Coronary Artery Disease Clinical Trial
Official title:
A Randomised Double Blind Study of the Effects of Homocysteine Lowering Therapy on Mortality and Cardiac Events in Patients Undergoing Coronary Angiography
PURPOSE OF STUDY Observational studies have demonstrated that elevated levels of plasma
total homocysteine is a risk factor for cardiovascular disease. The purpose of this trial is
to evaluate the clinical effects of homocysteine lowering treatment with B vitamins during
3-5 years follow-up of patients undergoing cardiac catheterization for suspected coronary
artery disease (CAD). Special attention will be given to complication rates among patients
needing subsequent percutaneous transluminal coronary angioplasty (PCI) or coronary artery
by-pass grafting (CABG).
HYPOTHESIS The primary hypothesis of this study is that, among patients with CAD, a daily
supplement with B vitamins will reduce the risk for cardiovascular mortality and serious
cardiovascular events with at least 20%. The secondary hypothesis of this study is that,
among patients with CAD, a daily supplement with B vitamins will reduce the risk for total
mortality, coronary events, cerebrovascular events and other cardiovascular events. The
hypothesis will be tested for an effect of any of the treatments (folic acid / vitamin B12
or B6), and the effect will be evaluated according to initial total homocysteine levels and
B vitamin levels as well as to the change in these levels after 1 and 6 months. The sample
size has been calculated to 3088 patients using a two-sided chi-square test with
significance 0.05 and at an 80% power level, presumed event rate of 22% over 4 years, and
event rate reduction of 20%, adjusted for non-compliance/drop-out of 20%.
STUDY DESIGN This is a controlled, double-blind two-centre trial with 3090 included men and
women who underwent coronary angiography at Haukeland University Hospital or Stavanger
University Hospital between April 1999 and April 2004. At baseline about 1300 patients
underwent PCI and 600 underwent CABG. The patients were randomized into 4 groups in a 2 x 2
factorial design to receive one of the following four treatments: A, folic acid 0.8 mg plus
vitamin B12 0.4 mg and vitamin B6 40 mg per day; B, folic acid 0.8 mg plus vitamin B12 0.4
mg per day; C, vitamin B6 40 mg per day; D, placebo. The active drug and the placebo tablets
had identical appearance and taste. Treatment was started as soon as the patients were
randomized after the coronary angiography procedure. The patients have been undergoing
interviews, clinical examination and blood-sampling at baseline, at follow-up after 1 month
and 1 year, and at a final study visit. In addition, information on dietary habits was
obtained from 2400 patients at baseline. Among 350 patients that have undergone PCI at
baseline, a full clinical examination, blood sampling and repeat coronary angiography to
assess re-stenosis has been performed about 9 (6-12) months after the PCI procedure. For
these patients, angiograms suitable for quantitative coronary angiography (QCA) analysis
have been obtained at the baseline and follow-up invasive procedures.
The follow-up was terminated ahead of schedule in October 2005 due to lack of compliance of
the participants caused by media reports from the NORVIT study (NCT00266487) on potential
increased cancer risk associated by B vitamin supplementation. The patients had then been
followed for 1.5 - 5 years.
STUDY END POINTS Primary clinical endpoints during follow-up are all cause death, non-fatal
acute myocardial infarction, acute hospitalization for unstable angina and non-fatal
thromboembolic stroke (infarction). Secondary endpoints are fatal and non-fatal acute
myocardial infarction (including procedure related myocardial infarction), acute
hospitalization for angina, stable angina with angiographic verified progression, myocardial
revascularization, fatal and non-fatal thromboembolic stroke.
BACKGROUND Coronary artery disease (CAD) is one of our common diseases, and despite the
decline in mortality from acute coronary syndromes in the Western world, CAD remains the
most important cause of death in Norway.
HOMOCYSTEINE Homocysteine (Hcy) is an amino acid and total homocysteine (tHcy) is the sum of
several different forms of Hcy that is present in blood, usually measured in serum or
plasma. A population-based study of plasma tHcy in 18,043 individuals in Hordaland, Norway
demonstrated that plasma tHcy usually is between 5 and 15 micromol/L, is higher in men than
in women and increases with age [Nygård, et al., 1995].
FOLIC ACID The most common cause of elevated tHcy is low intake of folic acid (a B vitamin)
that occurs in many fruits, vegetables, liver products, milk, and bread. Vitamin supplements
that are sold without prescription commonly contain folic acid (0.1 or 0.2 mg in Norway, 0.4
or 0.8 mg in other countries). In the United States and United Kingdom many food products
are fortified with folic acid. The Food and Drug administration in the United States has
made fortification with folic acid mandatory for some products from 1998. The rationale for
this policy is to reduce the occurrence of neural tube defects, a class of serious
congenital malformations. Several studies have also shown a direct relation between serum
folic acid and coronary heart disease.
MODERATELY ELEVATED tHcy AND CARDIOVASCULAR DISEASE More than twenty retrospective and three
prospective studies, including two Norwegian [Nygård, et al., 1997], over the past twenty
years have demonstrated a relation between tHcy measured in serum or plasma and coronary
heart disease, peripheral artery disease or stroke [Boushey, et al., 1995, Ueland, et al.,
1992]. The meta-analysis performed by Boushey et al [Boushey, et al., 1995] estimated that a
5 micromol/L difference in tHcy increase the risk of coronary artery disease with 60%.
Common causes of moderately elevated tHcy include nutritional deficiency of folic acid,
vitamin B6 and B12, genetic variation in genes coding key enzymes of the Hcy metabolism
(e.g., thermolabile MTHFR) and, as demonstrated in the Hordaland Homocysteine Study [Nygård,
et al., 1995], life-style factors as smoking, coffee drinking and exercise.
VITAMIN THERAPY A common feature of most individuals with elevated tHcy is responsiveness to
folic acid therapy. One exception is vitamin B12 deficiency that needs to be corrected with
appropriate therapy. A recent meta-analysis shows that the mean tHcy lowering effect of
folic acid at doses 0.5-5.0 mg/day is 25% at tHcy levels of 12 micromol/L [Homocysteine
Lowering Trialists' Collaboration, 1998 #1892]. The study further shows that the absolute
and percentage reduction in tHcy is higher in subjects with higher tHcy levels and
particular low folic acid concentrations. Moreover, additional daily oral therapy with 0,5
mg B12 seems to have a small but significant additional tHcy lowering effect whereas vitamin
B6 at a mean dose of 16,5 mg daily has no effect on basal tHcy levels.
RANDOMIZED TRIALS WITH FOLIC ACID There is solid evidence that tHcy is associated with
cardiovascular disease. We know that tHcy is easily lowered by folic acid in most patients,
but we cannot know that folic acid will prevent cardiovascular disease or complications of
such disease until randomized double-blind trials are carried out. The only possible problem
with folic acid is that it may correct the anemia, but not the neuropathy, of vitamin B12
deficiency. This necessitates careful screening for B12 deficiency or combining folic acid
with B12 in a sufficient oral dose to treat an occasional pernicious anemia.
RANDOMIZED TRIALS WITH VITAMIN B6 Data from several studies show that inappropriate vitamin
B6 status is a strong risk factor for cardiovascular disease and that this increased risk
probably is independent of tHcy levels. Thus, commonly applied tHcy lowering regimens
combining folic acid and vitamin B6 can not be applied to test the homocysteine theory of
atherosclerosis.
HOMOCYSTEINE AND VITAMIN MEASUREMENTS Determination of tHcy and associated amino acids and B
vitamins will be performed at the Department of Pharmacology of the University of Bergen.
These analyses will be done on all patients at randomization and at follow-up after 1 month
and 1 year, and will both serve as monitoring of compliance and also give the possibility to
relate clinical events to, for example, the amount of reduction in plasma tHcy.
STEERING COMITTEE
- Professor Jan Erik Nordrehaug, Chief of the Department of Heart Disease, Haukeland
University Hospital.
- Professors Helga Refsum, Per Magne Ueland and Stein Emil Vollset at Locus of
Homocysteine and Related B vitamins, University of Bergen.
- Professor Ottar Nygård, Department of Heart Disease, Haukeland University Hospital, and
Locus of Homocysteine and Related B vitamins.
- Professor Dennis W Nilsen, Section of Heart Disease, Stavanger University Hospital
DATA OWNERSHIP AND PUBLICATION OF RESULTS All data collected specifically for the study are
owned by WENBIT. Data that are already recorded according to routine procedures at the
participating centers, are owned by the center or department delivering the data and by
WENBIT. The WENBIT Steering Committee has the disposal of all data registered in the WENBIT
database, and any use of these data including the preparation and publication of scientific
reports must be approved by The Steering Committee. Scientific articles will be published by
WENBIT or by authors mentioned by name. The author sequence should be approved by the
Steering Committee and based upon contribution. Incentives to involve articles as part of
doctoral thesis should be encouraged. All collaborators of the study will be mentioned by
name in an Appendix section of the main article from the study. The results will be
published in peer-reviewed scientific journals and in magazines for the general public.
LITERATURE
- Boushey CJ, Beresford SAA, Omenn GS, Motulsky AG. A quantitative assessment of plasma
homocysteine as a risk factor for vascular disease: Probable benefits of increasing
folic acid intakes. JAMA 1995;274:1049-1057.
- NORVIT Protocol September 1998, Institute of Community Medicine, University of Tromsø,
Norway
- Nygård O, Nordrehaug JE, Refsum H, Farstad M, Ueland PM, Vollset SE. Plasma
homocysteine levels and mortality in patients with coronary artery disease. N Engl J
Med 1997;337:230-236.
- Nygård O, Vollset SE, Refsum H, Stensvold I, Tverdal A, Nordrehaug JE, et al. Total
plasma homocysteine and cardiovascular risk profile. The Hordaland Homocysteine Study.
JAMA 1995;274:1526-1533.
- Ueland PM, Refsum H, Brattström L. Plasma homocysteine and cardiovascular disease. In:
Francis RBJ, ed. Atherosclerotic Cardiovascular Disease, Hemostasis, and Endothelial
Function. New York: Marcel Dekker, inc.; 1992:183-236.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Factorial Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Prevention
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