GOOD FOOD SOURCES OF SELENIUM
Selenium content is very dependent upon the content of the soil on which foods and animals are raised.
Brewer's yeast, organ and muscle meats, fish, grains, cereals, Brazil nuts, broccoli, cabbage, cucumbers, radishes, garlic, onions, torula yeast, molasses, dairy products, sesame seeds, tuna, kelp, and wheat germ.
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Selenium is essential for the production of glutathione peroxidase (GSHPx or GPX) which is a major detoxifier of chemical toxins, including insecticides, petrochemicals, and other natural and man-made toxic chemicals.
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http://www.ithyroid.com/iodine.htm
Iodine
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IODINE Iodine is essential for the formation of thyroid hormone and a deficiency will cause goiter and primary hypothyroidism. In countries where iodine is deficient in the soil, rates of hypothyroidism and goiter from iodine deficiency are very high. In developed countries, however, because iodine is added to salt, iodine deficiencies are rare. It's possible to get iodine deficient, but it takes work. You would have to eat non-iodized salt, stay away from processed foods, and not eat iodine rich foods like seafoods. However, there may be interactions between eating certain foods and marginal iodine deficiency which could lead to goiter and hypothyroidism. The following study indicates that this might happen with high consumption of soybeans (or other beans) which are known to be high in copper. This study shows that both defatted soybean consumption and iodine deficiency decrease thyroid hormone production and cause an increase in thyroid gland size. However there is a very significant synergism between soybean consumption and iodine deficiency. Look at the thyroid gland weights. While iodine deficiency caused a doubling of thyroid gland weight (from 8.4 to 15.5), iodine deficiency combined with soy intake caused the weight to nearly increase 10-fold!! (from 8.4 to 81.7). =============== Good natural sources of Iodine are all seaweeds, like chlorella, spirulina, kelp, etc.-"Cheyenne Cin"- P.S. NEVER use the iodine in bottles for treating sores to consume orally.
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Mercury
... IQ Mercury blocks thyroid hormone production by occupying iodine-binding ...
Most mercury toxic patients have lower than optimum body temperatures. ...
tuberose.com/Mercury.html - 145k -
Mercury Toxicity
... loss of appetite, low libido, PMS. - Iodine: thyroid dysfunction ... with low
hemoglobin such as anemia are often indicative of mercury toxicity. ...
www.evenbetternow.com/mercury-toxicity.html - 28k
... They interfere with iodine metabolism. Substances in soy and in raw ...
or mercury toxicity and at the same time have inadequate cell permeability, ...
www.drlwilson.com/Articles/thyroid.htm - 31k
File Format: Microsoft Powerpoint 97 - View as HTML
... They discuss the many similarities between autism and mercury toxicity, including:
... Low iodine in children could cause mental retardation ...
www.eas.asu.edu/~autism/Research/HgHairTalks.ppt
MERCURY
Mercury is a toxic metal with significant effects on the thyroid. There is ample evidence that mercury leaches from dental amalgam fillings and contributes to thyroid disease and anemia.
While large doses of mercury can induce hyperthyroidism, smaller amounts can induce hypothyroidism by interfering with both the production of thyroxin (T4) and the conversion of T4 to T3.
Mercury disturbs the metabolism of copper and zinc which are two minerals critical to thyroid function. Gray hair can be an indication of mercury accumulation, more so in females than males.
Mercury causes disruptions to the immune system functioning and promotes the production of IgG and IgE autoantibodies which also are involved in autoimmune thyroid disease.
Different forms of mercury, organic or inorganic, have different effects on the thyroid. Milk and quite likely estrogen cause an increase in the absorption of mercury.
Mercury has a very long half-life in the body with a duration of perhaps many years and has been found in cancerous tissues.
Selenium is the key mineral which protects the body from mercury toxicity. One study showed that cilantro (Chinese parsley) helps remove mercury from the body and protects the body from pre-cancerous lesions.
As the following article indicates mercury gets into our bodies in a variety of ways including vaccinations. Perhaps the negative effects we see from vaccines are at least partially the result of toxic metals. The association of autism with vaccinations may be related to mercury toxicity. Thimerosal is the mercury-containing preservative that was used in contact lens solutions. Hopefully there are no more of these solutions on the market but if you use contact lens solutions, check the label.
US Congressman Dan Burton Requests Immediate Vaccine Recall
In an October 25, 2000 letter to Department of Health and Human Services (HHS) Secretary Donna Shalala, Congressman Dan Burton (R-IN), Chairman of the House Committee on Government Reform, requested a recall of all vaccines containing Thimerosal. The mercury-based product Thimerosal is added to vaccines as a preservative.
On July 18, 2000 the Committee conducted a hearing entitled, “Mercury in Medicine: Are We Taking Unnecessary Risks?” During the hearing, the FDA admitted that children are being exposed to unsafe levels of mercury through vaccines containing Thimerosal. It was also determined that symptoms of mercury poisoning mimic symptoms of autism -- a disease that has reached epidemic levels in the United States. However, the FDA has chosen to allow pharmaceutical companies to merely phase out their use of Thimerosal, leaving mercury-containing vaccines at public and private health facilities.
In his letter to Secretary Shalala, Chairman Burton stated:
"We all know and accept that mercury is a neurotoxin, and yet the FDA has failed to recall the 50 vaccines that contain Thimerosal...On their own website, the FDA states, ‘lead, cadmium, and mercury are examples of elements that are toxic when present at relatively low levels’…"
“Our children are the future of this country. As a Government we have a responsibility to do everything within our power to protect them from harm, including ensuring that vaccines are safe and effective. Every day that mercury-containing vaccines remain on the market is another day HHS is putting 8,000 children at risk. Given that Thimerosal-free vaccines are available, and the known risk of mercury toxicity, to leave Thimerosal-containing vaccines on the market is unconscionable.”
- Title
- Thyrotoxicity of the chlorides of cadmium and mercury in rabbit.
- Author
- Ghosh N; Bhattacharya S
- Address
- Department of Zoology, Visva-Bharati University, Santiniketan, India.
- Source
- Biomed Environ Sci, 5(3):236-40 1992 Sep
- Abstract
Exposure to heavy metals such as cadmium and mercury is of immediate environmental concern. The present study was aimed at establishing a direct relationship between heavy metal poisoning and thyroid dysfunction. Cadmium and mercury treatment at LD50 levels resulted in severe thyrotoxicosis in the rabbit. Within 24 h of intramuscular administration of cadmium chloride 15 mg.kg-1 body weight (bw) and mercury chloride 20 mg.kg-1 bw, thyroid peroxidase activity increased significantly over the control with a concomitant rise in the triiodothyronine (T3) titre. On the other hand, there was a remarkable fall in the thyroxine (T4) level, and the T3/T4 ratio was high as compared with the control. Evidence indicates that acute heavy metal lethality will induce immediate hyperthyroidism. It is suggested that T3-toxicosis may be produced by a preferential synthesis of T3 and/or preferential deiodination of T4 to T3. Measurement of T3 and T4 levels may thus be utilized as a reliable indicator of heavy metal lethality.
The following study showed that the administration of mercury in the form of mercuric chloride causes significant alterations in copper and zinc metabolism, but does not seem to affect iron metabolism. While the thyroid functions were not examined in this study, the fact that mercury has such profound effects on copper and zinc metabolism suggests that thyroidal function will be disturbed by mercury.
- Title
The present study was designed to investigate the effect of mercuric chloride administration on copper, zinc, and iron concentrations in the liver, kidney, lung, heart, spleen, and muscle of rats. The results showed that after dose and time exposure to mercuric chloride, the concentration of mercury in the six tissues was significantly elevated. Data showed that there were no interaction between mercury and tissue iron. There was a considerable elevation of the content of copper in the kidney and liver. The most significant changes in the copper concentration took place in the kidneys. About a twofold increase in the copper content of the kidney was noted after exposure to mercuric chloride (3 mg and 5 mg/kg). Only slight elevations in the copper content occurred in the liver especially in high dose and longer exposure time. In the remaining organs, the copper content was not changed significantly (p > 0.05). The most significant changes in the zinc concentration took place in liver, kidney, lung and heart (5 mg/kg). Marked changes in kidney zinc concentrations were observed at any of the specified doses. Zinc concentrations were significantly increased in kidney of rats sacrificed 9-48 h after s.c. injection of HgCl2 (5 mg/kg); in liver obtained from rats at 18, 24 or 48 h after injection; and in lung after 24 or 48 h of treatment. The heart and spleen zinc concentrations were elevated at 24 and 48 h after injection of HgCl2 (5 mg/kg), respectively. The results of this study implicate that effects on copper and zinc concentrations of the target tissues of mercury may play an important role in the pathogenesis of acute mercuric chloride intoxication.
The following study suggests that mercury content in females can be judged by hair color. Gray hair contains more organic mercury than dark hair in both sexes, but there is a sex difference in that mercury seems to more readily turn hair gray in females than in males.
Title: Mercury concentration in gray hair
Author: Ando T; Wakisaka I; Yanagihashi T; Tomari T; Hatano H
Source: Nippon Eiseigaku Zasshi, 43(6):1063-8 1989 Feb
Abstract
Scalp hair sample were collected from 20 gray-haired males and 7 gray-haired females. Two hair samples, one each of dark hair and gray hair, obtained from each individual were selectively analysed for organic and inorganic mercury concentrations. The following finding were made: 1) In both sexes, total and organic mercury concentrations were significantly higher in gray hair than in dark hair but no difference was observed between dark hair and gray hair for the concentration of inorganic mercury. 2) For males, no significant differences between dark hair and gray hair were found for total, organic or inorganic mercury concentrations. On the other hand, gray hair had significantly higher levels of total, organic and inorganic mercury concentrations than dark hair in females. 3) When comparison was made between the sexes, total, organic and inorganic mercury concentrations were significantly higher in males than in females for dark hair. For gray hair, however, significantly higher levels of total and organic mercury concentrations, but not of inorganic mercury concentrations, were found in males. 4) The proportion of inorganic mercury to total mercury was higher in females than in males for both dark and gray hair. It was also higher in gray hair than in dark hair for females.
- The following study explores the detoxifying effect that selenium has on mercury. Apparently one atom of selenium combines with one atom of mercury to form a biologically inactive complex.
- Title
- Mercury/selenium interaction. A comparative study on pigs.
- Author
- Hansen JC; Kristensen P; Al-Masri SN
- Source
- Nord Vet Med, 33(2):57-64 1981 Feb
- Abstract
A pilot experiment carried out on three pigs have confirmed that interaction between inorganic mercury (203HgCl2) and selenium (Na275SeO3) after single intraperitoneal injections are qualitatively uniform in mice and pigs. The detoxifying effect of selenium on mercury toxicity seems to be due to a formation of a biologically inactive complex containing the elements in an equimolar ratio. The complex is unable to pass biological barriers, placenta and choroid plexus and is stored in the liver and the spleen.
- The following study explores the interaction between mercury and selenium when administered at different times. The greatest cancellation of effects occurred when both were administered simultaneously.
- Title
Interaction of mercury and selenium was examined in mice given mercuric chloride (25 mumol/kg) intravenously with sodium selenite (25 mumol/kg, iv) according to various administration schedules. Body weight of the mice given mercuric chloride or selenite alone did not increase, but the mice given both compounds simultaneously grew as well as control mice. On the other hand, only a 1-hr shift of administration of either compound canceled the mutual detoxifying effect. The most conspicuous changes in tissue distribution of mercury and selenium and in gel filtration patterns of both elements accumulating in tissues of the mice were observed when both compounds were administered simultaneously. These experimental results indicate that the interaction of mercuric mercury with selenite in mice occurred to the greatest extent upon simultaneous administration, supporting the hypothesis that the interaction primarily occurs in the blood stream.
The following study analyzed mercury and selenium concentrations in cadavers of workers in dental offices and found that there were increased concentrations of selenium and mercury showing that selenium accumulated together with mercury.
Br J Ind Med
1991 Nov;48(11):729-34Mercury and selenium concentrations and their interrelations in organs from dental staff and the general population.
Nylander M, Weiner J
Department of Environmental Hygiene, Karolinska Institute, Stockholm, Sweden.
Mercury (Hg) and selenium (Se) concentrations were determined by radiochemical neutron activation analysis in samples from the pituitary glands, occipital cortices, renal cortices, abdominal muscles, and thyroid glands of cadavers. Samples were retrieved from dental staff occupationally exposed to Hg and from the general population. Increased concentrations of both Hg and Se in samples from dental staff showed that Se accumulated together with Hg. Regression analysis of data from the pituitary glands and occipital cortices of dental staff indicated the accumulation of Se at a rough stoichiometric ratio of 1:1 with Hg. The same stoichiometric ratio between the elements was seen in the renal cortices from the general population. The regression analysis showed that a substantial fraction of Se was not associated with Hg; it is assumed that this corresponds to biologically available Se. Concentrations of biologically available Se decreased with advancing age in the pituitary gland, but not in other organs, and varied appreciably between organs.
The results of the following study "suggest that mercury poisoning from dental amalgam may play a role in the etiology of cardiovascular disorders." "Hemoglobin, hematocrit, and red blood cells were significantly lower when correlated to increased levels of urine mercury. The amalgam subjects had a greater incidence of chest pains, tachycardia, anemia, fatigue, tiring easily, and being tired in the morning." This indicates that mercury toxicity can induce anemia and all the symptoms of anemia. We have seen elsewhere that there is a high association of anemia with thyroid disorders. Mercury toxicity from dental amalgam would seem to be a prime contributor to anemia and thyroid disease.
| : Sci Total Environ 1990 Dec 1;99(1-2):23-35 |
The relationship between mercury from dental amalgam and the cardiovascular system.
Siblerud RL
Department of Physiology, College of Veterinary Medicine and Biological Sciences, Colorado State University, Fort Collins 80523.
The findings presented here suggest that mercury poisoning from dental amalgam may play a role in the etiology of cardiovascular disorders. Comparisons between subjects with and without amalgam showed amalgam-bearing subjects had significantly higher blood pressure, lower heart rate, lower hemoglobin, and lower hematocrit. Hemoglobin, hematocrit, and red blood cells were significantly lower when correlated to increased levels of urine mercury. The amalgam subjects had a greater incidence of chest pains, tachycardia, anemia, fatigue, tiring easily, and being tired in the morning. The data suggest that inorganic mercury poisoning from dental amalgam does affect the cardiovascular system.
PMID: 2270468, UI: 91102526
- The following study shows that mercury accumulates in various structures of the eye and that the half-life of mercury in the body probably exceeds years.
- Title
Squirrel monkeys were exposed to mercury vapour at different concentrations and for different numbers of days. The calculated total mercury absorption ranged between 1.4-2.9 mg (range of daily absorption 0.02-0.04 mg). The monkeys were killed at different intervals after the end of exposure (range 1 month - 3 years) and the eyes were enucleated. Eyes from four un-exposed monkeys were used as control material. Mapping of the mercury distribution in the eye revealed that the non-myelin-containing portion of the optic disc was densely loaded with mercury deposits, which are mostly confined to the capillary walls and the glial columns. The white matter of the brain does not accumulate mercury at these exposure levels, which might suggest that the myelinization process inhibits the accumulation of mercury. The pigmented epithelium of the pars plicata of the ciliary body and of the retina contained a considerable amount of mercury. This finding indicates that mercury is trapped within the melanocytes, which keeps potentially dangerous material from reaching the neural retina. In addition, the retinal capillary walls were densely loaded with mercury deposits, even 3 years after exposure. It was also found that the inner layers of the retina accumulated mercury during a 3-year period. It is known that the biological half-time of mercury in the brain may exceed years. This seems also to be the case for the ocular tissue.
The following study is a strong indictment of the use of mercury in dental materials. Not only is it stated that mercury causes a reduced effectiveness against bacteria such as Chlamydia, Streptococcus, and Borrelia, and Herpes family viruses, but mercury has been found in pre-cancerous and cancerous tissues. Of particular interest was the authors' discovery that cilantro (Chinese parsley) is effective in removing mercury from the body and in reversing pre-cancerous abnormalities.
Acupunct Electrother Res
1996 Apr-Jun;21(2):133-60Significant mercury deposits in internal organs following the removal of dental amalgam, & development of pre-cancer on the gingiva and the sides of the tongue and their represented organs as a result of inadvertent exposure to strong curing light (used to solidify synthetic dental filling material) & effective treatment: a clinical case report, along with organ representation areas for each tooth.
Omura Y, Shimotsuura Y, Fukuoka A, Fukuoka H, Nomoto T
... against heavy metals in general and specifically useful in mercury toxicity.
... It absorbs iodine from the diet and releases thyroid hormones ...
www.diagnose-me.com/cond/C15891.html
Mercury and Selenium The Battle of the Elements
| ... who are exposed to mercury take this preparation as a preventive measure against mercury toxicity. Bio-Selenium+Zinc is now available in the UK. ... www.positivehealth.com/ permit/Articles/Dentist/lister7.htm - 26k - |
[PDF] C:\Documents and Settings\dwalters\Desktop\2003 CATM Annual.wpd
| File Format: PDF/Adobe Acrobat - View as HTML ... The protective effect of dietary selenium against mercury toxicity is being ... defects in children exposed to low levels of mercury in the womb, the ... www.undeerc.org/catm/pdf/MercuryMetabolism.pdf - |
[PDF] C:\LaRae\CATM\Year 9\Annual Report\Web Files\NVCR 2002.wpd
File Format: PDF/Adobe Acrobat - View as HTML
... the mechanism of mercury toxicity and the mechanism of the selenium-dependent detoxification ... whose diets are inherently low in selenium. References ...
www.undeerc.org/catm/pdf/NVCR_2002.pdf -
Diagnose-Me: Condition: Mercury Toxicity (Amalgam Illness)
| ... The symptoms of low-level, chronic mercury exposure and toxicity can be very ... Selenium is able to combine with metals such as cadmium and mercury to ... www.diagnose-me.com/cond/C586629.html - 69k - |
| ... low hemoglobin such as anemia are often indicative of mercury toxicity. ... Mercury can bind to selenium, making it useless for this protective purpose. ... www.evenbetternow.com/mercury-toxicity.html - 28k - |
Healing World :: Newsletter & Article Archive
| ... antioxidant would be low, made worse by the low selenium availability in our ... selenium supplementation relieved the symptoms of mercury toxicity. ... www.healingworld.co.nz/articles.asp?article=24 - 40k - |
TSRI #44 - Immunotoxicity of Metals
| ... Mercury toxicity was increased by lead and cadmium at low levels. The effects of zinc and selenium on mercury toxicity are in progress. ... www.hc-sc.gc.ca/hecs-sesc/tsri/research/tsri_44.htm - 15k - |
| ... Acute or other diagnosed cases of mercury toxicity are treated by a ... interesting, but both high and low urine mercury levels could be a problem. ... www.mgoldmandds.com/detox1.htm - 26k - |
| ... There can exist several possible sources of mercury toxicity. ... The trace element "SELENIUM" prevents mercury absorption from the intestinal tract. ... www.health-truth.com/articles/chronic06.asp - 23k - |
Medical News - Mercury Toxicity (I)
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... Mercury is a widespread heavy metal whose toxic effects have been well ... A low selenium-to mercury ratio may be indicative of increased free radical ...
www.mineralysis.com.hk/eng/medicalnews3.html - 19k - Apr 2, 2005 - The Analyst - Internet Health Report: Treatment: Selenium
... Selenium is able to combine with metals such as cadmium and mercury to ... If iodine intake is low, selenium intake should also be kept low or the two ... www.digitalnaturopath.com/treat/T32745.html - 39k ====================================
Mercury Poisoning Safer, more effective, affordable form of mercury removal www.detoxamin.com Personal Mercury Testing Do you have high mercury levels? Find out with our easy home test. www.TestMyHormones.com |
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... mercury elimination strategies to reduce mercury toxicity syndromes. ... 6% copper and a trace of zinc.6 More than 100 million mercury fillings are ...
www.mercola.com/article/mercury/mercury_elimination.htm - 51k - Apr 2, 2005 -
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