observed parallel changes in brain and autonomic activities [19]. For instance, acute stress triggers parallel fluctuations in heart rate variability and functional connectivity between central executive and default mode networks [20].…”

Section: Introductionmentioning

confidence: 99%

“…However, the existing experimental evidence has not yet described the mutual and bidirectional interplay between central and autonomic nervous systems under stress. The existing EEG evidence is described as neural correlates, which does not imply causality between the observed parallel changes in brain and autonomic activities [19]. For instance, acute stress triggers parallel fluctuations in heart rate variability and functional connectivity between central executive and default mode networks [20].…”

Section: Introductionmentioning

confidence: 99%

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Dynamic fluctuations in ascending heart–to–brain communication under mental stress

Candia-Rivera

Norouzi

Ramsøy

et al. 2022

Preprint

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Previous endeavors have revealed how the dynamical information exchange between central and autonomous nervous systems, as measured from brain-heart interplay, can explain emotional arousal and physical stress. In this study, we test our recently proposed computational framework for a functional brain-heart interplay assessment; the Sympatho-Vagal Synthetic Data Generation Model. The model estimates the causal and bidirectional neural modulations between EEG oscillations and sympathetic/parasympathetic activity. Here, mental stress is elicited by increasing the cognitive demand and quantified on 37 human volunteers. The increase on mental stress induced an increased variability on heart-to-brain functional interplay, primarily from sympathetic activity on EEG oscillations in the delta and beta bands. Existing theoretical and experimental evidence has shown that stress involves top-down neural dynamics in the brain. Therefore, our results show that mental stress involves dynamic and bidirectional neural interactions at a brain-body level as well, where bodily feedback shapes the perceived stress caused by an increased cognitive demand. We conclude that brain-heart interplay estimators are suitable biomarkers for stress measurements.

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Section: Discussionsupporting

confidence: 78%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Dynamic fluctuations in ascending heart–to–brain communication under mental stress

Candia-Rivera

Norouzi

Ramsøy

et al. 2022

Preprint

Self Cite

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“…In recent years, there has been a substantial increase in the number of studies on interoception that aim to describe the mechanisms involved in the sensing of inner bodily signals and their influence on brain dynamics. [1][2][3] Interoception includes the sensing of cardiac, respiratory, and gut signaling. 4 More in general, interoception has been defined as the sense of physiological condition of the entire body, 5 which can potentially include other interoceptive submodalities, such as thermosensation, pain, or affective touch.…”

Section: Introductionmentioning

confidence: 99%

“…[7][8][9] The functions associated with interoceptive processes include homeostatic and allostatic regulation as well as the integration of information that enables bodily awareness and consciousness. 1,3,[10][11][12][13] Evidence has demonstrated that neural responses to heartbeats contribute to visual, 14 somatosensory, 15 auditory, 16,17 and self-perception. [18][19][20] Further, recent evidence has suggested that breathing is aligned with the perception of sensory inputs, 21,22 suggesting that it is involved in perceptual sensitivity modulation and, possibly, shaping neural dynamics.…”

Section: Introductionmentioning

confidence: 99%

Confounding effects of heart rate, breathing rate, and frontal fNIRS on interoception

Candia-Rivera

Sappia

Horschig³

et al. 2022

Preprint

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Recent studies have established that cardiac and respiratory phases can modulate perception and related neural dynamics. While heart rate and respiratory sinus arrhythmia are possibly affecting interoception biomarkers, such as heartbeat-evoked potentials, the relative changes in heart rate and cardiorespiratory dynamics in interoceptive processes have not yet been investigated. In this study, we investigated the variation in heart and respiration rates, as well as higher functional dynamics including cardiorespiratory correlation and frontal hemodynamics, during cardiac awareness tasks. To further investigate the functional physiology linked to changes in vagal activity caused by specific respiratory rates, we studied cardiac awareness and controlled respiration rate. The results demonstrate that focusing on heartbeats decreases respiration and heart rates in comparison, which may be part of the physiological mechanisms related to 'listening' to the heart, the focus of attention, and self-awareness. Focusing on heartbeats was also observed to increase frontal connectivity, supporting the role of frontal structures in the neural monitoring of visceral inputs. However, cardiorespiratory correlation is affected by both interoceptive and controlled respiration. Based on these results, we concluded that variations in heart and respiratory rates are confounding factors in the assessment of interoceptive abilities and relative fluctuations in respiration and heart rates should be considered to be a mode of covariate measurement of interoceptive processes.

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Neuroscience of consciousness in the locked‐in syndrome: Prognostic and diagnostic review

Maciejewicz

2022

Ibrain

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The neurological illness known as a locked-in syndrome is brought on by damage to the brainstem, usually as a consequence of a stroke. It is characterized by total paralysis with intact consciousness and cognitive capacity. The subjective experiences of people with locked-in syndrome are poorly understood. Presently, there is no systematic evaluation developed to describe them. The most compelling resources come from individuals' own words; however, only a small fraction of these accounts have been explored.When it comes to bioethics, locked-in syndrome protocols are almost completely absent. Investigations on how people with this condition feel about their sense of continuity are of importance. Utilizing the locked-in syndrome to pose questions on embodied cognition and levels of consciousness could serve as a lens through which to examine problems in the phenomenology of neuroparalysis and communication. Care and quality of patients' lives might be improved by an effort to understand this condition better, and ontological questions like "what makes a person a person?," "what makes a person appear in continuity?," and "what are the dynamics of embodiment and intersubjectivity?" might be better explored through that lens. This article aims to explore some biomedical factors that contribute to locked-in syndrome and offers some prognostic and diagnostic recommendations for this rare condition.

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Brain-heart interactions in the neurobiology of consciousness

Cited by 5 publications

References 159 publications

Dynamic fluctuations in ascending heart–to–brain communication under mental stress

Dynamic fluctuations in ascending heart–to–brain communication under mental stress

Confounding effects of heart rate, breathing rate, and frontal fNIRS on interoception

Neuroscience of consciousness in the locked‐in syndrome: Prognostic and diagnostic review

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