Pineal gland - Wikipedia
Pituitary gland is located on ventral side of vertebrate brain, while pineal gland is towards dorsal side. Pituitary gland secretes a number of. Pituitary & Pineal Glands. Pituitary Gland. The pituitary gland or hypophysis is a small gland about 1 centimeter in diameter or the size of a pea. It is nearly. In humans, the major endocrine glands are the hypothalamus, pituitary, pineal, thyroid, parathyroids, adrenals, the islets of Langerhans in the.
Nerve fibers then relay the daylight information from the SCN to the paraventricular nuclei PVNthen to the spinal cord and via the sympathetic system to superior cervical ganglia SCGand from there into the pineal gland. The compound pinoline is also claimed to be produced in the pineal gland; it is one of the beta-carbolines. Regulation of the pituitary gland[ edit ] Studies on rodents suggest that the pineal gland influences the pituitary gland 's secretion of the sex hormones, follicle-stimulating hormone FSHand luteinizing hormone LH.
10 Powerful Ancient Practices for Pineal Gland Activation
Pinealectomy performed on rodents produced no change in pituitary weight, but caused an increase in the concentration of FSH and LH within the gland. Pineal-derived melatonin mediates its action on the bone cells through MT2 receptors. This pathway could be a potential new target for osteoporosis treatment as the study shows the curative effect of oral melatonin treatment in a postmenopausal osteoporosis mouse model.
It seems that the internal secretions of the pineal gland inhibit the development of the reproductive glands because when it is severely damaged in children, development of the sexual organs and the skeleton are accelerated. Histologically they are similar to testicular seminomas and ovarian dysgerminomas. Pineal tumors also can cause compression of the cerebral aqueductresulting in a noncommunicating hydrocephalus.
Other manifestations are the consequence of their pressure effects and consist of visual disturbances, headachemental deterioration, and sometimes dementia-like behaviour. Other animals[ edit ] Most living vertebrates have pineal glands. It's likely that the common ancestor of all vertebrates had a pair of photosensory organs on the top of its head, similar to the arrangement in modern lampreys. The parietal eye and the pineal gland of living tetrapods are probably the descendants of the left and right parts of this organ, respectively.
The loss of parietal eyes in many living tetrapods is supported by developmental formation of a paired structure that subsequently fuses into a single pineal gland in developing embryos of turtles, snakes, birds, and mammals. Being in Darkness Darkness triggers increased production and release of melatonin, and eventually of pinoline and DMT as a result of its effect of activating the pineal gland and helping to stimulate function of and open the third eye. Laughing and Smiling Smiling opens both the heart and the crown, allowing more light to penetrate while also increasing the vibration of the organs.
Laughing and smiling reduce stress and relax the body, which increases the flow of chi.
Laughter also triggers the release of endorphins, promoting feelings of well-being. Relaxation increases blood flow, which amplifies the effects of the hormones released in the Crystal Palace and has an effect of pineal gland activation.
Focusing Since energy flows where our attention goes, bringing our attention to the structures of the Crystal Palace will activate them. The Tao also emphasizes the importance of good diet and hydration. We are 70—80 percent water, and water is highly conductive. To increase the activation of the pineal gland and the Crystal Palace, sufficient hydration is critical.
Additionally, a good, balanced diet high in tryptophan is helpful in providing the building blocks for these important biochemicals. Tryptophan is plentiful in many foods including chocolate, seaweed, almonds, bananas, dried dates, sesame seeds, chickpeas, and peanuts. As we practice Spinal Cord Breathing, the rhythmic pulsing of the spinal cord creates an electromagnetic field that charges the cerebrospinal fluid and enhances the circulation of this important fluid throughout the body, resulting in pineal gland activation.
The greater the conductivity, the more energy can flow through the nervous system, charging the cells and priming them for activation.
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Any psychoactive substances such as DMT that are released by the activated pineal gland also enter into the CSF, charging it even further. In Spinal Cord Breathing, the movement of the sacrum transfers vibration up the spine and to the occiput through the dural tube. Connected with the occiput at the sphenobasilar joint SBJthe sphenoid also begins to vibrate, stimulating the pituitary.
At the same time, the rocking wavelike movement of the pituitary stalk activates the hypothalamus and milks the pituitary gland, which as we know is connected to the health and activation of the pineal gland. The milking of the pituitary releases more oxytocin and vasopressin, which heighten feelings of trust, relaxation, peace, and empathy while reducing fear, anxiety, and aggression.
The pituitary gland is located above the sphenoid sinus, which drains almost directly down the throat. During high levels of excitement, CSF may be excreted into the sphenoid sinus. Both vasopressin and oxytocin are critical hormones during the birth process; their presence in the nectar may contribute to birth-like experiences.
The effects of these hormones on bonding may also explain the feeling of deep connection and unconditional love that is part of many enlightenment experiences.
This potent brew travels down the back of the throat and into the stomach, where it is absorbed directly through the mucous membranes. Some of this fluid also enters the bloodstream later in the digestive process.
During spiritual experiences, the activated pineal gland affects the rest of the brain through its influence on CSF, which completely immerses both the brain and the spinal cord. After bathing the brain, approximately half of the CSF gets reabsorbed into the bloodstream in the head.
The other half leaves the head through lymphatic drainage. These neural, biochemical, and electromagnetic connections between the brain and heart may lead to ecstatic heart-mind expanding sensations. The heart field is the strongest electromagnetic field of the body: Thus, during spiritual experiences, the liquid-light ambrosia of the CSF is active in all three Dantians, enhancing their powers.
Because the pineal gland is itself bathed in CSF, there can be a self-amplifying positive feedback loop that creates peak experiences. Moreover, since the heart field extends and can be felt at least ten feet from the body, our experiences also have the potential for a ripple effect to our communities. Lights and Music Research by neurosurgeon Wilder Penfield reported in that stimulation of the right temporal lobe of the brain led to patients reporting spiritual experiences such as seeing God, leaving their bodies, hearing music, and seeing the dead.
Since then, studies by Peter Fenwick and Vernon Neppe also show connections between mystical experiences and the temporal lobes.
What is the difference between the pituitary gland and the pineal gland? | Socratic
Although the exact mechanism by which the temporals are stimulated is not yet known, it may be that the CSF present in the interpeduncular cistern situated between the temporal lobes may be involved.
A structure called the colliculus helps to orient the head to what is seen or heard. It receives visual and auditory stimuli and has sensorimotor connections to assist with orienting movement.
It surrounds the pineal gland and is activated by its secretions. As the pineal awakens, releasing biochemicals such as serotonin, tryptamine, pinoline, melatonin, or DMT, it affects the colliculus, which can explain some of the lights, visions, and celestial music that people report when the third eye is open and the Crystal Palace is active.
Awakening the Core Link Between the Cranium and Sacrum Earlier we mentioned the soft tissue dura mater connection between the cranium and the sacrum—the Core Link. For good flow in the physical body, there must be good connection and communication between heaven the cranium and earth the sacrum. Spinal Cord Breathing is one of the best ways to awaken this connection and keep it healthy and also has the added effect of inducing pineal gland activation.
Spinal Cord Breathing enlivens the spine, promotes good range of motion and flexibility, activates the cranial and sacral pumps, and enhances the flow of cerebral spinal fluid, which in turn stimulates pineal gland activation. It also helps to relax the back muscles so meditation is comfortable, and increases the flow of chi through the spine.
In modern life, many people work at a desk and sit for many hours a day. Additionally, many people also sit watching television or playing on the internet once they are home. So much sitting hinders the motion of the sacrum and reduces Flow. Spinal Cord Breathing is a great way to counteract the ill effects of prolonged sitting. U Spinal Cord Breathing 1. Stand with your feet shoulder-width apart and your knees slightly bent. Relax, and begin to notice how you feel.
On your next inhalation, keeping your elbows bent and your fingers toward the sky, bring your arms level with your shoulders and pulled slightly back. It is the ductless nature of the glands that defines them as part of the endocrine system. As for hormones, they are the body's chemical messengers that tell the body what to do…and when. Hormones produced by the endocrine system are necessary for normal growth and development, reproduction, and maintaining bodily functions homeostasis.
In humans, the major endocrine glands are the hypothalamus, pituitary, pineal, thyroid, parathyroids, adrenals, the islets of Langerhans in the pancreas, the ovaries, and the testes. Secretion of hormones in the endocrine system is controlled either by regulators in a particular gland that detect high or low levels of a biochemical and inhibit or stimulate secretion or by a complex mechanism involving the brain, the hypothalamus, and the pituitary.
It should be noted again that the nervous system and the endocrine system are complementary -- both in terms of form and function. Both systems share a primary function of coordinating the activities of the body's many systems.
For example, the nervous system tells muscles when to contract and relax, whereas adrenalin tells the body how to respond to stress or threats. The primary difference is that nerve impulses execute their effect in milliseconds…and the effects tend to be short-lived. The endocrine system, on the other hand, takes substantially longer for hormones to wend their way from the gland that produces them, through the bloodstream, and ultimately to the organ or cells where they take effect.
In addition, the actions of hormones are much longer lasting than the milliseconds of nerve impulses. Another way of putting this is to say that the nervous system directs the body's short term responses, whereas the endocrine system directs the body's longer term responses.
One other point of note is that both systems are mutually interconnected. For example, when the nervous system needs to control things longer term, it acts through the endocrine system by stimulating the release or inhibition of hormones themselves from the endocrine organs.
On the other hand, adrenalin, released by the adrenal glands, acts upon the brain to stimulate the fight or flight response. General definitions Before we continue, we need to lock down some important definitions. Unlike endocrine glands, exocrine glands secrete into ducts, which in turn, carry the secretions out of the glands and into the lumens the inner cavities of a tubular organ such as blood vessels and the intestinal tract or other body cavities or even out of the body.
By an overwhelming majority, most glands in the body are exocrine glands, and most exocrine glands secrete their "products" outside of the body. These include sweat, oil, and mammary glands. We will not be discussing the exocrine glands in this particular series of newsletters.
The endocrine system includes some organs that are wholly endocrine in function such as the pituitary gland, thyroid gland, parathyroid gland, adrenal glands, and pineal gland.
It is these glands in particular, along with the pancreas, that will be the focus of this series of newsletters. Endocrine organs that have other functions as well as endocrine functions include the pancreas, liver, ovaries, stomach, hypothalamus of the brain, small intestine, kidneys, testes, and placenta.
Most of these will be covered when we explore their other functions. Endocrine gland locations The hypothalamus, pituitary gland, and pineal gland are located in the brain. The thyroid gland is located in the neck, with the four parathyroid glands situated behind it.
The thymus is in the chest will be covered when we discuss the immune system. The adrenal AKA the supraneal glands lie on top of the kidneys. The pancreas, stomach, ovaries, and testes are located in and beneath the abdominal cavity and have multiple functions -- some of which include endocrine functions.
Effectively, hormones are the body's chemical messenger system -- they tell the body what to do and when. Some hormones promote or inhibit nerve impulses, while others epinephrine and norepinephrine, for example may act as neurotransmitters themselves in certain parts of the body. Then again, these hormones act as hormones rather than as neurotransmitters in other places. This will be much easier to understand when we explore the adrenal glands in a subsequent newsletter.
Also, as we mentioned earlier, hormones may take seconds, minutes, or hours to work their effects, and their duration of action may be short- or long-lived. Consider that once estrogen tells a fetus to become a girl, the effect lasts an entire lifetime -- unless a doctor intervenes at some point. In general, though, hormones regulate growth, development, reproduction, metabolism, mood, and tissue function. This selectivity is key to the functioning of the endocrine system.
How is it accomplished?