• What Is Dmg And Tmg Supplements For Sale
• Tmg Supplement Safety
• Tmg Supplement And Liver

Trimethylglycine (TMG) is an amino acid derivative that occurs in plants. Trimethylglycine was the first betaine discovered; originally it was simply called betaine because, in the 19th century, it was discovered in sugar beets.^[2] Since then, many other betaines have been discovered, and the more specific name glycine betaine distinguishes this one.

The Chemistry of DMG and Trimethylglycine DMG (dimethylglycine) is basically the amino acid glycine attached to two methyl groups while TMG, also known as betaine, has three methyl groups. Commonly these methyl groups are added to homocysteine, converting it into the amino acid methionine which is then converted to SAMe, a nutrient available over the counter which has been used as a powerful. Nutritionals – www.nbnus.com carries a wide variety of supplements that support Methylation. DMG generally comes in 125mg doses. Starting low and slow and building up overtime is the best policy – with 2 to 6 doses commonly given during the day. TMG generally comes in 500mg dosages. Using one to two dosages per day can be helpful.

Structure and reactions[edit]

Trimethylglycine is an N-trimethylated amino acid. This quaternary ammonium exists as the zwitterion at neutral pH. Strong acids such as hydrochloric acid convert TMG to various salts, with HCl yielding betaine hydrochloride:

(CH₃)₃N⁺CH₂CO⁻
₂ + HCl → [(CH₃)₃N⁺CH₂CO₂H]Cl⁻

Demethylation of TMG gives dimethylglycine. Degradation of TMG yields trimethylamine, the scent of putrefying fish.

Production and biochemical processes[edit]

Processingsucrose from sugar beets yields glycine betaine as a byproduct. The value of the TMG rivals that of the sugar content in sugar beets.^[3]

Biosynthesis[edit]

In most organisms, glycine betaine is biosynthesized by oxidation of choline in two steps. The intermediate, betaine aldehyde, is generated by the action of the enzyme mitochondrial choline oxidase (choline dehydrogenase, EC 1.1.99.1). Betaine aldehyde is further oxidised in the mitochondria in mice to betaine by the enzyme betaine aldehyde dehydrogenase (EC 1.2.1.8).^[4][5] In humans betaine aldehyde activity is performed by a nonspecific cystosolic aldehyde dehydrogenase enzyme (EC 1.2.1.3) ^[6]

Biological function[edit]

TMG is an organic osmolyte. Sugar beet was cultivated from Sea beet, which requires osmolytes in order to survive in the salty soils of coastal areas. TMG also occurs in high concentrations (~10 mM) in many marine invertebrates, such as crustaceans and molluscs. It serves as a potent appetitive attractant to generalist carnivores such as the predatory sea-slug Pleurobranchaea californica.^[7]

TMG is an important cofactor in methylation, a process that occurs in every mammalian cell donating methyl groups (-CH₃) for other processes in the body. These processes include the synthesis of neurotransmitters such as dopamine and serotonin. Methylation is also required for the biosynthesis of melatonin and the electron transport chain constituent coenzyme Q₁₀, as well as the methylation of DNA for epigenetics.

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The major step in the methylation cycle is the remethylation of homocysteine, a compound which is naturally generated during demethylation of the essential amino acid methionine. Despite its natural formation, homocysteine has been linked to inflammation, depression, specific forms of dementia, and various types of vascular disease. The remethylation process that detoxifies homocysteine and converts it back to methionine can occur via either of two pathways. The pathway present in virtually all cells involves the enzyme methionine synthase (MS), which requires vitamin B₁₂ as a cofactor, and also depends indirectly on folate and other B vitamins. The second pathway (restricted to liver and kidney in most mammals) involves betaine-homocysteine methyltransferase (BHMT) and requires TMG as a cofactor. During normal physiological conditions, the two pathways contribute equally to removal of homocysteine in the body^[8]. Further degradation of betaine, via the enzyme dimethylglycine dehydrogenase produces folate, thus contributing back to methionine synthase. Betaine is thus involved in the synthesis of many biologically important molecules, and may be even more important in situations where the major pathway for the regeneration of methionine from homocysteine has been compromised by genetic polymorphisms such as mutations in the MS gene.

TMG in agriculture and aquaculture[edit]

Factory farms supplement fodder with TMG and lysine to increase livestocks' muscle mass (and, therefore, 'carcass yield', the amount of usable meat).

Salmon farms apply TMG to relieve the osmotic pressure on the salmon's cells when workers transfer the fish from freshwater to saltwater.^[3][9]

TMG supplementation decreases the amount of adipose tissue in pigs; however, research in human subjects has shown no effect on body weight, body composition, or resting energy expenditure.^[10]

TMG in the human diet[edit]

Dietary supplement[edit]

Although TMG supplementation decreases the amount of adipose tissue in pigs, research on human subjects has shown no effect on body weight, body composition, or resting energy expenditure when used in conjunction with a low calorie diet.^[10] The Food and Drug Administration of the United States approved anhydrous trimethylglycine (also known by the brand name Cystadane) for the treatment of homocystinuria, a disease caused by abnormally high homocysteine levels at birth.^[11] TMG is also used as the hydrochloridesalt (marketed as betaine hydrochloride or betaine HCl). Betaine hydrochloride was once permitted in over-the-counter (OTC) drugs as a gastric aid in the United States. US Code of Federal Regulations, Title 21, Section 310.540, which became effective on November 10, 1993, banned betaine hydrochloride from being used in OTC products due to insufficient evidence to classify it as 'generally recognized as safe and effective'.^[12]

TMG supplementation may cause diarrhea, stomach upset, or nausea. TMG supplementation lowers homocysteine but also raises LDL-cholesterol.^[13]

Other uses: PCR[edit]

Trimethylglycine can act as an adjuvant of the polymerase chain reaction (PCR) process, and other DNA polymerase-based assays such as DNA sequencing. By an unknown mechanism, it aids in the prevention of secondary structures in the DNA molecules, and prevents problems associated with the amplification and sequencing of GC-rich regions. Trimethylglycine makes guanosine and cytidine (strong binders) behave with thermodynamics similar to those of thymidine and adenosine (weak binders). It has been determined under experiment that it is best used at a final concentration of 1 M.^[14]

Speculative uses[edit]

Laboratory studies and two clinical trials have indicated that TMG is a potential treatment of non-alcoholic steatohepatitis.^[15][16][17]

What Is Dmg And Tmg Supplements For Sale

TMG has been proposed as a treatment for depression. In theory, it would increase S-adenosylmethionine (SAMe) by remethylating homocysteine. The same homocysteine-to-methionine result could be achieved by supplementing with folic acid and vitamin B12, methionine then serving as a precursor to synthesis of SAMe. SAMe as a dietary supplement has been shown to work as a nonspecific antidepressant.^[18]

Research with the goal of developing environmentally safe biomimetic ship coatings is using TMG, among others, as a non-toxic anti-fouling coating.

IEX Ion Exchange Chromatography[edit]

In the book from Amersham Biosciences/GE Healthcare, Ion Exchange Chromatography & Chromatofocusing - Principles and Methods, page 48. 'Zwitterionic additives such as betaine can prevent precipitation and can be used at high concentrations without interfering with the gradient elution'^{[citation needed]}

References[edit]

1. ^Acheson, R. M.; Bond, G. J. F. (1956). '52. Addition reactions of heterocyclic compounds. Part II. Phenanthridine and methyl acetylenedicarboxylate in methanol'. J. Chem. Soc. 1956: 246. doi:10.1039/JR9560000246.
2. ^Schiweck, Hubert; Clarke, Margaret; Pollach, Günter. 'Sugar'. Ullmann's Encyclopedia of Industrial Chemistry. Weinheim: Wiley-VCH. doi:10.1002/14356007.a25_345.pub2.
3. ^ ^abMäkelä, P. (2004). 'Agro-industrial uses of glycinebetaine'. Sugar Tech. 6 (4): 207–212. doi:10.1007/BF02942500.
4. ^Kempf, B.; Bremer, E. (1998). 'Uptake and synthesis of compatible solutes as microbial stress responses to high-osmolality environments'. Arch. Microbiol. 170 (5): 319–330. doi:10.1007/s002030050649. PMID9818351.
5. ^'BRENDA - Information on EC 1.2.1.8 - betaine-aldehyde dehydrogenase'. Brenda-enzymes.org. Retrieved 2016-07-07.
6. ^Chern, M. K.; Pietruszko, R. (1999). 'Evidence for mitochondrial localization of betaine aldehyde dehydrogenase in rat liver: purification, characterization, and comparison with human cytoplasmic E3 isoenzyme'. Biochem. Cell Biol. 77 (3): 179–187. doi:10.1139/o99-030. PMID10505788.
7. ^Gillette, R.; Huang, R. C.; Hatcher, N.; Moroz, L. L. (March 2000). 'Cost-benefit analysis potential in feeding behavior of a predatory snail by integration of hunger, taste, and pain'. Proc. Natl. Acad. Sci. USA. 97 (7): 3585–3590. Bibcode:2000PNAS..97.3585G. doi:10.1073/pnas.97.7.3585. PMC16283. PMID10737805.
8. ^Finkelstein, J. D. (1998-03-24). 'The metabolism of homocysteine: pathways and regulation'. European Journal of Pediatrics. 157 (S2): S40–S44. doi:10.1007/pl00014300. ISSN0340-6199. PMID9587024.
9. ^Xue, M.; Xie, S.; Cui, Y. (2004). 'Effect of a feeding stimulant on feeding adaptation of gibel carp Carassius auratus gibelio (Bloch), fed diets with replacement of fish meal by meat and bone meal'. Aquacult. Res. 35 (5): 473–482. doi:10.1111/j.1365-2109.2004.01041.x.
10. ^ ^abSchwab, U.; Törrönen, A.; Toppinen, L.; et al. (November 2002). 'Betaine supplementation decreases plasma homocysteine concentrations but does not affect body weight, body composition, or resting energy expenditure in human subjects'. Am. J. Clin. Nutr. 76 (5): 961–967. doi:10.1093/ajcn/76.5.961. PMID12399266.
11. ^Holm, P. I.; Ueland, P. M.; Vollset, S. E.; et al. (February 2005). 'Betaine and folate status as cooperative determinants of plasma homocysteine in humans'. Arterioscler. Thromb. Vasc. Biol. 25 (2): 379–385. doi:10.1161/01.ATV.0000151283.33976.e6. PMID15550695.
12. ^'CFR - Code of Federal Regulations Title 21'. U.S. Food & Drug Administration.
13. ^Olthof MR, van Vliet T, Verhoef P, Zock PL, Katan MB (2005). 'Effect of homocysteine-lowering nutrients on blood lipids: results from four randomised, placebo-controlled studies in healthy humans'. PLoS Med. 2 (5): e135. doi:10.1371/journal.pmed.0020135. PMC1140947. PMID15916468.
14. ^Henke, W.; Herdel, K.; Jung, K.; Schnorr, D.; Loening, S. A. (October 1997). 'Betaine improves the PCR amplification of GC-rich DNA sequences'. Nucleic Acids Res. 25 (19): 3957–3958. doi:10.1093/nar/25.19.3957. PMC146979. PMID9380524.
15. ^Angulo, P.; Lindor, K. D. (2001). 'Treatment of nonalcoholic fatty liver: present and emerging therapies'. Semin. Liver Dis. 21 (1): 81–88. doi:10.1055/s-2001-12931. PMID11296699.
16. ^Abdelmalek, M. F.; Sanderson, S. O.; Angulo, P.; et al. (December 2009). 'Betaine for nonalcoholic fatty liver disease: results of a randomized placebo-controlled trial'. Hepatology. 50 (6): 1818–26. doi:10.1002/hep.23239. PMID19824078.
17. ^Miglio, F.; Rovati, L. C.; Santoro, A.; Setnikar, I. (August 2000). 'Efficacy and safety of oral betaine glucuronate in non-alcoholic steatohepatitis. A double-blind, randomized, parallel-group, placebo-controlled prospective clinical study'. Arzneimittelforschung. 50 (8): 722–7. doi:10.1055/s-0031-1300279. PMID10994156.
18. ^Mischoulon D, Fava M (2002). 'Role of S-adenosyl-L-methionine in the treatment of depression: a review of the evidence'. Am. J. Clin. Nutr. 76 (5): 1158S–61S. doi:10.1093/ajcn/76.5.1158s. PMID12420702.

External links[edit]

• USDA Database for the Choline Content of Common Foods – including the data on choline metabolites, such as betaine, in 434 food items.

Adding supplements is the next reasonable step toward improving your child’s health and function. The following supplements are so commonly lacking in our diet that it is safe and acceptable to give them to your child without testing for deficiencies. These include zinc, omega-3 fatty acids, vitamins C and D, magnesium, and,if your child is dairy-free, calcium.

The following daily doses would be appropriate the average-sized five year old child:

• zinc (15-30 mg) (Make sure that zinc is given with food.)
• cod liver oil (1-2 tsp),
• vitamin C (500mg),
• vitamin D (2000 units),
• magnesium (100-300 mg),
• and 200- 400 mg of calcium (if your child is dairy free).

Tmg Supplement Safety

Add one supplement at a time and wait for 5-7 days before adding the next supplement. Keep a notebook and record when you started the supplement and any improvements or signs of intolerance. The purpose of these supplements is to repair deficits of nutrients with widespread effects, therefore, you may notice many improvements. For example, with zinc you may see improvements in sleep, immune function skin, growth, and sometimes appetite (taste buds). Cod liver oil may improve eye contact and decrease strange eye movements, agitation or hyperactivity, and enhance skin health and immune defenses. Vitamin D has major importance in immunity, (as does vitamin C), and in addition, helps with detoxification and reduction of oxidative stress. Magnesium may prove helpful with relaxation, sound sensitivity, sleep, bowel movements (in larger doses it is a good laxative). Calcium may also be calming and is often helpful with children who press on or gouge their eyeballs. These children may require higher doses up to as much as 2000 mg per day.

Be aware when giving mineral supplements that labeling can be confusing, as the minerals are actually a salt containing two ingredients (e.g. calcium carbonate, zinc picolinate, magnesium glycinate, etc.). In each case, the second component is heavier than the mineral, and the label needs to be read carefully to obtain the correct and desired dose. For example, a bottle of calcium carbonate may read “l000 mg”. The fine print may show that 2 capsules provide 1000 mg of calcium carbonate (and may or may not tell you that calcium carbonate is 40% calcium, so that 2 capsules give you 400 mg of calcium and 600 mg of carbonate). When we speak of dosages of mineral supplements, we mean elemental minerals, or the mineral itself, and not the entire compound.

Administering Supplements

You will undoubtedly meet resistance when you decide to give your child a strange tasting powder or oil, and succeeding with some of the unpleasant tasting supplements requires ingenuity and perseverance. When Bernie Rimland (who might be called the Father of biomedical treatments for autism), was asked by a parent how to get her child to take supplements, his succinct answer was, “Who’s bigger?”. It usually requires tough love and experimentation. I also encourage parents to be honest, telling their child, “This is medicine,” which means 1) “You have to take it,” 2) “It probably tastes bad,” 3) “It’s good for a person,” and perhaps 4) “It’s the doctor’s orders, not mine, so don’t blame me, I’m sorry it tastes bad.”

The most reliable to administer supplements is with a medicine syringe, just as you would give an antibiotic. You can likewise sweeten it with juice concentrate, maple syrup, etc. If you use a syringe you’ll most likely have to train your child to accept the syringe, by repeated practice. One of our patients who had a severely restricted diet, but learned to accept the syringe, would eat soup from a syringe, but only if she was told it was medicine. Other parents have found smoothies or homemade sorbet or fruitsicles, or for the rare child who eats it, soup, to work as a vehicle to administer supplements. Failing this, several companies have formulated many of their supplements in naturally flavored, sugar free liquids or powders to make them more palatable. And some supplements such as zinc, vitamin D, magnesium, calcium, buffered vitamin C are easily concealed in juice or food. We are happy to recommend specific brands of supplements and remedies should you choose to work with us.

Introduce Probiotics and Digestive Enzymes

If your child has bowel problems of any sort, or a history of repeated infections and antibiotics, it is reasonable to offer help with probiotics and digestive enzymes. Probiotics, or beneficial bacteria for the bowel, come in a variety of forms and packages. In brief, I suggest you add a combination containing strains of Lactobacillus and Bifidus, in doses between 20 billion per day and 900 billion per day. You’ll be using capsules or powders which list dose and strains information on their label. Some children respond much better to one product than to another, and so it is worth trying one brand for a few weeks, and then switching to something different (e.g. one containing Bacillus Subtilis or Saccharomyces Boulardi), if no improvements are noted. It may be particularly beneficial to feed your child cultured foods such as coconut kefir or sauerkraut or unpasteurized pickles or other home cultured foods which contain lots of good bacteria.

In addition to probiotics, digestive enzymes may provide considerable benefit for abnormal stools, abdominal pain, food intolerance, and difficult behaviors. As with probiotics, there are a number of good products available, and it is useful to try several different preparations in order to obtain the best results. It is valuable to do a two to three week trial with at least two different preparations, including a plant based enzyme and a pancreatic (animal based) enzyme, as their effects can be quite different.

A small number of children react negatively to probiotics or to enzymes, and can’t take them (but may benefit at a later date after correcting other factors such as bacterial or fungal overgrowth).

Supplements for Specific Conditions

As you add supportive therapies, be sure to continue to reference your problem list and grading system regularly, to address the four questions posed above. Next we want to consider more selective supports, based on your child’s symptoms and diet.

Autism and related disorders are very complex and each child’s physiology is unique. While none of the below-listed interventions are dangerous, choosing the right supports and their proper sequence can get very complicated. When possible, it is best to work with us or another trained physician to guide you in the supplementation process.

Children Who Don’t Eat Meat

If she doesn’t and hasn’t eaten meat in her life, iron will be most likely deficient, and can be safely supplemented at 15-30 mg per day. (Blood testing by your physician for Fe and TIBC and/or ferritin will identify iron deficiency if present). Iron may improve energy and immune function, but can be constipating. If you are supplementing iron and/or zinc, the blood levels should be checked within 6 months, to be sure that iron or zinc levels don’t get too high, or that zinc doesn’t cause copper to drop too low. We would like to see both serum zinc and copper levels at 100 mcg/dl.

Children Who Eat Few Fruits and Vegetables

If your child eats very few fruits and vegetables, B vitamins and trace minerals (including selenium, chromium, manganese, molybdenum in particular) may be helpful. Many supplement companies make balanced trace mineral supplements which also contain 10-25 mg of zinc, thereby replacing your zinc supplement.

B Vitamins

B vitamins, while grouped as a single type of supplement, mainly because they are water soluble and work somewhat in concert, are actually very different one from another, and deserve a separate discussion. Our children are most commonly helped by methyl B12, B6, reduced folic acid (folinic acid or methyl folate), and B3. Contrary to popular opinion, it is not necessary to give all the B vitamins when supplementing, though there is often a deficiency or need for several of them which may benefit from a complete B supplement. We like to give methylB12 as the first B vitamin, preferably by injection, and have found this to be of great benefit for a significant number of children we treat.

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Notable benefits in speech, understanding, sleep, behavior, mood, energy, and executive function have been noted in children with autism related issues. A small percent of children become hyperactive after methylB12, and need to have lower and/or less frequent doses or be switched to hydoxyB12. A very small number simply do not tolerate B12 at all. Please note that B12 is far more effective by injection than by oral route or lotion or nasal spray.

If your physician is willing to write a prescription for it, we can provide information regarding compounding pharmacies to assist you in getting your prescription filled. We can also assist in providing guidance about how to safely and easily give the shots (which are very nearly painless, except for the angst of the parent giving the shot). The usual starting dose is (methylB12, 25 mg/ml), 0.01 ml per 10 pounds of body weight, given by very shallow subcutaneous injection every 3 days. If your physician is not comfortable helping you with this, we can help you if your child becomes a patient of record with the Evergreen Center. If you can’t get injectable methyl B12, then by all means do a trial with oral methyl B12 (available as lollypops, lozenges, powder or pills).

Vitamin B6 in combination with magnesium has been used successfully in autism for decades, and shows benefit in around 30% of children. When effective, it seems to help make children more comfortable in their bodies, calming and improving problem- solving through communication and better access to their own resources. Starting doses of around 50 mg are commonly used, and may be increased stepwise up to maximum of 8 mg per pound. It should be combined with magnesium in the doses described above. Vitamin B6 can cause a sensory nerve problem in high doses, but there has been no demonstration of this problem in autistic children receiving these maximum doses over long periods of time. However, as always, it is essential to be gentle and observant. We don’t raise doses if we see signs of intolerance, which consist of agitation or disturbed sleep, and if these symptoms occur, it should be discontinued. A later trial may be beneficial when the digestive tract is functioning well, and when the child has a good intake of protein.

Folinic acid or methyl folate are active forms of folic acid which work together with B12 to enhance energy production and transport, neurotransmitter synthesis, myelin production, detoxification, cellular communication, immune function, gene expression and regulation. Folic acid, which is found in many supplements, but not in foods, requires activation by an enzyme which is frequently impaired in children with chronic health problems. As a consequence, it is preferable to use either folinic acid (available by prescription as Leucovorin, or over the counter) or methyl folate (available by prescription as Deplin, or over the counter). Support of the folate pathway is frequently helpful in children with autism, and is extremely safe, even at very high doses. Children may become agitated if dose is excessive. Starting with a dose of 400 mcg (0.4 mg) per day, one may raise the dose by doubling every 5-7 days, to a dose of 1600 mcg. We have found that some children need extremely high doses of 5000 to 80,000 mcg per day, due to a blockage in the mechanism for transport of folate into the nervous system. These extremely high doses are best given by prescription (Leucovorin is available in 25,000 mcg tablets, and Deplin in 15,000 mcg tablets). It is important to note that blood levels of both vitamin B12 and folic acid are a poor indicator of nutritional status, as these vitamins are critical in brain function, and blood levels correlate poorly with brain levels (due to impairments in brain uptake of these vitamins which are occur frequently in children with autism). If the blood levels are low, then the brain is likely also deficient, but is blood levels are high, this may indicate a block in brain uptake, with actual brain deficiency.

Tmg Supplement And Liver

Vitamin B3 (niacinamide, also niacin, which is a form of B3 better avoided in children with autism, as it may cause intense and unpleasant flushing), has also been called the “sleep vitamin,” as it enhances serotonin and melatonin levels. Niacinamide thus may be calming, and it sometimes helps reduce stimming behaviors. It also is essential in the energy and antioxidant pathways which are so critical to healthy brain function. Niacinamide should be given with an equal or greater dosage of supplemental vitamin C (for 500 mg of B3, give at least 500 mg vitamin C). The usual doses in 40-50 pound children are 250 to 500 mg per day. In very high doses, vitamin B3 can cause liver stress, which is always associated with nausea and or decreased appetite. And so a reduction in appetite should be taken as an indication to stop B3 and/or check the ALT liver enzyme level in blood.

Though TMG, DMG, and DMAE are not officially B vitamins, they are water-soluble nutrients which are safe, occur naturally in the brain, and are often helpful in children with autism related disorders. Both TMG and DMG help improve immune function, and may improve speech, awareness, and attention. Both can cause overstimulation or agitation, and TMG is somewhat more likely to do so. If this should occur, the child will calm down to baseline within a day or two of discontinuing the supplement. Some children clearly respond better to TMG, and some to DMG, and some to the two together. For TMG, we use doses of 175 mg to start, and may move to doses as high as 1000 mg per day with further benefit. One good study used a TMG dose of 2000 mg per day without problem in any of the children. For DMG, we generally start with 125 mg per day, working up as tolerated to 500 mg or higher per day. Dr. Rimland reported that children with severe agitation or aggression have , in some cases ,responded to DMG doses of up to 2000 mg per day.

DMAE has brought improvements in disposition, behavior and language, with doses of 50 to 300 mg daily. Higher doses are safe, and could be used if the child is showing encouraging improvements on lower doses. Occasionally, children will become agitated on DMAE, and it must be discontinued.

General Comments Regarding Supplementation

It is worth commenting on the experience that children with autism may react paradoxically to almost any remedy offered. While dangerous reactions are extremely rare (except for the possibility of harm to self or others if a child becomes extremely agitated or aggressive), is not common in most parents’ experience that their child will react unpredictably to an intervention. The most common adverse reaction is agitation, which most likely reflects a discomfort he’s not able to explain. In some cases, the agitation is a sign of a healing crisis, or a healthy readjustment occurring with some resistance. Nevertheless, in all cases it is an indication to reduce the dose, or stop the remedy and provide further support to the body before offering it again. This experience is in line with the finding that children with autism are often very different from one another, so that it is not reliable to predict an effect in one child based on an effect seen in another child. We need to work with our child as an individual, while still learning from the experiences of other children.

While all of the remedies and interventions described above are safe and approved for use without prescription, we strongly encourage you to work with a physician. It is best, when possible, to establish a doctor-patient relationship with the Evergreen Center. If you do not have physical access to our center or to a physician supportive of your work with your child, please contact us for further education and support at info@childrenandautism.com.

The above described remedies represent a good group of supports which should help to improve your child’s health, and may also improve many of his symptoms and problems. Autism is very complex, and there are many more interventions, sometimes including prescription medications which may be needed to make further gains. These include herbal supplements, sulfur supports (glutathione, NAC, Epsom salt baths, MSM, taurine), other vitamins (B’s, K, E, carotenoids, biopterin), amino acids, laxatives, prescription or natural antimicrobials (for parasites, yeast, bacteria) both, hormones (thyroid, cortisol, growth hormone, oxytocin, secretin), detoxification remedies (chelation, intravenous remedies, etc.), anticonvulsant medications, intestinal anti-inflammatories, and so on. As we learn more about autism, promising new remedies emerge, which are especially helpful with some of our children.