Uses

Lead poisoning and heavy metal toxicity

Chelation therapy using EDTA is the medically-accepted treatment for lead poisoning. Injected intravenously and once in the bloodstream, EDTA traps lead and other metals, forming a compound that the body can eliminate in the urine. The process generally takes 1 to 3 hours. Other heavy metal poisonings treated with chelation include mercury, arsenic, aluminum, chromium, cobalt, manganese, nickel, selenium, zinc, tin, and thallium. Chelating agents other than EDTA are also used to clear several of these substances from the bloodstream.

Heavy metal toxicity in humans has been associated with many health conditions, including heart disease, attention deficit/hyperactivity disorder (ADHD), Alzheimer disease, immune system disorders, gastrointestinal disorders (including irritable bowel syndrome, or IBS), and autism.

Digoxin toxicity

EDTA has also been used to treat digoxin toxicity, although most doctors prefer to use other methods. In this case, EDTA helps remove excess levels of digoxin, a medication that is used to treat abnormal rhythms of the heart.

Atherosclerosis

Evidence that EDTA chelation therapy is effective for heart disease is mixed. Proponents believe it may help people with atherosclerosis (hardening of the arteries) or peripheral vascular disease (decreased blood flow to the legs) by clearing clogged arteries and improving blood flow. However, the few studies that show it may help have been poorly designed, making the results questionable.

The theory that EDTA clears clogged arteries and improves blood flow is based on an outdated model about what causes heart disease. Newer theories include the possibility that EDTA functions like an antioxidant, preventing damaging molecules known as free radicals from injuring blood vessel walls and allowing plaque to build up. In fact, studies suggest that EDTA chelation therapy in combination with oral high-dose vitamins and minerals significantly reduced the occurrence of cardiac events compared to placebo. Other studies suggest EDTA chelation reduces further cardiac events among people who have diabetes, who have already had a heart attack.

Dentistry

EDTA is used in dentistry as a chelating agent for smear layer removal from root canal walls.

Available Forms

EDTA is a synthetic chemical and not found naturally. Because there is concern that EDTA may deplete important vitamins and minerals, EDTA chelation therapy is often given with essential nutrients (including calcium, B vitamins, vitamin C, and magnesium).

There are advertisements for oral chelating agents available on the market, some of which contain EDTA. However, they have not been studied in clinical trials. Some manufacturers promote topical EDTA solutions as well. These also lack substantial research. Speak with your physician.

How to Take It

Pediatric

For the treatment of lead poisoning: A doctor may give EDTA intravenously (IV) in a clinic or hospital. The dose depends on the amount of lead in the child’s blood, as well as the child’s height and weight. Daily treatment for up to 5 days may be required.

Adult

For heavy metal toxicity: EDTA chelation therapy is often given intravenously with calcium, magnesium, and vitamins B and C over a period of 1 to 3 hours. The recommended adult dosage varies depending on the size of the person and the amount of lead or other metal in the body. The amount used would be determined in a hospital setting.

Precautions

The most common side effect is a burning sensation at the site of the injection. In addition, some people may have an allergic reaction to EDTA. Other serious side effects that have been reported include low blood sugar, diminished calcium levels, headache, nausea, dangerously low blood pressure, kidney failure, organ damage, irregular heartbeat, seizures, or even death.

According to the Centers for Disease Control and Prevention (CDC), there have been deaths associated with hypocalcemia (low levels of calcium) from intravenous chelation therapy.

A qualified health care provider will monitor blood pressure, blood glucose, cholesterol, organ function, and other vital statistics during treatment with EDTA. EDTA may lower levels of nutrients such as calcium, zinc, and potassium. Your provider will perform blood tests to monitor vitamin and mineral levels before, during, and after EDTA chelation therapy. Your doctor may recommend supplemental vitamins and minerals, either orally or intravenously.

Possible Interactions

Antibiotics, Cephalosporins: Animal studies suggest that EDTA may increase the absorption of cefmetazole, an antibiotic in a class known as cephalosporins.

Vitamins and minerals: EDTA chelation therapy may decrease levels of certain vitamins and minerals in the body, including vitamin C, magnesium, iron, and calcium.

Warfarin (Coumadin): EDTA has been reported to decrease the effectiveness of Warfarin. Decreasing the effectiveness of Warfarin can increase the risk of infection.

Insulin: EDTA can decrease blood sugar, as does insulin. Together they may dramatically reduce blood sugar levels.

Supporting Research