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Bindu M Kutty

Centre for Consciousness Studies (CCS), Department of Neurophysiology, National Institute of Mental Health and Neuro Sciences (NIMHANS), Bengaluru, Karnataka, India. Electronic address: bindu.nimhans@gmail.com.

5 papers in the library · 17 citations · publishing 2022-2026

Papers

Enhanced dehydroepiandrosterone levels are positively correlated with N3 sleep stage in long-term mindfulness meditation practitioners.

Sleep science (Sao Paulo, Brazil) January 1, 2022 Ravindra P Nagendra, Talakad N Sathyaprabha, Bindu M Kutty 11 citations

Long-term Vipassana meditators show increased slow-wave (N3) and REM sleep compared to non-meditators. Evening cortisol levels are similar between groups, but early morning cortisol, diurnal dehydroepiandrosterone (DHEA), and melatonin are significantly higher in meditators. Diurnal DHEA correlates significantly with N3 sleep in meditators. Higher diurnal DHEA despite comparable cortisol suggests that long-term meditation modulates the hypothalamic-pituitary-adrenal (HPA) axis, influencing sleep architecture. This provides evidence for exploring mindfulness meditation as an intervention for insomnia.

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.

The Neurodynamic Core of Meditation: Dissociating Meditation from Rest and Task in a Reliability-based EEG study

bioRxiv Preprint Server May 27, 2026 Praerna Chowdhury, Ramajayam Govindaraj, Arun Sasidharan et al. preprint

Meditation-related EEG patterns are often studied by comparing meditators to passive rest or by experience level, but such designs rarely test reliability or include active controls. This study used a multi-session within-subject design with experienced Brahmakumaris Rajayoga meditators to identify reliable, state-dependent EEG dynamics. The approach addressed prior limitations, providing more valid neurophysiological markers of meditative state.

Neurophysiological features of dream recall and the phenomenology of dreams: Auditory stimulation impacts dream experiences.

Consciousness and cognition July 1, 2025 Gulshan Kumar, Safoora Naaz, Nahida Jabin et al.

Dream recall is more frequent after REM sleep than N2 sleep. During dream recall, EEG beta activity increases, functional connectivity within the default mode network strengthens, and the medial frontal cortex activates, regardless of sleep stage. Auditory stimulation during sleep can influence the emotional content of dreams, suggesting that targeted memory reactivation may be possible. These findings help clarify how conscious experience arises during sleep.