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Saketh Malipeddi

Royal Ottawa Mental Health Centre

4 papers in the library · 7 citations · publishing 2024-2026

Papers

The Balanced Mind and its Intrinsic Neural Timescales in Advanced Meditators

bioRxiv Preprint Server August 29, 2024 Saketh Malipeddi, Arun Sasidharan, Rahul Venugopal et al. 4 citations preprint

Advanced meditators from the Isha Yoga tradition show shorter intrinsic neural timescales (INTs) during breath-watching, indicating deidentification with mental contents, and no significant differences in INTs between tasks, indicating non-dual awareness. Shorter INTs correlate with self-reported equanimity. The brain's intrinsic neural timescales may serve as a neural marker of equanimity.

Time-to-onset and temporal dynamics of EEG during breath-watching meditation

bioRxiv Preprint Server February 11, 2025 Saketh Malipeddi, Arun Sasidharan, Rahul Venugopal et al. 2 citations preprint

Meditation alters brain activity, particularly in alpha and theta frequency bands, but most research has focused on average power changes from rest to meditation rather than how quickly these changes emerge. This gap means little is known about the time-to-onset and temporal dynamics of neural shifts during meditation practice.

Similar States, Different Paths: Neurodynamics of diverse meditation techniques

bioRxiv (Cold Spring Harbor Laboratory) June 26, 2025 Prakash Shrimali, Arun Sasidharan, Saketh Malipeddi et al. 1 citation preprint

Meditation involves training attention inward, but the brain activity that distinguishes meditative from non-meditative states across different traditions is not well understood. Analyzing high-density EEG data from 170 participants—121 advanced meditators and 49 controls—across Vipassana, Brahma Kumaris Raja Yoga, Heartfulness, and Isha Yoga traditions, researchers used random forest classifiers to distinguish meditative from non-meditative states with 91% accuracy. Nonlinear features contributed most, indicating a core neurodynamic profile. Classification was higher in advanced meditators (92%) than controls (85%), with different feature importance: nonlinear and aperiodic features dominated in meditators, while oscillatory and timescale features dominated in controls. Each tradition showed distinct neurodynamic profiles, suggesting multiple pathways lead to meditative states.

Non-duality in brain and experience of advanced meditators—key role for intrinsic neural timescales

Communications Biology June 12, 2026 Saketh Malipeddi, Arun Sasidharan, Bianca Ventura et al.

Advanced meditators from the Isha Yoga tradition report stronger non-dual experiences—where the boundary between self and environment dissolves—during breath-watching meditation compared to novices and meditation-naïve controls. Using EEG-based intrinsic neural timescales (INT), researchers found that across all participants, INTs are longer during internal attention (breath-watching) than during an external cognitive task. However, advanced meditators show similar INT durations between internal and external attention, and this reduced difference correlates with stronger reported non-dual experiences. The findings suggest that similar intrinsic neural timescale durations across internal and external attention may be a neural signature of non-duality.