The pineal gland (also called the pineal body or epiphysis) is a small ... The pineal gland is a midline structure, and is often seen in plain skull X-rays, ... http://en.wikipedia.org/wiki/Pineal_gland - 46k -
The pineal gland (also called the pineal body or epiphysis) is a small endocrine gland in the brain. It is located near the center of the brain, between the two hemispheres, tucked in a groove where the two rounded thalamic bodies join. A recent review of the pineal and its secreted hormone, melatonin, is available. [1]
The 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 skullX-rays, as it is often calcified.
The pineal body consists in humans of a lobular parenchyma of pinealocytes surrounded by connective tissue spaces. The glands' surface is covered by a pial capsule.
The pineal gland consists mainly of pinealocytes, but four other cell types have been identified.
The pinealocytes consist of a cell body with 4-6 processes emerging. They produce and secrete melatonin. The pinealocytes can be stained by special silver impregnation methods.
Many capillaries are present in the gland, and perivascular phagocytes are located close to these blood vessels. The perivascular phagocytes are antigen presenting cells.
Pinealocytes in lower vertebrateanimals have a strong resemblance to the photoreceptor cells of the eye. Some evolutionary biologists believe that the vertebrate pineal gland can be evolutionarily traced to a proto-eye structure in early vertebrate organisms.[4]
In birds and some lizards, the pineal gland is on the surface of the brain, directly under the skull and contains the photoreceptors to regulate their biological clock[5].
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. Evidence for a role for opsin-related light-sensing compounds in the skin of mammals is presently controversial. Research suggests that the pineal gland may serve a magnetoreceptive function in some animals. [6]
In the tuatara the pineal body comes through a hole in the skull to the surface and has the form of a crude eye. The lamprey's pineal body is similar. Many fossil early vertebrate skulls have a pineal foramen.
The pineal gland was originally believed to be a "vestigial remnant" of a larger organ (much as the appendix is now thought to be a vestigial digestive organ). It was only after the 1960s that scientists discovered that the pineal gland is responsible for the production of melatonin, which is regulated in a circadian rhythm. Melatonin is a derivative of the amino acidtryptophan, 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. [7] The retina detects the light, and directly signals and entrains the suprachiasmatic nucleus (SCN). 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 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.
Reports in rodents suggest that the pineal gland may influence the actions of drugs of abuse such as cocaine [10] and antidepressants such as fluoxetine (Prozac)[11]; and contribute to regulation of neuronal vulnerability.[12]
The pineal gland was the last endocrine gland to have its function discovered. Its location deep in the brain seemed to indicate its importance. This combination led to its being a "mystery" gland with myth, superstition and metaphysical theories surrounding its perceived function.
Rene Descartes called the pineal gland the "seat of the soul" [13], believing 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). It is believed by some to be a dormant organ that can be awakened to enable telepathic communication.
The relevance of the pineal gland to Discordianism, an idiosyncratic religion with roots in California psychedelic culture whose doctrines display great fondness for paradox, is great if not well understood.
Writers such as Alice Bailey, considered an early proponent of the new age movement, use the pineal-eye as a key element in their spiritual world-view...(see Alice Bailey: "A Treaties on White Magic")
An important link from the pineal gland to modern philosophy, influences on post-structuralism and French thought can be found through Denis Hollier's book "Against Architecture" (English translation, Betsy Wing: 1989, MIT Press); an investigation into the work of Georges Bataille.
"On five different occasions, during a rather brief period of time, Bataille wanted to 'write on' the pineal eye. He wanted to write a book that would have developed the interpretation (his word) of this fantastic and/or mythical image..." (Hollier, p121)
Bataille wrote the seminal work entitled, 'The Pineal Eye' (Visions of Excess: Selected Writings, 1927-1939, MIT Press): an extreme text with surreal overtones. This article was left unpublished during his lifetime- said to have been abandoned.
"The pineal eye does not let itself be put together into a concordant discourse. This failure results from the excessive, disruptive energy turned loose by the pineal eye, to be dispersed outside the book in the writing of a text." (Hollier, p118)
Hollier argues that this incompleteness is a paradigmatic model for Bataille's philosophical project. Carried throughout Bataille's explorations of the acephale, delirium, rapture and transgression is a notion of incompleteness: a blind spot in Western knowledge and thought. Hollier argues that this is a conceptual role the 'pineal-eye' occupies in his writings, embodied by its absence from published work and inability to be assimilated into discourse.
^ Macchi M, Bruce J. "Human pineal physiology and functional significance of melatonin.". Front Neuroendocrinol25 (3-4): 177-95. PMID 15589268.
^ Bocchi G, Valdre G (1993). "Physical, chemical, and mineralogical characterization of carbonate-hydroxyapatite concretions of the human pineal gland.". J Inorg Biochem49 (3): 209-20. PMID 8381851.
^ Baconnier S, Lang S, Polomska M, Hilczer B, Berkovic G, Meshulam G (2002). "Calcite microcrystals in the pineal gland of the human brain: first physical and chemical studies.". Bioelectromagnetics23 (7): 488-95. PMID 12224052.
^ Klein D (2004). "The 2004 Aschoff/Pittendrigh lecture: Theory of the origin of the pineal gland--a tale of conflict and resolution.". J Biol Rhythms19 (4): 264-79. PMID 15245646.
^ Moore RY, Heller A, Wurtman RJ, Axelrod J. Visual pathway mediating pineal response to environmental light. Science 1967;155(759):220–3. PMID 6015532
^ Klein D (2004). "The 2004 Aschoff/Pittendrigh lecture: Theory of the origin of the pineal gland--a tale of conflict and resolution.". J Biol Rhythms19 (4): 264-79. PMID 15245646.
^ Natesan A, Geetha L, Zatz M (2002). "Rhythm and soul in the avian pineal.". Cell Tissue Res309 (1): 35-45. PMID 12111535.
^ Uz T, Akhisaroglu M, Ahmed R, Manev H (2003). "The pineal gland is critical for circadian Period1 expression in the striatum and for circadian cocaine sensitization in mice.". Neuropsychopharmacology28 (12): 2117-23. PMID 12865893.
^ Uz T, Dimitrijevic N, Akhisaroglu M, Imbesi M, Kurtuncu M, Manev H (2004). "The pineal gland and anxiogenic-like action of fluoxetine in mice.". Neuroreport15 (4): 691-4. PMID 15094477.
^ Manev H, Uz T, Kharlamov A, Joo J (1996). "Increased brain damage after stroke or excitotoxic seizures in melatonin-deficient rats.". FASEB J10 (13): 1546-51. PMID 8940301.
^ Descartes R. Treatise of Man. New York: Prometheus Books; 2003. ISBN 1-59102-090-5
The pineal gland or epiphysis synthesizes and secretes melatonin, ... The light-transducing ability of the pineal gland has led some to call the pineal the ... www.vivo.colostate.edu/hbooks/pathphys/endocrine/otherendo/pineal.html - 10k -
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Fluoride & the Pineal Gland: Study Published in Caries Research
International Fluoride Information Network
March 27, 2001
IFIN Bulletin #269: Fluoride and the pineal gland. Luke published.
Dear All,
The wheels of science grind very slowly. Finally, the first half of the work that was the subject of Jennifer Luke's Ph.D. thesis; presentation in Bellingham, Washington (ISFR conference) in 1998 and a videotaped interview I had with her (see www.fluoridealert.org/videos.htm), has been published in Caries Research (see abstract below).
In my view this work is of enormous importance and could be (or should be) the scientific straw that breaks the camel's back of fluoridation. Many of our subscribers are familiar with the details but let me repeat them here.
When Luke found out that the pineal gland - a little gland in the center of the brain, responsible for a very large range of regulating activities (it produces serotonin and melatonin) -was also a calcifying tissue, like the teeth and the bones, she hypothesized it would concentrate fluoride to very high levels. The gland is not protected by the blood brain barrier and has a very high perfusion rate of blood, second only to the kidney.
Luke had 11 cadavers analyzed in the UK. As she predicted she found astronomically high levels of fluoride in the calcium hydroxy apatite crystals produced by the gland. The average was 9000 ppm and went as high as 21,000 in one case. These levels are at, or higher, than fluoride levels in the bones of people suffering from skeletal fluorosis. It is these findings which have just been published.
It is the ramifications of these findings which have yet to be published. In the second half of her work she treated animals (Mongolian gerbils) with fluoride at a crack pineal gland research unit at the University of Surrey, UK (so there is no question about the quality of this work). She found that melatonin production (as measured by the concentration of a melatonin metabolite in the urine) was lower in the animals treated with high fluoride levels compared with those treated with low levels.
Luke hypothesizes that one of the four enzymes needed to convert the amino acid tryptophan (from the diet) into melatonin is being inhibited by fluoride. It could be one of the two enzymes which convert tryptophan to serotonin or one of the two which convert serotonin to melatonin.
Significance? Huge. Melatonin is reponsible for regulating all kinds of activities and there is a vast amount of work investigating its possible roles in aging, cancer and many other life processes. The one activity that Luke is particularly interested in is the onset of puberty. The highest levels of melatonin ( produced only at night) is generated in young children. It is thought that it is the fall of these melatonin levels which acts like a biological clock and triggers the onset of puberty. In her gerbil study she found that the high fluoride treated animals were reaching puberty earlier than the low fluoride ones.
We know from recent studies - and considerable press coverage - that young girls are reaching puberty earlier and earlier in the US. Luke is not saying that fluoride (or fluoridation) is the cause but her work waves a very worrying red flag. Fluoride's role in earlier puberty needs more thorough investigation. Of an interesting historical note, in the Newburgh versus Kingston fluoridation trial (1945-1955), it was found that the girls in fluoridated Newburgh were reaching menstruation, on average, five months earlier than the girls in unfluoridated Kingston, but the result was not thought to be significant at the time (Schlessinger et al, 1956).
When one considers the seriousness of a possible interference by fluoride on a growing child's pineal gland (and for that matter, elderly pineal glands) it underlines the recklessness of fluoridation. The precautionary principle would say, as would basic common sense, that you don't take these kind of risks with our children for a benefit which, at best, amounts to 0.6 tooth surfaces out of 128 tooth surfaces in a child's mouth (Brunelle and Carlos, 1990, Table 6).
I have a copy of Luke's Ph.D. thesis and would be willing to share it with those who have a serious scientific interest in this issue. The other references cited above can be found in my Statement of Concern which is published on the FAN webpage: http://fluoridealert.org/fluoride-statement.htm
Paul Connett
Paper : Original Paper Citation : Caries Res 2001;35:125-128 Title : Fluoride Deposition in the Aged Human Pineal Gland Author(s): J. Luke
Abstract : The purpose was to discover whether fluoride (F) accumulates in the aged human pineal gland. The aims were to determine (a) F-concentrations of the pineal gland (wet), corresponding muscle (wet) and bone (ash); (b) calcium-concentration of the pineal. Pineal, muscle and bone were dissected from 11 aged cadavers and assayed for F using the HMDS-facilitated diffusion, F-ion-specific electrode method. Pineal calcium was determined using atomic absorption spectroscopy. Pineal and muscle contained 297+/-257 and 0.5+/-0.4 mg F/kg wet weight, respectively; bone contained 2,037+/-1,095 mg F/kg ash weight. The pineal contained 16,000+/-11,070 mg Ca/kg wet weight. There was a positive correlation between pineal F and pineal Ca (r = 0.73, p<0.02) but no correlation between pineal F and bone F. By old age, the pineal gland has readily accumulated F and its F/Ca ratio is higher than bone.
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