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Unproven Claims and Unsound Theories
Saul Green, Ph.D.
Chelation therapy, as discussed in this article, is a series of intravenous infusions containing disodium <A HREF="http://www.chem.purdue.edu/gchelp/cchem/polys2.html">EDTA</A> and various other substances. It is sometimes done by swallowing EDTA or other agents in pill form. Proponents claim that EDTA chelation therapy is effective against atherosclerosis and many other serious health problems. Its use is widespread because patients have been led to believe that it is a valid alternative to established medical interventions such as coronary bypass surgery. However, there is no scientific evidence that this is so. It is also used to treat nonexistent "lead poisoning," "<A HREF="mercury.html">mercury poisoning</A>," and other alleged toxic states that practitioners diagnose with <A HREF="Tests/mercurytests.html">tests on blood, urine, and/or hair</A>.
The proponents' viewpoints have been summarized in four books: The Chelation Answer: How to Prevent Hardening of the Arteries and Rejuvenate Your Cardiovascular System (1982), by Morton Walker, D.P.M., and Garry Gordon, M.D.; Chelation Therapy: The Key to Unclogging Y our Arteries (1985), by John Parks Trowbridge, M.D., and Morton Walker D.P.M.; A Textbook on EDTA Chelation Therapy (1989), by Elmer M. Cranton, M.D.; and Bypassing Bypass: The New Technique of Chelation Therapy (2nd edition, 1990), by Elmer Cranton, M.D., and Arline Brecher. The scientific jargon in these books may create the false impression that chelation therapy for atherosclerosis, and a host of other conditions, is scientifically sound. The authors allege that between 300,000 and 500,000 patients have safely benefited. However, their evidence consists of anecdotes, testimonials, and poorly designed experiments.
This article identifies the major claims made for EDTA chelation and examines each in light of established scientific fact. The sources used for this review included position papers of professional societies, technical textbooks, research and review articles, newspaper articles, patient testimonials, medical records, legal depositions, transcripts of court testimony, privately published books, clinic brochures, and personal correspondence. [Note: Chelation with other substances has legitimate use in a few situations. For example, deferoxamine (Desferol) is used to treat iron-overload from multiple transfusions. But this is not related to the topic of this article, and chelation with disodium EDTA is not a substitute for Desferol chelation.]
The term chelate, from the Greek chele for claw, refers to the "claw-like" structure of the organic chemical ethylenediaminetetraacetic acid (EDTA), first synthesized in Germany in the 1930s. With this claw, EDTA binds di- and trivalent metallic ions to form a stable ring structure. EDTA is water-soluble and chelates only metallic ions that are dissolved in water. At pH 7.4 (the normal pH of blood) the strength with which EDTA binds dissolved metals, in decreasing order, is: iron+++ (ferric ion), mercury++, copper++, aluminum+++, nickel++, lead++, cobalt++, zinc++, iron++ (ferrous ion), cadmium++, manganese++, magnesium++, and calcium++.
Mercury, lead, and cadmium cannot be metabolized by the body and, if accumulated, can cause toxic effects by interfering with various physiological functions. These substances are called "heavy metals," a term applied to metallic elements whose specific gravity is about 5.0 or greater, especially those that are poisonous. Aluminum is not a nutrient, but iron, copper, nickel, cobalt, zinc, manganese, magnesium, and calcium are essential nutrients that are needed for normal metabolic activity.
After EDTA was found effective in chelating and removing toxic metals from the blood, some scientists postulated that hardened arteries could be softened if the calcium in their walls was removed. The first indication that EDTA treatment might benefit patients with atherosclerosis came from Clarke, Clarke, and Mosher, who, in 1956, reported that patients with occlusive peripheral vascular disease said they felt better after treatment with EDTA .
In 1960, Meltzer et al., who had studied ten patients with angina pectoris, reported that there was no objective evidence of improvement in any of them that could be ascribed to the course of EDTA chelation treatment. However, during the next two months, most of the patients began reporting unusual improvement in their symptoms. Prompted by these results, Kitchell et al. studied the effects of chelation on 28 additional patients and reappraised the course of the ten patients used in the original trial . They found that although 25 of the 38 patients had exhibited improved anginal patterns and half had shown improvement in electrocardiographic patterns several months after the treatment had begun, these effects were not lasting. At the time of the report, 12 of the 38 had died and only 15 reported feeling better. (This "improvement" was not significant, however, because it was no better than would be expected with proven methods and because there was no control group for comparison.) Kitchell et al. concluded that EDTA chelation, as used in this study, was "not a useful clinical tool in the treatment of coronary disease."
The "Approved" Protocol
The primary organization promoting chelation therapy is the <A HREF="http://www.acam.org/">American College for Advancement in Medicine (ACAM)</A>, which was founded in 1973 as the American Academy for Medical Preventics. Since its inception, ACAM's focus has been the promotion of chelation therapy. The group conducts courses, sponsors the American Journal of Advancement in Medicine, and administers a "board certification" program that is not recognized by the scientific community. <A HREF="http://www.healthy.net/aspassociations/assocsearch.asp?table=American+College+for+Advancement+in+Medicine">ACAM's online directory</A> lists about 850 members, about 550 of whom indicate that they practice chelation therapy.
In 1989, an ACAM protocol for "the safe and effective administration of EDTA chelation therapy" was included in Cranton's "textbook," a 420-page special issue of the journal that contains 28 articles and a foreword by Linus Pauling. The protocol calls for intravenous infusion of 500 to 1,000 ml of a solution containing 50 mg of disodium EDTA per kilogram of body weight, plus heparin, magnesium chloride, a local anesthetic (to prevent pain at the infusion site), several B-vitamins, and 4 to 20 grams of vitamin C. This solution is infused slowly over 3.5 to 4 hours, one to three times a week. The initial recommendation is about 30 such treatments, with the possibility of additional ones later. Additional vitamins, minerals, and other substances—prescribed orally—"vary according to preferences of both patients and physicians." Lifestyle modification, which includes stress reduction, caffeine avoidance, alcohol limitation, smoking cessation, exercise, and nutritional counseling, is encouraged as part of the complete therapeutic program. The number of treatments to achieve "optimal therapeutic benefit" for patients with symptomatic disease is said to range from 20 ("minimum"), 30 (usually needed), or 40 ("not uncommon" before benefit is reported") to as many as 100 or more over a period of several years. "Full benefit does not normally occur for up to 3 months after a series is completed," the protocol states—and "follow-up treatments may be given once or twice monthly for long-term maintenance, to sustain improvement and to prevent recurrence of symptoms." The cost, typically $75 to $125 per treatment, is not covered by most insurance companies. <A HREF="chelationfraud.html">Some chelationists, in an attempt to secure coverage for their patients, misstate on their insurance claims that they are treating heavy-metal poisoning</A>.
In 1997, ACAM issued a revised protocol describing the same procedures but adding circumstances (contraindications) under which chelation should not be performed. As in 1989, the document gives no criteria for determining: (1) who should be treated, (2) how much treatment should be given, or (3) how to tell whether the treatment is working.
Proponents claim that chelation therapy is effective against atherosclerosis, coronary heart disease, and peripheral vascular disease. Its supposed benefits include increased collateral blood circulation; decreased blood viscosity; improved cell membrane function; improved intracellular organelle function; decreased arterial vasospasm; decreased free radical formation; inhibition of the aging process; reversal of atherosclerosis; decrease in angina; reversal of gangrene; improvement of skin color, healing of diabetic ulcers. Proponents also claim that chelation is effective against arthritis; multiple sclerosis; Parkinson's disease; psoriasis; Alzheimer's disease; and problems with vision, hearing, smell, muscle coordination, and sexual potency. None of these claimed benefits has been demonstrated by well-designed clinical trials.
In a retrospective study of 2,870 patients treated with NaMgEDTA, Olszewer and Carter (1989) concluded that EDTA chelation therapy benefited patients with cardiac disease, peripheral vascular disease and cerebrovascular disease. These conclusions were not justified because the people who received the treatment were not compared to people who did not.
In 1990, these authors carried out a "double-blind study" in which EDTA chelation was used to treat ten patients with peripheral vascular disease. The authors claimed that this was the first such study. The patients' progress was evaluated by measuring changes in their blood pressure and their performance in exercise stress tests before, during, and after the course of treatment. The authors claimed that EDTA had a significant impact on the patients' clinical status because the removal of calcium, copper and zinc from the vascular compartment corrected cholesterol and lipoprotein metabolism; triggered a parathyroid response that pulled calcium from the bones; decreased platelet aggregation; lessened iron-generated free radical formation; reduced membrane lipid peroxidation; decreased plaque formation; and prevented intracellular calcium accumulation.
Between 1963 and 1985, independent physicians published at least fifteen separate reports documenting the case histories of more than seventy patients who had received chelation treatments. They found no evidence of change in the atherosclerotic disease process, no decrease in the size of atherosclerotic plaques, and no evidence that narrowed arteries opened wider.
More recently, the results of two randomized, controlled, double-blind clinical trials of chelation therapy were published in peer-reviewed German medical journals. The first was conducted by Curt Diehm, M.D., at the University of Heidelberg Medical Clinic . Diehm studied 45 patients who had intermittent claudication, a condition in which impaired circulation causes the individual to develop pain in the legs upon walking. About half of the patients were treated with EDTA and the rest received Bencyclan, a bloodthinning agent. In addition to determining the effect of each agent on the ability to perform pain-free walking exercises, Diehm measured the progress of the disease process in each patient during the four-week treatment period and three months after treatment was stopped. Statistical evaluation of the results after the blinding code was broken showed that patients in both groups had equally increased ability to perform pain-free walking exercises and that treatment with EDTA did not result in any change in the patients' blood flow, red cell viscosity, red-cell aggregation, or triglyceride and cholesterol levels. Diehm also concluded that the improvements in walking measurements in both groups were directly related to his success in convincing them of his strong interest in their well being and his ability to motivate them to make an effort to perform greater activity.
In the second trial, R. Hopf, a cardiologist at the University of Frankfurt, tested chelation in patients with coronary heart disease . In this trial, 16 patients with angiographic evidence of coronary heart disease were randomized and divided into an EDTA-treated and an untreated group. Before treatment, the treated group averaged 2.1 significantly narrowed coronary arteries, while the untreated group averaged 2.6. Patients were infused with 500 ml of either the EDTA solution or dilute salt water (a placebo) at three-day intervals for a total of 20 infusions. On completion of the trial, patients in both groups said they felt better and performed weightlifting tests equally well. However, comparison of both groups before and after treatment, using angiography and other tests, indicated no improvement in blood flow through the patients' coronary arteries and a slight progression of their atherosclerosis. Hopf concluded that chelation had no effect on diseased coronary arteries.<A NAME="anchor126866"></A>
|This is an excerpt from a 1996 flyer
from an osteopathic physician whose radio advertisements invite people who have been advised to have coronary bypass surgery to consult him first. There is no published scientific evidence that chelation therapy can render bypass surgery unnecessary or can help people with any of the conditions listed in the ad. The experience to which the ad refers is not a trustworthy substitute for scientific testing. People with coronary artery disease who need bypass surgery and choose chelation instead place themselvesat great risk.
|<IMG SRC="chelationad.gif" WIDTH="473" HEIGHT="277" ALIGN="BOTTOM" NATURALSIZEFLAG="3">|
Proponents also claim that chelation has been demonstrated to be safe. In Bypassing Bypass, Cranton declares that six million chelation treatments have been given safely over the last forty years. In his textbook, however, he warns of the seriousness of the possible side effects and advises that prospective patients be given a complete physical examination and be tested to rule out hypocalcemia, kidney impairment, allergic conditions (sensitivity to components of the EDTA infusion fluids), hypoglycemia, blood-clotting problems, congestive heart failure, liver impairment, and tuberculosis.
Other observers have reported cases of hypocalcemia leading to cardiac arrhythmias and tetany; kidney damage; decreased blood clotting ability with abnormal bleeding; thrombophlebitis and embolism; hypoglycemia and insulin shock; severe vasculitis and autoimmune related hemolytic anemia, dermatitis with pruritus and generalized eczema; and extensive clumping of platelets in the blood of some patients with atherosclerosis and other chronic diseases.
An important theoretical consideration should also be considered. The trace metal most dramatically lost as a result of EDTA chelation is zinc. French researchers have found that 24 hours after an infusion of EDTA, the urine of human subjects contained 15 times the normal amount of zinc . Without replacement, the loss of this much zinc over the months during which 30 to 40 treatments are delivered will increase the potential for severe impairment of immune function, precancerous cellular mutations, loss in selective permeability of cell membranes and altered solubility of pancreatic insulin. Although proponent literature advises that supplemental zinc be administered to guard against zinc depletion, studies showing that this supplementation actually prevents depletion have not been published in the peer-reviewed scientific literature.
Over the past 40 years, proponents have invoked various biochemical mechanisms to justify their use of EDTA chelation. Each time critics proved that the mechanism in vogue was scientifically untenable, a new one was postulated together with new dogma.
- Propose mechanism #1: The "roto-rooter" hypothesis (1960s-1970s). Throughout the 1960s chelation proponents claimed that the structure of arterial plaque depended on the calcium it contained. They suggested that this calcium was dlike the rivets in a steel structure and that removing it would cause the plaque to disintegrate, widening the affected arteries and increasing blood flow. This mechanism was compared to "roto-rooter" cleaning of a clogged household water pipe.
Rebuttal: Plaque is an integral part of the artery wall and not a deposit on its surface. Calcium enters arterial plaque in the late stages of its enlargement. Since EDTA cannot pass through the artery cell membranes it cannot chelate the calcium there. Chelation proponents have never presented evidence that chelation therapy causes softening of hardened arteries, removes calcium from arterial plaque or causes the plaque structure to disintegrate.
Even if a chelating substance could impact on arterial disease, there is good reason to doubt that EDTA would be an effective agent. Of all the synthetic chelating agents that have been used to bind metals in the body, EDTA is probably the least effective. Because it is water-soluble, it cannot penetrate the lipid-rich cell membranes. Because it is nonspecific, it binds the other divalent and trivalent metal ions in a mixture before it binds calcium. It is rapidly eliminated from the body, carries all bound trace metals with it, and can deplete nutritionally important trace metals.
- Proposed mechanism #2: Parathyroid hormone (PTH) and plaque decalcification (1970s-1980s). By the mid-70s the roto-rooter hypothesis had been repudiated. However, because proponents still believed that the structural integrity of arterial plaque depended on its calcium content, a new rationale was needed. In The Chelation Answer, Walker proposed that when ionic calcium was removed from serum by EDTA chelation, it was replaced by calcium from bone. This stimulated the parathyroid gland to secrete PTH, which promoted remineralization of bone. Walker alleged that the calcium for this bone remineralization was supplied through serum by "gradual transfer" of calcium from hardened arterial tissue and plaque. This, he said, softened the arteries and caused plaque to disintegrate.
Rebuttal: Every metabolic process in our tissues depends somewhat on calcium for its activity. To ensure human survival, the neuromuscular system must be protected by preventing a loss of calcium from the soft tissues. The calcium in blood plasma is strictly maintained between 9.0 and 11.0 mg per 100 ml in order to replenish any calcium that might be lost from soft tissues. In adult humans, the principal calcium storage depots are the bones, which contain over 99% (1,300 grams) of the calcium in the body. The rest is contained in the soft tissues (0.6%, 7 grams), plasma (0.03%, 350 mg), and extravascular fluids (0.07%, 700 mg). The homeostatic mechanism by which the plasma calcium level is maintained involves the action of PTH, and 1,25 dihydroxyvitamin D3. These hormones regulate absorption of calcium from the gut, reabsorption in the kidney tubules, and mobilization from the bone.
The remineralization of bone uses calcium drawn from the plasma. A fall in plasma calcium triggers secretion of extra PTH, increases calcium reabsorption in the kidney tubules and synthesis by kidney tissue of 1,25 dihydroxyvitamin D3, which causes increased calcium absorption from the gut. These PTH actions on the kidney and the gut maintain plasma calcium levels while bone remineralization takes place.
Calcium in the soft tissues is kept from reaching toxic concentrations (too high or too low ) by an exchange reaction with divalent ions in the extracellular fluid. There is no normal physiological mechanism by which the soft tissues supply calcium for bone remineralization, and there is no homeostatic process that can selectively direct decalcification of hardened arteries while leaving normal tissues untouched.
- Proposed mechanism #3: EDTA chelation blocks production of free radicals involved in a chain of reactions that result in atherosclerosis. (1980s to present). By the early 1980s, the extensive knowledge amassed by scientists about what "free radicals" were, how they were generated, and what damage they might do in the body allowed Cranton to posit the "current dogma" in the 1990 edition of Bypassing Bypass.
According to Cranton, free radicals are produced in the body by toxic metals and by abnormally placed iron and copper that are released into the local blood stream when blood clots in occluded arteries. These metals generate free radicals, which oxidize fatty acids to lipid peroxides, which then generate new free radicals themselves. This chain of oxidation reactions causes arterial cell-membrane damage and plaque formation. When EDTA binds iron, it becomes chemically unreactive and stops catalyzing the production of the free radicals. Thus, EDTA chelation curbs the pathological processes that cause atheromas (plaque) by greatly reducing the amount of free radicals generated in the atherosclerotic blood vessels.
Rebuttal: Ionic iron has two electrons in its outermost or N shell and 14 electrons in its M shell. This configuration gives ionic iron the distinct characteristic of being able to accept three pairs of electrons from other ions. As long as one pair of these electrons is left unbound, ionic iron remains highly reactive.
When iron is dissolved in water at a pH of 7.0 or more, its three pairs of electrons will be bound to three OH groups of the water. The resulting ferric hydroxide is insoluble and precipitates. In contrast, when ionic iron is chelated with EDTA, only two of the three pairs of available electrons are bound. The binding of just two of the three pairs of electrons allows the iron to exist in physiological solutions (at pH 7) in a soluble yet stable form. More importantly, since the EDTA only forms bonds with two of the three pairs of electrons, it allows the remaining pair to be fully involved in oxidation reactions that generate free radicals. Therefore, if EDTA chelates ionic iron, it does not stop it from generating free radicals. Rather, EDTA chelation keeps iron dissolved in the blood stream for extended periods and magnifies the extent to which it catalyzes production of tissue-damaging free radicals.
Under normal circumstances most of the iron in the body is bound to proteins and is not able to generate free radicals. As a result, the few free radicals that are generated by ionic iron are fully dealt with by existing antioxidant enzyme systems. However, when something causes the release of iron from these protein complexes, the amount of ionic iron is markedly increased and the potential for free-radical production is exacerbated. High doses of vitamin C increase the amount of ionic iron in the circulation by promoting its release from transferrin (the iron-transport protein) and from ferritin (the iron-storage protein), and by increasing the absorption of dietary iron from the gut. Since EDTA infusion solutions include megadoses of vitamin C, the possibility exists that chelation therapy will increase the formation of free radicals that cause tissue damage!
- Proposed mechanism #4: Chelation therapy prevents mutations of cells that become an atheroma. Atheromas are benign tumors that arise from mutated artery cells. Artery cells mutate when their DNA is damaged by free radicals. When these cells grow, they become a benign tumor called an atheroma (plaque).
Rebuttal: Arterial atheromas are not derived from mutant cells but from events that cause damage and processes that attempt repair. Low-density lipoproteins (LDL) in the plasma cross the endothelial cell layer of the artery at a point where an injury has occurred and are deposited in the subendothelial layer. Monocytes are attracted to the injured area and migrate between the endothelial cells to the subendothelial layers. These monocytes are converted to macrophages which engulf the LDL and become the foam cells or "the fatty streak." The fibrous plaque-the accumulation of foam cells ruptures the endothelial cell layer causing platelets to aggregate at the site. Platelet growth factor is released, stimulating smooth muscle cell proliferation and the deposition of more LDL. Smooth muscle cells produce collagen and form a fibrous, collagen-rich cap over the site (plaque). At this stage the plaque contains cholesterol, lipid particles, and the debris from dead cells . If this cap is dislodged, there is a rapid repetition of the above steps and the plaque enlarges. The atheroma-smooth muscle cell proliferation results in an infiltration into the intima of the arterial wall. As the atheroma enlarges, the small blood vessels surrounding it rupture and bleed, causing calcification inside the atheroma. As the atheroma continues to enlarge, it causes narrowing of the artery.
The Phantom Study
In October 1989, chelation therapy was listed as one of "The Top Ten Health Frauds" in an article in FDA Consumer. The article reported that both the FDA and the <A HREF="http://www.americanheart.org/presenter.jhtml?identifier=3000843">American Heart Association</A> have said that there is no scientific evidence that chelation therapy is effective against cardiovascular disease. Three issues later, a letter from a proponent complained that the listing was inappropriate because the FDA had approved the protocol of a clinical trial that was underway. The letter was followed by "an apology for the error," which stated that the editor had not been aware that chelation therapy had been approved for a study. The editor's note also quoted an FDA official who said that the study should "unequivocally answer at least several questions related to the utility of chelation therapy in . . . intermittent claudication."
The FDA should not have backed down because mere approval for a clinical trial is not proof that method works. Nevertheless, for several years, proponents continued to trumpet the existence of the study as evidence that their claims were justified. The study, however, has not been completed. According to proponents, a drug company that was involved in funding the study changed its mind, leaving them without the resources to complete it. Even if the study had been completed and had demonstrated benefit in patients with intermittent claudication, it would not have proven that chelation is safe or effective for anything else.
In 1992, a group of cardiovascular surgeons in Denmark published results of a double-blinded, randomized, placebo-controlled study of EDTA treatment for severe intermittent claudication . A total of 153 patients in two groups received 20 infusions of EDTA or a placebo for 5 to 9 weeks, in a clinical protocol duplicating the conditions used by Olszewer and Carter in 1990. The changes seen in pain-free and maximal walking distances were similar for the EDTA-treated and the placebo group, and there were no long-term therapeutic effects noted in 3-month and 6-month follow-ups. These investigators concluded that chelation was not effective against intermittent claudication.
Summary and Conclusions
Chelation therapists state they have administered millions of EDTA treatments to hundreds of thousands of patients over the past 40 years. Protagonist publications contain their claims of numerous clinical successes and speculations couched in modern scientific terms, seeking to explain how chelation therapy could work. Since there is no evidence showing the treatment has modified the disease process, it is clear that the "benefits" being described are the result of the compassionate attention paid to the problems of the patient and to the encouragement given them to cope with their symptoms, and/or to changes in patients' lifestyle, the same ones recommended by scientific practitioners
If chelation therapists practiced in a scientific manner, their publications would show an interest in obtaining objective proof that chelation could alter the progress of the atherosclerosis, that occluded blood vessels could be cleared, that plaque deposits could be reduced, and that hardened arteries could be "softened." Their data would include carefully documented case reports with long-term follow-up, comparisons of angiograms or ultrasound tests before and after chelation, and data from autopsies of former patients. But chelationists have published no such data. The few well-designed studies that have addressed the efficacy of chelation for atherosclerotic diseases have been carried out by "establishment " medical scientists. Without exception, these found no evidence that chelation worked.
Based on numerous reviews of the world's medical literature, these same conclusions have been reached by the FDA, the FTC, National Institutes of Health, National Research Council, California Medical Society, American Medical Association, Centers for Disease Control and Prevention, <A HREF="http://www.americanheart.org/presenter.jhtml?identifier=3000843">American Heart Association</A><A HREF="http://www.americanheart.org/Heart_and_Stroke_A_Z_Guide/chelat.html"></A>, American College of Physicians, American Academy of Family Physicians, American Society for Clinical Pharmacology Therapeutics, American College of Cardiology, and American Osteopathic Association.
Notwithstanding claims to the contrary, the chelation "establishment" is not being victimized by a prejudiced and arrogant medical orthodoxy, but by its own unwillingness to mount a rigorous, placebo-controlled, double-blind clinical trial and stand by the results.
About the Author
Dr. Green (1925-2007) was a biochemist who did cancer research at Memorial Sloan-Kettering Cancer Center for 23 years. He consulted on scientific methodology and had a special interest in unproven methods.
Update by Stephen Barrett, M.D.
In 1998, the U.S. Federal Trade Commission charged that ACAM's Web site and a brochure had made false or unsubstantiated claims that:
In December 1998, <A HREF="../02ConsumerProtection/ftcchelation.html">the FTC announced that it had secured a consent agreement</A> barring ACAM from making unsubstantiated advertising claims that chelation therapy is effective against atherosclerosis or any other disease of the circulatory system.
In 2001, researchers at the University of Calgary reported that cardiac patients receiving chelation therapy fared no better than those who received placebo treatment. The patients were randomly assigned to get intravenous infusions twice weekly for 15 weeks and monthly treatments for 12 more weeks. Thirty-nine patients in each group completed the 27-week protocol and were followed for about six more months. The chelation and placebo groups showed no difference in exercise capacity or feelings of well-being, but both groups increased their ability to walk on a treadmill by an average of one minute . Edzard Ernst, M.D., Ph.D., a professor of complementary medicine who has closely examined published reports on chelation therapy, responded to the report with this comment:
The <a href="http://www.ncahf.org/policy/chelation.html">National Council Against Health Fraud</a> believes that chelation therapy is unethical and should be banned and that chelation therapy of autistic children should be considered child abuse. I agree.
For Additional Information
- <A HREF="chelationpharm.html">The Pharmacology of Chelation Therapy</A>
- <A HREF="chelationimp.html">EDTA Chelation Therapy for Atherosclerosis and Degenerative Diseases: Implausibility and Paradoxical Oxidant Effects </A>
- <A HREF="chelationfraud.html">Chelation Therapy and Insurance Fraud</A>
- <a href="http://www.ncahf.org/policy/chelation.html">National Council Against Health Fraud Policy Statement on Chelation Therapy</a>
- <A HREF="http://www.americanheart.org/presenter.jhtml?identifier=3000843">Questions and Answers about Chelation Therapy (American Heart Association)</A>
- <a href="http://www.chelationwatch.org/reg/tn.shtml">Tennessee Medical Board Limits Chelation Therapy</a> (posted 10/19/05)
- <a href="http://www.chelationwatch.org/safety/mmwr2006.shtml">Three Deaths Associated with Hypocalcemia from Chelation Therapy</a> (posted 3/2/06)
- American Journal of Medical Science 230:654-666, 1956.
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- Zeit. Deutsch Herzstiftung. Vol 10, July 1986.
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- Allain P and others. <A HREF="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=1905148&dopt=Abstract">Effects of an EDTA infusion on the urinary elimination of several elements in healthy subjects.</A> British Journal of Clinical Pharmacology 31:347-349, 1991.
- Guldager B and others. <A HREF="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=1556523&dopt=Abstract">EDTA treatment of intermittent claudication: A double-blind, placebo-controlled study</A>. Journal of Internal Medicine 231:261-267, 1992.
- Knudson ML and others. <A HREF="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=11798370&dopt=Abstract">Chelation therapy for ischemic heart disease: a randomized, controlled trial</A>. JAMA 287:481-486, 2002.
- Ernst E. <A HREF="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=10874275&dopt=Abstract">Chelation therapy for coronary heart disease: An overview of all clinical investigations</A>. American Heart Journal 140:139-141, 2000.
- Ernst J. Commentary. Chelation therapy does not benefit heart patients. Focus on Alternative and Complementary Therapies 7153, 2002.
This page was revised on July 24, 2007.