Nestled underneath the corpus callosum, in the middle of the brain, a tiny, pine-cone-shaped gland sits and spits out ...

and artificial light—factors that contribute to a process known as calcification. Once calcified, the pineal gland can lose its ability to regulate circadian rhythm, impairing sleep, mood ...

In modern life, it is continuously subjected to environmental stressors such as fluoride exposure, heavy metals, synthetic chemicals, and artificial light—factors that contribute to a process known as ...

Researchers have elucidated how a single photoreceptor in the pineal gland of zebrafish detects color. We see color because photoreceptor cones in our eyes detect light waves corresponding to red ...

The pineal gland produces several hormones. One of these, melatonin, helps regulate the body’s internal clock, including the sleep-wake cycle. The pineal gland may also help regulate female ...

The major trigger for melatonin release is reduced light, with neural output from the SCN stimulating the pineal gland via sympathetic nerves originating in the superior cervical ganglion in the neck ...

The pineal gland, a reddish-gray ... defined but it may be involved in orientation and perhaps in detecting light for synchronization of daily rhythms." "In 2013 she and her group published ...

Your pineal gland is a small, soybean-sized gland located in the brain. This gland is responsible for producing melatonin, a hormone that helps regulate sleep and wakefulness. Light cues from the ...

The pineal gland was commonly dubbed the “third eye” for many reasons, including its location in the center of the brain and its connection to light. Mystic and esoteric spiritual traditions ...

20 Furthermore, monochromatic blue light of 446–477 nm wavelength ... and the neuroendocrine effector in the pineal gland which produces melatonin in a rhythmic pattern. Patients who are ...