Brain network integration dynamics are associated with loss and recovery of consciousness induced by sevoflurane

Luppi, Andrea I.; Golkowski, Daniel; Ranft, Andreas; Ilg, Rüdiger; Jordan, Denis; Menon, David K.; Stamatakis, Emmanuel A.

doi:10.1002/hbm.25405

Cited by 41 publications

(54 citation statements)

References 120 publications

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“…Complementing extensive previous studies that have sought to implicate specific neuroanatomical regions in supporting consciousness (Boveroux et al, 2010; Hannawi et al, 2015; Huang et al, 2020; Luppi et al, 2019, 2021b; MacDonald et al, 2015; di Perri et al, 2018; Ranft et al, 2016; Spindler et al, 2021; Vanhaudenhuyse et al, 2010; Warnaby et al, 2016), our results reveal that the range of states of consciousness considered here can be characterised by their specific patterns of connectome harmonics, regardless of how they are induced. Despite their different molecular mechanisms of action, ketamine (at psychedelic- like dosage) and the serotonergic psychedelic LSD increase the contribution of high-frequency (fine-grained) connectome harmonics, whereas propofol- and brain injury-induced unconsciousness lead to reduced high-frequency and increased low-frequency connectome harmonics - demonstrating the value of CHD as a neural marker of conscious state across datasets.…”

Section: Discussionsupporting

confidence: 78%

Distributed harmonic patterns of structure-function dependence orchestrate human consciousness

Luppi

Vohryzek

Kringelbach

et al. 2020

Preprint

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A central question in neuroscience is how cognition and consciousness arise from human brain activity. Here, we decompose cortical dynamics of resting-state functional MRI into their constituent elements: the harmonics of the human connectome. Mapping a wide spectrum of consciousness onto these elementary brain states reveals a generalisable connectome harmonic signature of loss of consciousness, whether due to anaesthesia or severe brain injury. Remarkably, its mirror-reversed image corresponds to the harmonic signature of the psychedelic state induced by ketamine or LSD, identifying meaningful relationships between neurobiology, brain function, and conscious experience. The repertoire of connectome harmonics further provides a fine-tuned indicator of level of consciousness, sensitive to differences in anaesthetic dose and clinically relevant sub-categories of patients with disorders of consciousness. Overall, we reveal that the emergence of consciousness from human brain dynamics follows the same universal principles shared by a multitude of physical and biological phenomena: the mathematics of harmonic modes.

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Section: Discussionsupporting

confidence: 78%

Distributed harmonic patterns of structure-function dependence orchestrate human consciousness

Luppi

Vohryzek

Kringelbach

et al. 2020

Preprint

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“…Recently, several measures aiming to objectively assess global states of consciousness independently of motor or sensory functions have been developed (see for example Luppi et al. 2021 ), with a notable convergence in evaluating the complexity of brain activity as indication of the capacity for consciousness ( Sarasso et al.…”

Section: Introductionmentioning

confidence: 99%

Capacity for consciousness under ketamine anaesthesia is selectively associated with activity in posteromedial cortex in rats

Arena

Juel

Comolatti

et al. 2022

Neuroscience of Consciousness

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It remains unclear how specific cortical regions contribute to the brain’s overall capacity for consciousness. Clarifying this could help distinguish between theories of consciousness. Here, we investigate the association between markers of regionally specific (de)activation and the brain’s overall capacity for consciousness. We recorded electroencephalographic responses to cortical electrical stimulation in six rats and computed Perturbational Complexity Index state-transition (PCIST), which has been extensively validated as an index of the capacity for consciousness in humans. We also estimated the balance between activation and inhibition of specific cortical areas with the ratio between high and low frequency power from spontaneous electroencephalographic activity at each electrode. We repeated these measurements during wakefulness, and during two levels of ketamine anaesthesia: with the minimal dose needed to induce behavioural unresponsiveness and twice this dose. We found that PCIST was only slightly reduced from wakefulness to light ketamine anaesthesia, but dropped significantly with deeper anaesthesia. The high-dose effect was selectively associated with reduced high frequency/low frequency ratio in the posteromedial cortex, which strongly correlated with PCIST. Conversely, behavioural unresponsiveness induced by light ketamine anaesthesia was associated with similar spectral changes in frontal, but not posterior cortical regions. Thus, activity in the posteromedial cortex correlates with the capacity for consciousness, as assessed by PCIST, during different depths of ketamine anaesthesia, in rats, independently of behaviour. These results are discussed in relation to different theories of consciousness.

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“…It is well-known that even at rest the brain is not static, but rather it dynamically alternates between a number of recurrent states [9][10][11][12][13][14][15][16] . Such recurrent brain-states may be relevant for cognition [17][18][19][20] and even consciousness [21][22][23][24][25][26][27] , and have been shown to undergo prominent reorganization during the psychedelic state induced by LSD 5,6 and psilocybin 7,28 . Crucially, network control theory approaches enable mapping of the brain's energy landscape by quantifying the energy required to transition between these recurrent states (Figure 1a,b).…”

Section: Introductionmentioning

confidence: 99%

LSD and psilocybin flatten the brain’s energy landscape: insights from receptor-informed network control theory

Singleton

Luppi

Carhart-Harris

et al. 2021

Preprint

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Psychedelics like lysergic acid diethylamide (LSD) offer a powerful window into the function of the human brain and mind, by temporarily altering subjective experience through their neurochemical effects. The RElaxed Beliefs Under Psychedelics (REBUS) model postulates that 5-HT2a receptor agonism allows the brain to explore its dynamic landscape more readily, as suggested by more diverse (entropic) brain activity. Formally, this effect is theorized to correspond to a reduction in the energy required to transition between different brain-states, i.e. a ″flattening of the energy landscape.″ However, this hypothesis remains thus far untested. Here, we leverage network control theory to map the brain′s energy landscape, by quantifying the energy required to transition between recurrent brain states. In accordance with the REBUS model, we show that LSD reduces the energy required for brain-state transitions, and, furthermore, that this reduction in energy correlates with more frequent state transitions and increased entropy of brain-state dynamics. Through network control analysis that incorporates the spatial distribution of 5-HT2a receptors, we demonstrate the specific role of this receptor in flattening the brain′s energy landscape. Also, in accordance with REBUS, we show that the occupancy of bottom-up states is increased by LSD. In addition to validating fundamental predictions of the REBUS model of psychedelic action, this work highlights the potential of receptor-informed network control theory to provide mechanistic insights into pharmacological modulation of brain dynamics.

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Brain network integration dynamics are associated with loss and recovery of consciousness induced by sevoflurane

Cited by 41 publications

References 120 publications

Distributed harmonic patterns of structure-function dependence orchestrate human consciousness

Distributed harmonic patterns of structure-function dependence orchestrate human consciousness

Capacity for consciousness under ketamine anaesthesia is selectively associated with activity in posteromedial cortex in rats

LSD and psilocybin flatten the brain’s energy landscape: insights from receptor-informed network control theory

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