Multimodal neurophenomenology of advanced concentration absorption meditation: An intensively sampled case study of Jhana

Publication date

2025-01

Authors

Chowdhury, Avijit
Bianciardi, Marta
Chapdelaine, Eric
Riaz, Omar S.
Timmermann, Christopher
van Lutterveld, RemkoORCID 0000-0003-1844-0584
Sparby, Terje
Sacchet, Matthew D.

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Advisors

Supervisors

Document Type

Article

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License

cc_by_nc_nd

Abstract

Using a combination of fMRI, EEG, and phenomenology ratings, we examined the neurophenomenology of advanced concentrative absorption meditation, namely jhanas (ACAM-J), in a practitioner with over 23,000 h of meditation practice. Our study shows that ACAM-J states induce reliable changes in conscious experience and that these experiences are related to neural activity. Using resting-state fMRI functional connectivity, we found that ACAM-J is associated with decreased within-network modularity, increased global functional connectivity (GFC), and desegregation of the default mode and visual networks. Compared to control tasks, the ACAM-J were also related to widespread decreases in broadband EEG oscillatory power and increases in Lempel-Ziv complexity (LZ, a measure of brain entropy). Some fMRI findings varied by the control task used, while EEG results remained consistent, emphasizing both shared and unique neural features of ACAM-J. These differences in fMRI and EEG-measured neurophysiological properties correlated with specific changes in phenomenology – and especially with ACAM-J-induced states of bliss - enriching our understanding of these advanced meditative states. Our results show that advanced meditation practices markedly dysregulate high-level brain systems via practices of enhanced attention to sensations, corroborating recent neurocognitive theories of meditation as the deconstruction of the brain's cortical hierarchy. Overall, our results suggest that ACAM-J is associated with the modulation of large-scale brain networks in both fMRI and EEG, with potential implications for understanding the mechanisms of deep concentration practices and their effects on subjective experience.

Keywords

ACAM-J, Consciousness, fMRI-EEG, Jhana, Meditation, Neurophenomenology, Neurology, Cognitive Neuroscience

Citation

Chowdhury, A, Bianciardi, M, Chapdelaine, E, Riaz, O S, Timmermann, C, van Lutterveld, R, Sparby, T & Sacchet, M D 2025, 'Multimodal neurophenomenology of advanced concentration absorption meditation : An intensively sampled case study of Jhana', NeuroImage, vol. 305, 120973. https://doi.org/10.1016/j.neuroimage.2024.120973