1 relating to the pineal body; "pineal hormone"
2 having the form of a pine cone
pertaining to pineal gland
- Finnish: käpyrauhanen, käpyrauhas-
- The pineal gland.
The pineal gland (also called the pineal body, epiphysis cerebri, or epiphysis) is a small endocrine gland in the brain. It produces melatonin, a hormone that may modulate wake/sleep patterns. It is shaped like a tiny pine cone, and is located near the center of the brain, between the two hemispheres, tucked in a groove where the two rounded thalamic bodies join.
LocationThe pineal gland is a reddish-gray body about the size of a pea (8 mm in humans), located just rostro-dorsal to the superior colliculus and behind and beneath the stria medullaris, between the laterally positioned thalamic bodies. It is part of the epithalamus.
The pineal gland is a midline structure, and is often seen in plain skull X-rays, as it is often calcified.
Structure and compositionThe pineal body consists in humans of a lobular parenchyma of pinealocytes surrounded by connective tissue spaces. The gland's surface is covered by a pial capsule.
The pineal gland consists mainly of pinealocytes, but four other cell types have been identified.
The pineal gland receives a sympathetic innervation from the superior cervical ganglion. However, a parasympathetic innervation from the sphenopalatine and otic ganglia is also present. Further, some nerve fibers penetrate into the pineal gland via the pineal stalk (central innervation). Finally, neurons in the trigeminal ganglion innervates the gland with nerve fibers containing the neuropeptide, PACAP. Human follicles contain a variable quantity of gritty material, called corpora arenacea (or "acervuli", or "brain sand"). Chemical analysis shows that they are composed of calcium phosphate, calcium carbonate, magnesium phosphate, and ammonium phosphate. Recently, calcite deposits have been described as well.
In lower vertebratesPinealocytes in lower vertebrate animals have a strong resemblance to the photoreceptor cells of the eye. Some evolutionary biologists believe that the vertebrate pineal cells share a common evolutionary ancestor with retinal cells.
In some vertebrates, exposure to light can set off a chain reaction of enzymes, hormones, and neuroreceptors, which may help regulate the animal's circadian rhythm. In humans and other mammals, this function is served by the retinohypothalamic system that sets the rhythm within the suprachiasmatic nucleus. Cultural and social interactions produce exposures to artificial light that influence the setting of the suprachiasmatic clock.
Some early vertebrate fossil skulls have a pineal foramen. This corroborates with the physiology of the modern lamprey, tuatara, and some other vertebrates.
FunctionThe pineal gland was originally believed to be a "vestigial remnant" of a larger organ (much as the appendix was thought to be a vestigial digestive organ). Aaron Lerner and colleagues at Yale University discovered that melatonin, the most potent compound then known to lighten frog skin, was present in the highest concentrations in the pineal. Melatonin is a derivative of the amino acid tryptophan, which also has other functions in the central nervous system. The production of melatonin by the pineal gland is stimulated by darkness and inhibited by light. Photosensitive cells in the retina detect light and directly signal the suprachiasmatic nucleus (SCN), entraining it to the 24 hour clock. Fibers project from the SCN to the paraventricular nuclei (PVN), which relay the circadian signals to the spinal cord and out via the sympathetic system to superior cervical ganglia (SCG), and from there into the pineal gland. The function(s) of melatonin in humans is not clear; it is commonly prescribed for the treatment of circadian rhythm sleep disorders.
The pineal gland is large in children, but shrinks at puberty. It appears to play a major role in sexual development, hibernation in animals, metabolism, and seasonal breeding. The abundant melatonin levels in children is believed to inhibit sexual development, and pineal tumors have been linked with precocious puberty. When puberty arrives, melatonin production is reduced. Calcification of the pineal gland is typical in adults.
Pineal cytostructure seems to have evolutionary similarities to the retinal cells of chordates. Modern birds and reptiles have been found to express the phototransducing pigment melanopsin in the pineal gland. Avian pineal glands are believed to act like the suprachiasmatic nucleus in mammals.
Studies suggest that in rodents the pineal gland may influence the actions of recreational drugs, such as cocaine, and antidepressants, such as fluoxetine (Prozac), and its hormone melatonin can protect against neurodegeneration.
Cultures, philosophies and mythologies
The secretory activity of the pineal gland has only relatively recently become understood. Historically, its location deep in the brain suggested to philosophers that it possessed particular importance. This combination led to its being a "mystery" gland with myth, superstition and metaphysical theories surrounding its perceived function.
René Descartes, who dedicated much time to the study of the pineal gland, called it the "seat of the soul". He believed that it was the point of connection between the intellect and the body. This was in part because of his belief that it is unique in the anatomy of the human brain in being a structure not duplicated on the right and left sides. This observation is not true, however; under a microscope one finds the pineal gland is divided into two fine hemispheres. Another theory was that the pineal operated as a valve releasing fluids, thus the position taken during deep thought, with the head slightly down meeting the hand, was an allowance for the opening of these 'valves'.
The pineal gland is occasionally associated with the sixth chakra (also called Ajna or the third eye chakra in yoga) or sometimes the Seventh (Crown) chakra. It is believed by some to be a dormant organ that can be awakened to enable telepathic communication.
The pineal gland has relevance for Discordianism which is rooted in Californian psychedelic culture (although in this case it is likely a satire of the mysticism attributed to it in the aforementioned examples).
Writers such as Madame Blavatsky and Alice Bailey, considered early proponents of the new age movement, use the pineal-eye as a key element in their spiritual world-view...(see Alice Bailey: "A Treatise on White Magic", Madame Blavatsky: "The Secret Doctrine")
The notion of a 'pineal-eye' is also crucial to the philosophy of the seminal French writer Georges Bataille, which is analyzed at length by literary scholar Denis Hollier in his study Against Architecture.
"But the head has a hole in it. The pineal eye, the organ of not-knowing, is the undoing of science. If science thought up man, the pineal eye unthinks him, spends him extravagantly, makes him lose the reserve in which, at the summit, from his head position, he was guarding himself."
In this work Hollier discusses how Bataille uses the concept of a 'pineal-eye' as a reference to a blind-spot in Western rationality.
"When I carefully seek out, in deepest anguish, some strange absurdity, an eye opens at the top, in the middle of my skull. This eye opening up onto the sun in all its glory, to contemplate it in its nakedness, privately, is not the work of my reason: it is a cry escaping from me. For at the moment when the flash blinds me I am the splintering brilliance of a shattered life, and this life - agony and vertigo - opening up onto an infinite void, bursts and exhausts itself all at once in this void."
The pineal gland also plays a role in the transformation of a scientist into a grotesque monster in the H. P. Lovecraft-inspired film From Beyond.
- - "Endocrine System: pineal gland "
- Images of Pineal region http://rad.usuhs.edu/medpix/medpix.html?mode=image_finder&action=search&srchstr=pineal&srch_type=all#top
pineal in Bosnian: Epifiza
pineal in Bulgarian: Епифиза
pineal in Czech: Šišinka
pineal in German: Zirbeldrüse
pineal in Dhivehi: ޕިނިއަލް ގްލޭންޑް
pineal in Modern Greek (1453-): Επίφυση
pineal in Spanish: Glándula pineal
pineal in French: Glande pinéale
pineal in Galician: Glándula pineal
pineal in Korean: 송과선
pineal in Italian: Ghiandola pineale
pineal in Hebrew: בלוטת האצטרובל
pineal in Latin: Glandula pinealis
pineal in Lithuanian: Kankorėžinė liauka
pineal in Macedonian: Епифиза
pineal in Dutch: Pijnappelklier
pineal in Japanese: 松果体
pineal in Norwegian: Konglekjertelen
pineal in Polish: Szyszynka
pineal in Portuguese: Glândula pineal
pineal in Russian: Эпифиз
pineal in Simple English: Pineal gland
pineal in Slovak: Šuškovité teliesko
pineal in Slovenian: Češerika
pineal in Finnish: Käpyrauhanen
pineal in Swedish: Tallkottkörteln
pineal in Ukrainian: Епіфіз