Chelation is it a Cure for Heart Disease?
There is a test being conducted by the NHLBI and
the NCCAM to find out if chelation is real or not this is the information
regarding this study that I found.
Introduction
The National Center for Complementary and Alternative Medicine
(NCCAM) and the National Heart, Lung, and Blood Institute (NHLBI),
both components of the National Institutes of Health (NIH), have
launched the Trial to Assess Chelation Therapy (TACT). TACT is the
first large-scale, multi-center study to determine the safety and
efficacy of EDTA chelation therapy for individuals with coronary
artery disease. The questions and answers below provide additional
information on coronary artery disease, EDTA chelation therapy,
and the study.
1. What is coronary artery disease?
Coronary artery disease (CAD) is the most common form of heart
disease. In CAD the coronary arteries, the vessels that bring oxygen-rich
blood to the tissues of the heart, become blocked by deposits of
a fatty substance called plaque. As plaque builds, the arteries
become narrower and less oxygen and nutrients are transported to
the heart. This condition can lead to serious problems, such as
angina (pain caused by not enough oxygen-carrying blood reaching
the heart) and heart attack. In a heart attack, or myocardial infarction,
there is such poor oxygen supply to the heart that part of the heart
muscle dies. If a sufficiently large portion of the heart is affected,
it may no longer be able to pump blood efficiently to the rest of
the body, resulting in death or chronic heart failure.
Approximately 7 million Americans suffer from CAD. It is the leading
cause of death among American men and women; more than 500,000 Americans
die of CAD-related heart attacks each year.
There are several factors that can each increase the risk of developing
CAD:
High blood pressure High cholesterol levels Smoking Obesity Physical
inactivity Diabetes Family history of CAD Gender Age
A person with CAD may or may not have symptoms. Symptoms can include
chest pain from angina, shortness of breath, lightheadedness, cold
sweats, or nausea.
2. How is CAD diagnosed and treated?
Because the severity of CAD and its symptoms can vary from person
to person, the way the disease is diagnosed and treated can also
vary. CAD is often diagnosed through a series of tests that can
include blood tests to see if protein has been released into the
bloodstream from damaged heart tissues, electrocardiograms (EKG)
to check the heart's electrical activity, "stress" tests
to record the heartbeat during exercise, nuclear scanning to check
for damaged areas of the heart, and angiography to see how blood
flows.
Treatment of CAD depends on many factors, such as the patient's
age, heart function, and overall health. Often, treatment begins
with focusing on lifestyle--stopping smoking for patients who smoke,
reducing fat in the diet, and engaging in a prescribed exercise
program. Medications may also be prescribed, such as aspirin to
prevent additional heart attacks, medications that decrease the
workload on the heart, or medicines to reduce high blood cholesterol
levels or high blood pressure. If these efforts are not effective,
a patient may need to have the narrowed or blocked arteries re-opened
through a procedure called balloon angioplasty, or bypassed through
surgery. Balloon angioplasty involves threading a thin tube into
the artery and expanding a balloon-like apparatus as a way to increase
the size of the artery so more blood can flow. Bypass surgery is
used to treat severe blockages by using veins or arteries from other
areas of the body to divert blood flow around the blocked coronary
arteries.
3. What is EDTA chelation therapy?
Chelation is a chemical process in which a substance is used to
bind molecules, such as metals or minerals, and hold them tightly
so that they can be removed from a system, such as the body. In
medicine, chelation has been scientifically proven to rid the body
of excess or toxic metals. For example, a person who has lead poisoning
may be given chelation therapy in order to bind and remove excess
lead from the body before it can cause damage.
In the case of EDTA chelation therapy, the substance that binds
and removes metals and minerals is EDTA (ethylene diamine tetra-acetic
acid), a synthetic, or man-made, amino acid that is delivered intravenously
(through the veins). EDTA was first used in the 1940s for the treatment
of heavy metal poisoning. EDTA chelation removes heavy metals and
minerals from the blood, such as lead, iron, copper, and calcium,
and is approved by the U.S. Food and Drug Administration (FDA) for
use in treating lead poisoning and toxicity from other heavy metals.
Although it is not approved by the FDA to treat CAD, some physicians
and alternative medicine practitioners have recommended EDTA chelation
as a way to treat this disorder.
4. Does EDTA therapy have side effects?
When used as approved by the FDA (at the appropriate dose and infusion
rate) for treatment of heavy metal poisoning, chelation with EDTA
has a low occurrence of side effects. The most common side effect
is a burning sensation experienced at the site where the EDTA is
delivered into the veins. Rare side effects can include fever, hypotension
(a sudden drop in blood pressure), hypocalcemia (abnormally low
calcium levels in the blood), headache, nausea, vomiting, and bone
marrow depression (meaning that blood cell counts fall). Injury
to the kidneys has been reported with EDTA chelation therapy, but
it is rare. Other serious side effects can occur if EDTA is not
administered by a trained health professional.
5. How might EDTA therapy work to clear blocked arteries?
Several theories have been suggested by those who recommend this
form of treatment. One theory suggests that EDTA chelation might
work by directly removing calcium found in fatty plaques that block
the arteries, causing the plaques to break up. Another is that the
process of chelation may stimulate the release of a hormone that
in turn causes calcium to be removed from the plaques or causes
a lowering of cholesterol levels. A third theory is that EDTA chelation
therapy may work by reducing the damaging effects of oxygen ions
(oxidative stress) on the walls of the blood vessels. Reducing oxidative
stress could reduce inflammation in the arteries and improve blood
vessel function. None of these theories has been well tested in
scientific studies.
6. Is there evidence that EDTA therapy works for CAD?
There is a lack of adequate prior research to verify EDTA chelation
therapy's safety and effectiveness for CAD. The bulk of the evidence
supporting the use of EDTA chelation therapy is in the form of case
reports and case series. Some patients who have undergone chelation
therapy and the physicians who prescribed it claim improvement in
CAD. In addition, there are approximately 12 published descriptive
studies and 5 randomized controlled clinical trials regarding the
use of EDTA chelation for CAD. Although each descriptive study did
report a reduction in angina, they were uncontrolled clinical observations
or retrospective data, typically with a small number of participants.
Of the five clinical trials in which patients were randomly selected
to receive chelation therapy or a placebo (a dummy solution), the
most rigorous way of assessing a new treatment, three trials involved
so few people that only a dramatic improvement could have been detected.
Studies need a larger number of participants to detect more mild
benefits of a treatment. The fourth study was never published in
final form, so its conclusions are uncertain. Finally, the fifth
study reported that EDTA chelation was associated with an improvement
in ability to exercise, but it had only 10 participants.
7. How frequently is EDTA chelation therapy used?
It is estimated by the American College for Advancement in Medicine,
a professional association that supports the use of chelation therapy,
that more than 800,000 visits for chelation therapy were made in
the United States in 1997 alone.
8. Why did NCCAM and NHLBI decide to study this therapy?
CAD is the leading cause of death among men and women in the United
States. In spite of effective standard therapies, such as lifestyle
modifications, medications, and surgical procedures, some patients
with CAD seek out EDTA chelation therapy as a treatment option.
Therefore, NCCAM and NHLBI saw a public health need to conduct
a large-scale, well-designed clinical trial that could determine
more clearly whether EDTA chelation therapy is indeed an effective
and safe alternative for treating CAD.
9. How will the NIH study be conducted?
This placebo-controlled, double-blind study will recruit 2,372
participants aged 50 years and older with a prior myocardial infarction
(heart attack) to test whether EDTA chelation therapy and/or high-dose
vitamin therapy is effective for the treatment of CAD. This study,
with a total cost of approximately $30 million, is over 20 times
larger than any previous study of chelation therapy. It is designed
to be large enough to detect if there are any mild or moderate benefits
or risks associated with the therapy.
EDTA chelation therapy, as practiced in the community, often includes
administration of high doses of antioxidant vitamin and mineral
supplements. Thus, it is possible that effects of the therapy could
be connected to these supplements. In order to test whether some
of the therapy's effect may be attributable to vitamin/mineral supplements,
or to the EDTA solution itself, the investigators will first randomly
assign participants to receive either EDTA chelation solution or
placebo. Then the patients in these two groups (about 1,186 in each)
will again be randomly selected to receive either low-dose or high-dose
vitamin/mineral supplements.
The EDTA chelation therapy or placebo solution will be delivered
through 40 intravenous infusions that are administered over a 28-month
course of treatment. The first 30 infusions will be delivered on
a weekly basis and the last 10 will be delivered bimonthly. Following
the infusion phase, participants will have contact with study staff
at 3-month intervals until the study is complete.
The protocol for the trial was developed using a model protocol
for EDTA chelation therapy endorsed by the American College for
Advancement in Medicine (ACAM). The ACAM protocol is used worldwide
by chelation practitioners. It is the intent of this study to ensure
that the most widely practiced method of delivering EDTA chelation
is rigorously tested.
10. What will the study determine?
Overall, the investigators will assess whether EDTA chelation therapy
and/or high-dose vitamin/mineral supplements are safe and effective
in treating individuals with CAD. Specifically, they will determine
if EDTA chelation and/or high-dose vitamin supplements improve event-free
survival (length of time without another heart attack, etc.), are
safe for use, improve quality of life, and are cost effective.
The investigators will look at several markers of improvement,
or endpoints, to make these determinations. The primary endpoint
in the trial will be a composite of:
All causes of death Heart attack Stroke Hospitalization for angina
Coronary revascularization.
Secondary endpoints will include:
Cardiac death, or nonfatal heart attack, or nonfatal stroke The
individual components of the primary endpoint The safety of the
therapy Health-related quality of life Cost effectiveness.
11. Who is the study's principal investigator?
The principal investigator for the trial is Gervasio A. Lamas,
M.D., director of cardiovascular research and academic affairs at
Mount Sinai Medical Center-Miami Heart Institute, Miami Beach, Florida.
Dr. Lamas is a board-certified cardiologist and an associate professor
of medicine at University of Miami School of Medicine. He has extensive
experience in the design, conduct, and analysis of randomized, multicenter
trials of the treatment and management of cardiac diseases, including
CAD.
12. What types of participants will be recruited?
Participants must be 50 years of age or older, have had a heart
attack at least 6 weeks prior to evaluation, and have not had chelation
therapy within the past 5 years. Other exclusion criteria include:
History of allergic reactions to EDTA or any of the therapy's components
Coronary or carotid revascularization procedures within the past
6 months or a scheduled revascularization History of cigarette smoking
within the last 3 months Childbearing potential History of liver
disease Diagnoses of additional medical conditions that could otherwise
limit patient survival, such as cancer.
The goal is to recruit a patient study population of both men and
women that is fairly typical of people with CAD. The study investigators
also will recruit participants whose ethnic and racial makeup reflects
the diversity of the United States population.
13. Where will the study take place?
The study will take place at more than 100 research sites located
across the country. The research sites will represent a mix of clinical
settings--university or teaching hospitals, clinical practices or
cardiology research centers, and chelation practices. The sites
will be selected based on a thorough review of qualifications by
the study team and require approval of the study by their local
institutional (ethical) review boards.
14. How long will it take to complete the study?
Over the next several months, additional study sites will be identified.
The investigators enrolled the first participants in September 2003.
The study will take approximately 5 years to complete.
15. How can I learn more about the study?
Information about the study, locations, and enrollment will be
available from the NCCAM Clearinghouse at 1-888-644-6226, NCCAM's
Web site, and from ClinicalTrials.gov, the NIH Web site for clinical
trials information.
Top
For More Information NCCAM Clearinghouse
Toll-free in the U.S.: 1-888-644-6226 International: 301-519-3153
TTY (for deaf and hard-of-hearing callers): 1-866-464-3615
E-mail: info@nccam.nih.gov Web site: nccam.nih.gov Address: NCCAM
Clearinghouse, P.O. Box 7923, Gaithersburg, MD 20898-7923
Fax: 1-866-464-3616 Fax-on-Demand service: 1-888-644-6226
The NCCAM Clearinghouse provides information on CAM, including
EDTA chelation therapy, and on NCCAM. Services include fact sheets,
other publications, and searches of Federal databases of scientific
and medical literature. The Clearinghouse does not provide medical
advice, treatment recommendations, or referrals to practitioners.
This publication is not copyrighted and is in the public domain.
Duplication is encouraged.
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