Magnesium Chloride Vs Magnesium Sulfate [Epson Salts]

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Magnesium Chloride Vs Magnesium Sulfate

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According to Daniel Reid, author of The Tao of Detox, magnesium sulfate,

commonly known as Epsom salts, is rapidly excreted through the kidneys and

therefore difficult to assimilate. This would explain in part why the effects

from

Epsom salt baths do not last long and why you need more magnesium sulfate

in a bath than magnesium chloride to get similar results. Magnesium chloride

is easily assimilated and metabolized in the human body. However, Epsom

salts are used specifically by parents of children with autism because of the

sulfate, which they are usually deficient in , sulfate is also crucial to the

body and is wasted in the urine of autistic children.

For purposes of cellular detoxification and tissue purification, the most

effective form of magnesium is magnesium chloride, which has a strong excretory

effect on toxins and stagnant energies stuck in the tissues of the body,

drawing them out through the pores of the skin. This is a powerful hydrotherapy

that draws toxins from the tissues, replenishes the “vital fluid†of the

cells and restores cellular magnesium to optimum levels. Magnesium Chloride is

environmentally safe, and is used around vegetation and in agriculture. It is

not irritating to the skin at lower concentrations, and is less toxic than

common table salt.

Magnesium Chloride solution was not only harmless for tissues,

but it had also a great effect over leucocytic activity and

phagocytosis; so it was perfect for external wounds treatment.

Dr. Jean Durlach et al, at the Université P. et M. Curie, Paris, wrote a

paper about the relative toxicities between magnesium sulfate and magnesium

chloride. They write, “The reason of the toxicity of magnesium

pharmacological

doses of magnesium using the sulfate anion rather than the chloride anion may

perhaps arise from the respective chemical structures of both the two

magnesium salts. Chemically, both MgSO4 and MgCl2 are hexa-aqueous complexes.

However

MgCl2 crystals consist of dianions with magnesium coordinated to the six

water molecules as a complex, [Mg(H2O)6]2+ and two independent chloride anions,

Cl-. In MgSO4, a seventh water molecule is associated with the sulphate

anion, [Mg(H2O)6]2 +[sO4. H2O]. Consequently, the more hydrated MgSO4 molecule

may have chemical interactions with paracellular components, rather than with

cellular components, presumably potentiating toxic manifestations while

reducing therapeutic effect.â€

MgSO4 is not always the appropriate salt in clinical therapeutics.

MgCl2 seems the better anion-cation association to be

used in many clinical and pharmacological indications.[ii]

Dr. Jean Durlach et al

These researches also studied ionic fluxes in the two directions between the

mother and the fetus. They found that there was a greater positive effect

when MgCl2 was used and that MgSO4 could not guarantee the fetal needs in

sodium and potassium exchange like MgCl2 could. They also found that MgCl2

interacts with all the exchangers in the cell membrane, while the effect of

MgSO4 is

limited to paracellular components without interaction with cellular

components. Dr. Durlach summarized saying, “MgCl2 interacts with all

exchangers

while the interaction of MgSO4 is limited to paracellular exchangers, and MgCl2

increases the flux ratio between mother to fetus while MgSO4 decreases it.â€

Chloride is required to produce a large quantity of gastric acid each day

and is also needed to stimulate starch-digesting enzymes. Using other magnesium

salts is less advantageous because these have to be converted into chlorides

in the body anyway. We may use magnesium as oxide or carbonate but then we

need to produce additional hydrochloric acid to absorb them. Many aging

individuals, especially with chronic diseases who desperately need more

magnesium

cannot produce sufficient hydrochloric acid and then cannot absorb the oxide

or carbonate.

Sulfate is also important and has an influence over almost every cellular

function. Sulfate attaches to phenols and makes them less harmful, and sets

them up for being excreted from your kidneys. A lot of these potentially toxic

molecules are in food. Sulfate is also used to regulate the performance of

many other molecules. Many systems in the body will not function well in a

low-sulfate environment. Sulfur is so critical to life that the body will

apparently borrow protein from the muscles to keep from running too low.

Though magnesium sulfate will save your life in emergency situations as

quickly and easily as magnesium chloride, magnesium chloride fits the bill as a

universal medical nutrient. Magnesium sulfate is a close cousin whose effect,

form and toxicity demands it be used in special applications when the sulfur

is needed.

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[ii] Magnesium Research. Volume 18, Number 3, 187-92, September 2005,

original article

More on this subject is available in the book Transdermal Magnesium Therapy.