Pineal gland and the third eye anatomy history revisited – a systematic review of literature
S. Chaudhary, R. Bharti, S. Yadav, P. Upadhayay
Cardiometry February 14, 2023 DOI: 10.18137/cardiometry.2022.25.13631368 via Semantic Scholar
Summary
The pineal gland remains poorly understood despite long-standing interest. This review synthesizes prior research to clarify some of its structural and functional mysteries. A recently established seven-neuron circuit connects the retina to the pineal gland, linking light and other rays to its secretion. Physical properties such as piezoelectricity, piezoluminescence, electromagnetic fields, solar flares, and infrared energy are correlated with the gland's structure and secretions. Melatonin regulates sleep-wake patterns, reproductive hormones, and temperature.
Study at a glance
Abstract
The structure and functions of neuroendocrine pineal gland remains an enigma to both philosophers and scientists since time immemorial. Some of the structural and functional mysteries of pineal gland are unfolded to some extent in this article by reviewing the work of various researchers. Recently a neuronal circuit consisting of seven neurons between retina and pineal gland have been established to relate the effect of light and other rays on its secretion. The various physical properties such as piezoelectricity, piezoluminescence, electromagnetic field, solar flare, infrared energy are also explained and correlated with the structural and secretional components of the gland. The neurosecretion of pineal gland such as melatonin play an important role in sleep-wake patterns, timings and release of reproductive hormones along with temperature control. The presence of all enzymes needed for the synthesis of di-methyl-tryptamine (DMT) in pineal gland explains the near death experience (NDE) phenomenon. The various audiovisual hallucinations in NDE phenomenon occur due to massive increase of DMT in pineal gland before death. A very high concentration of di-methyl-tryptamine (DMT), presence of retinal proteins in 10% of pinealocytes, its role in thermoregulation and a possible role as magnetoreceptor in blind men and highest deposits of fluoride in the body are not only interesting but significant for the future research. Hence a lot of further research on pineal gland is still required to correlate its unique properties with its structural components.