NIMHANS has established the association between meditation and proper sleep organization
NEW DELHI, June 20 (The CONNECT) - Practitioners of meditation transition from light to deep sleep faster, researchers have found.
Their period of transition does not increase with age as against those who do not practice meditation, and duration of the deep sleep period is longest among the former, whereas this duration reduces with age among the latter.
Researchers have demonstrated organisation of sleep stabilizes among Vipassana meditation practitioners.
Frequent sleep transitions - from higher deep sleep to lighter sleep - are seen in sleep disorders, and with age, these transitions increase. Traditionally, meditation has been recommended as solution for ameliorating sleep disorders. However, scientific evidence on the relationship between meditation and sleep disorders was lacking.
A study by the National Institute of Mental Health & Neurosciences (NIMHANS) has established the association between meditation and proper sleep organization as well as sleep stability.
The study supported by the SATYAM (Science and Technology of Yoga and Meditation) programme of the Department of Science and Technology, which investigated the importance of meditation on sleep organization and the correlation between sleep, meditation, and progress in well-being, demonstrated the distinct changes brought by Vipassana meditation practices on the sleep variables and hence on the macro-sleep architecture.
The team led by led by Prof. Bindu M. Kutty explored the efficacy of Vipassana meditation on the micro-sleep architecture dynamics, especially the spindle dynamics and Electroencephalogram (EEG) dynamics that determine the role of meditation on the thalamocortical synchronizing mechanisms essential for sleep intensity and continuity, memory consolidation etc. The study was published in the journal Neuromodulation: Technology at the Neural Interface.
Several Event-related potential (ERPs) responses generated by the brain have been identified during non-rapid eye movement (NREM) and REM sleep, and important ERPs during various stages of sleep have been demonstrated in the study. These ERPs responses are possible indicators of sleep stability.
A sleep protocol involving conventional sleep study (Polysomnography), sleep ERPs and tACS was proposed, tested and standardized to infer sleep stability in control subjects and meditators. It includes indices/measures which capture sleep fragmentation (stage transitions), sleep initiation (sleep latency), sleep continuity, sleep deepening etc. With the help of this protocol, the study evaluated sleep stage transitions and continuity of sleep stages to evaluate the quality of sleep.
The work also provides a broad overview of the application of Transcranial Alternating Current Stimulations (tACSs – a device that uses electrical current to boost brain function) while sleeping on normal healthy individuals and meditators to modulate sleepiness, and evaluated the effect of tACS on the endogenously generated brain oscillations using different frequencies.