(TSH) stimulates uptake I-‐, synthesis T3, T4 and ..
Your thyroid gland produces the hormones T3 and thyroxine (T4), ..
Dr. Abdusallam reported research with extract of Macrocystis, that shows it to be an effective killer of mosquito larvae. Agricultural uses of seaweed are under development as seaweed has been found to improve seedling and root growth and flowering is increased in cabbages and marigolds. A 50 percent increase in yield was produced from ground nut plants treated with seaweed concentrate. In animals it is a growth enhancer with increased growth and muscle lipid content and with greater feed efficiency: it cost less to achieve weight gain. Most of the benefits of seaweed are due to its high content of potassium iodide; but in addition they contain carotenoids, essential fatty acids, amino acids, vitamins, trace minerals and antioxidant enzymes.
New England Journal of Medicine on T4 and TSH - …
Probiotics are an evolved species and they produce B vitamins and folic acid in the gut. On the fly they do biological transmutation, converting minerals like silica into calcium. This is really, really important for your health. They will convert 20% of T4 to T3. You can get an 18% to 20% increase in your usable T3 through boosting your probiotics.
Elevated tsh but normal t3 and t4 | scholarly search
Ashwagandha helps convert T4 to T3, so that’s really good. It helps cleanse the liver, and it will improve the liver in a way so that it does this conversion better. Ashwagandha is one of the most famous herbs – probably the number one herb for thyroid health. Ashwagandha is an adaptogen- it helps with the immune system, energy, improving short-term and long-term memory, and longevity. It’s really an amazing tonic, but it is most targeted to thyroid.
Elevated tsh but normal t3 and t4 ..
Iodide therapy can be used to interrupt TSH production and consequent over-activity in Grave's disease. This same mechanism can be useful in some cases of hypomanic excitement, even as an adjunct to lithium and tranquilizers. Another basis for this therapy is implied by results of a study by Drs. Dratman, Futaesaku et al. They demonstrated that the thyroid hormone concentrates in specific areas of the brain, particularly in the cerebellum, which generates habit patterns, the hippocampus, which coordinates memory via attentional mechanisms, and the gray matter of the cortex, which contains memory storage. At low or deficient levels of thyroxin, as are seen in case of iodine deficiency, the more active T3 hormone increases in the brain. This would explain the paradox of mental overactivity in patients with poor nutrition. It also explains the calming effect of iodine.