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Alterations in the sense of time, space and body in the Mindfulness-trained brain: A neurophenomenologically-guided MEG study

Aviva Eberkovich-ohana, Yair Edor-ziderman, Joseph Eglicksohn, Abraham Egoldstein

Frontiers in Psychology May 22, 2014 Peer reviewed DOI: 10.3389/fpsyg.2013.00912 via DOAJ

Summary

Long-term mindfulness meditation practitioners experience altered states of consciousness characterized by changes in the perception of time and space. In a study involving 12 participants, brain activity was recorded while they induced states of 'Timelessness' and 'Spacelessness'. The findings revealed distinct neural networks associated with these experiences, particularly in the theta band, with specific brain regions linked to body perception being activated during these altered states.

Study at a glance

Design observational cohort
Sample size 12
Population long-term mindfulness meditation practitioners
Key finding 'Timelessness' and 'Spacelessness' are associated with distinct neural networks related to bodily processing, evidenced by alterations in theta band activity.

Abstract

Meditation practice can lead to what have been referred to as 'altered states of consciousness'. One of the phenomenological characteristics of these states is a joint alteration in the sense of time, space and body. Here, we set out to study the unique experiences of alteration in the sense of time and space by collaborating with a select group of 12 long-term Mindfulness meditation practitioners in a neurophenomenological setup, utilizing first-person data to guide the neural analyses. We hypothesized that the underlying neural activity accompanying alterations in the sense of time and space would be related to alterations in bodily processing.The participants were asked to volitionally bring about distinct states of 'Timelessness' (outside time) and 'Spacelessness' (outside space) while their brain activity was recorded by MEG. In order to rule out the involvement of attention, memory or imagination, we used control states of 'Then' (past) and 'There' (another place). MEG sensors evidencing alterations in power values were identified, and the brain regions underlying these changes were estimated via spatial filtering (beamforming). Particularly, we searched for similar neural activity hypothesized to underlie both the state of 'Timelessness' and 'Spacelessness'. The results were mostly confined to the theta band, and showed that: 1) the 'Then' / 'There' overlap yielded activity in regions related to autobiographic memory and imagery (right posterior parietal lobule, right precentral / middle frontal gyrus, bilateral precuneus); 2) 'Timelessness' / 'Spacelessness' conditions overlapped in a different network, related to alterations in the sense of the body (posterior cingulate, right temporoparietal junction, cerebellum); and 3) phenomenologically-guided neural analyses enabled us to dissociate different levels of alterations in the sense of the body. This study illustrates the utility of employing experienced contemplative practitioners within a neurophenomen

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