Introduction
Type 2 diabetes mellitus is an increasingly common condition associated with a high cardiovascular risk. To date, very few trials of lipid-lowering therapy have focused on this condition, and in particular, no large trials of fibrate therapy in diabetes have been conducted. As fibrates are known to correct the typical dyslipidaemia of diabetes, their role in cardiovascular risk reduction in diabetes may be especially important. The Fenofibrate Intervention and Event Lowering in Diabetes (FIELD) study is a multicentre, double-blind, placebo-controlled trial evaluating the effects on coronary morbidity and mortality of long-term treatment with fenofibrate to elevate high-density lipoprotein (HDL) cholesterol levels and lower triglyceride (TG) levels in patients with type 2 diabetes and total blood cholesterol between 3 and 6.5 mmol/L (115 and 250 mg/dL) at study entry. In type 2 diabetes, rates of coronary heart disease (CHD) are 3 to 4 times higher than those of persons without diabetes at any given level of blood cholesterol, and at any given age
Diabetes and blood lipids
Blood total cholesterol levels are not substantially different between patients with type 2 diabetes and those of nondiabetic populations of similar age and sex
The strength of the cholesterol-CHD relationship is very similar for those with type 2 diabetes as for nondiabetics, although at a higher background rate of CHD
Why a large trial of fibrates?
For patients with type 2 diabetes and its typical dyslipidaemia, many physicians believe that fibrates are the logical first choice of drug treatment. The fibrates have been in clinical use for a long time, being well tolerated and with few short-term side-effects. Fenofibrate has been widely used and marketed for more than 20 years and is an effective agent for reducing plasma triglyceride and raising HDL cholesterol
FIELD is designed to provide the first properly randomized evidence as to whether the substantial effects of fenofibrate confer a benefit on clinical cardiovascular events in persons with type 2 diabetes. A clearly favourable result might be expected to help physicians determine which type of lipid-modifying drug therapy is likely to be most cost-effective for such people.
The FIELD study design
FIELD is a randomized, double-blind, placebo-controlled parallel-group trial among middle-aged to elderly people with type 2 diabetes mellitus considered to be at increased risk of CHD. Those with and without pre-existing vascular disease or other lipid abnormalities, such as low HDL cholesterol and elevated TG, were eligible, provided the total blood cholesterol level at screening fell between 3.0 and 6.5 mmol/L (about 115–250 mg/dL) plus either a total-to-HDL cholesterol ratio of >4.0 or a blood TG level >1.0 mmol/L (88.6 mg/dL) (Table
Inclusion and exclusion criteria for the FIELD study
Individuals were eligible for this study provided they had the following characteristics:
• male or female, aged 50–75 years inclusive
• non-insulin dependent diabetes mellitus (type 2) with age at diagnosis >35 years (currently using any of diet, tablets or insulin); for Maori, Pacific Islanders, Australian Aborigines and Torres Strait Islanders, the eligible age of diagnosis was >25 years, provided there had been at least 1 year of treatment without insulin
• on the basis of diabetes, considered to be at higher risk for coronary heart disease than the general population
• no clear indication for any cholesterol-lowering treatment: the patient was not already taking any cholesterol-lowering drug and neither the patient nor the patient's doctor considered there to be any definite need to do so
• total cholesterol level 3 to 6.5 mmol/L, plus either
a total cholesterol-to-HDL cholesterol ratio of ≥ 4.0
a blood triglyceride level >1.0 mmol/L
• no clear contraindication to study therapy in the view of the treating physician
• no other predominant medical problem that might limit compliance with 5 years of study treatment or compromise long-term participation and clinic attendance in the trial
Individuals were not eligible if they had any of the following characteristics:
• serum triglyceride >5 mmol/L in the baseline visit fasting blood sample
• concurrent treatment with any other lipid-lowering agent
• serum creatinine >130 μmol/L
• known chronic liver disease, transaminases >2 × upper limit of normal or symptomatic gall-bladder disease
• myocardial infarction or hospital admission for unstable angina within 3 months
• female, of child-bearing potential, unless sterilized or on reliable approved methods of contraception, including oral contraceptives
• concurrent cyclosporin treatment (or a condition likely to result in organ transplantation and the need for cyclosporin during the next 5 years)
• known allergy to any fibrate drug or known photosensitivity
• unwilling or unable to consent to enter the study, with the understanding that follow-up was planned to continue for more than 5 years
The underlying principle guiding recruitment of patients into the study was that of clinical uncertainty: that is, patients were only to be considered if the patients' treating physicians were substantially uncertain about the value of lipid-modifying therapy for that particular individual and felt that there was no indication for lipid-modifying therapy. Therefore, none of the participants was on lipid-lowering therapy at study entry.
Following clinical and laboratory screening for eligibility, informed consent, and completion of the run-in period, patients were randomized to receive either fenofibrate (200 mg comicronized formulation) or matching placebo as one capsule daily with breakfast. There was no formal restriction on randomization related to compliance during the run-in period. Randomization was carried out using a dynamic allocation method
The run-in phase for the study consists of a 4-week diet-only period, followed by a 6-week single-blind placebo period, then a 6-week single-blind active run-in period on comicronized fenofibrate 200 mg once daily for all patients, before randomization (Figure
Study flow schema
Study flow schema. CVD = cardiovascular disease.
Follow-up in the study will be for not less than 5 years of median duration and until a total of at least 500 first coronary events have accumulated in the trial, unless the study is terminated earlier by advice from the Safety and Data Monitoring Committee.
Study outcomes
The principal study outcome is the combined incidence of first nonfatal MI or CHD death among all randomized patients during the scheduled treatment period (Table
Definitions for primary outcome assessment in the FIELD study
Myocardial infarction
Definite myocardial infarction = criterion 1; or any two of criteria 2 to 4; or criterion 5
1. New Q waves: new pathological Q waves (or Q-S pattern) of at least 0.03 seconds in width in at least 2 leads in the same lead group (in the absence of left bundle branch block)
2. Evolutionary ST-T wave changes: evolution of an injury current lasting more than one day and present in at least 2 leads in the same lead group: for example, ST elevation of 2 mm or more in anterior leads,
3. Ischemic pain: history of typical ischemic pain lasting for at least 15 minutes
4. Biochemical markers: elevation of CK or CKMB enzymes to over twice the upper limit of normal (for the laboratory) after the attack
5. Postmortem diagnosis: autopsy showing evidence of acute myocardial infarction.
Death
Coronary heart disease death = any of 1.1 to 1.7
1. Coronary
1.1 Definite fatal myocardial infarction: death following definite acute myocardial infarction in the preceding 28 days (and without an unrelated noncoronary cause of death), or autopsy-proven recent acute myocardial infarction
1.2 Sudden cardiac death: death occurring within one hour of onset of new cardiac symptoms or unwitnessed death after last having been seen without new symptoms; in each case, without any noncoronary disease that could have been rapidly fatal and without having been confined to hospital or other institution because of illness within 24 hours of death
1.3 Possible myocardial infarction: death in hospital with possible myocardial infarction (that is, typical ischaemic pain and ECG and enzyme results do not fulfil the criteria for definite myocardial and there is no good evidence for another event)
1.4 Resuscitated sudden death: documented cardiac arrest (in or out of hospital), after being resuscitated from what would have been sudden death; patient lives for more than one hour (hours to weeks).
1.5 Heart failure: death due to heart failure (prior grade 3–4 dyspnoea, NYHA) without any defined noncoronary cause
1.6 Death after coronary revascularisation: death (in the same admission) after any coronary revascularisation procedure (CABG or PTCA).
1.7 Other coronary: death where the underlying cause is certified as coronary (and there is no evidence for a noncoronary cause of death, clinically or at autopsy)
2. Noncoronary cardiac: death for which the underlying cause is certified as noncoronary cardiac disease
3. Vascular (noncardiac): death which is certified as vascular but not coronary disease: for example, cerebrovascular accident, pulmonary embolism, complications of peripheral vascular disease or uncontrolled hypertension
4. Cancer: death for which the underlying cause is certified as malignant neoplasm
5. Trauma: death where the underlying cause is certified as a wound or injury either accidental or inflicted
6. Suicide: death for which the underlying cause is certified as deliberate and voluntary taking of one's own life
7. Other: other cause of death not specified above.
Tertiary outcomes include the effects of treatment on development of vascular and neuropathic amputations, nonfatal cancers, the progression of renal disease, laser treatment for diabetic retinopathy, hospitalization for angina pectoris, and numbers and duration of all hospital admissions. The effects of treatment on the outcome of total cardiovascular events will be examined inThe rates of events various subgroups of particular interest, such as men and women, those <65 years and ≥ 65 years of age, by subgroup of each of baseline total cholesterol, HDL cholesterol, triglyceride and fibrinogen, baseline insulin use, or not, and the presence, or absence, at baseline of microalbuminuria.
The primary analysis will be of time to first study outcome, using standard log-rank methods
Sample size
The rates of events used for the original study power calculations were based on information from a variety of sources. During recruitment, when the numbers of participants with prior MI was falling well short of the number originally planned (in about 2000), the sample size was extended from the original total of 8000 to a final number of 9795 reached in November 2000. In late 2002, the statistical power of the trial was reviewed again. These reviews were planned in the original protocol design and were undertaken by reviewers completely blinded to all treatment allocation. The reassessment included information on final sample size, overall rate of discontinuation of study medication and commencement of open-label cholesterol treatment, and overall event rates in relation to CHD death, MI, and stroke.
After the review it was clear that the trial would yield too few deaths from CHD to retain sufficient power, over its planned duration of around 5 years, to show a significant reduction in this endpoint. The FIELD Management Committee determined that the primary outcome of the trial should be amended from CHD death to CHD events (that is, CHD death plus nonfatal MI, a decision made in December 2002). It was also decided to change the principal outcome for subgroup analyses to look at the effects of fenofibrate in subjects with and without prior cardiovascular disease (CVD) (originally those with and without prior MI).
For a primary outcome of CHD events (CHD death plus nonfatal MI), it is projected that approximately 500 CHD events will have occurred when 5 years median follow-up has elapsed (during the first quarter of 2005); by this time the trial will have 80% power to detect an observed 22% reduction in CHD events (based on the intention-to-treat method of analysis). This will also provide 90% power to detect a 25% relative reduction in CHD events (based on intention-to-treat analysis). Both calculations allow for the effects of an average drop-out rate from active treatment over the course of the study of 10% and a similar drop-in rate of 10% from placebo to open cholesterol-lowering therapy (Table
Predicted numbers of events and corresponding power in the FIELD study among 9795 people with diabetes, based on a median follow-up of 5 years
Allocated treatment
Power to detect effect at 2
Risk category
Fenofibrate
Placebo
Primary prevention (7683 with no prior CVD)
Total CVD events†
298
385
93%
Secondary prevention (2112 with prior CVD)
Total CVD events
229
288
83%
Men (6139)
Total CVD events
392
503
98%
Women (3656)
Total CVD events
133
171
60%
All patients (9795)
Total CVD events
525
675
99%
Total CHD events
219
281
80%
* Calculations assume a reduction in risk for each endpoint of around 27% with full compliance, resulting in an observed risk reduction of approximately 22% on intention-to-treat analysis; the risk in the prior CVD group is 2.75 times that for patients with no prior CVD, the risk in men is 1.75 times that in women.
† Expanded endpoint 'total CVD events' comprises cardiovascular death, nonfatal myocardial infarction, coronary artery bypass grafting, percutaneous transluminal coronary angioplasty, stroke and carotid revascularization.
CVD = cardiovascular, CHD = coronary heart disease
If the uptake of cholesterol-lowering therapy proves to be greater in the placebo group than in the fenofibrate-allocated group, the observed treatment effect of fenofibrate will underestimate its true efficacy.
Safety and event monitoring
The trial has an independent Safety and Data Monitoring Committee to safeguard the patients' interests and to formally evaluate from time to time on a regular basis whether, for any reason, they would recommend that the study should be modified or stopped. Up to 5 formal interim analyses are planned, at time points to be determined by the Safety and Data Monitoring Committee, with a stringent nominal significance level (3 standard deviations; 2
Study sponsorship and organisation
The main sponsor of the trial and supplier of the fenofibrate and matching placebo medication, is Laboratoires Fournier S.A., Dijon, France. The study is also supported by the National Health and Medical Research Council of Australia through Unit, Program and Fellowship grants to the NHMRC Clinical Trials Centre. The study is being coordinated independently of the sponsors by the NHMRC Clinical Trials Centre, University of Sydney, Sydney, Australia and overseen by the study Management Committee. The study has been endorsed by the National Heart Foundation of Australia, Diabetes Australia, the New Zealand Society for the Study of Diabetes, and the Finnish Diabetes Association.
Conclusion
In 1997, before the FIELD study commenced, the role of lipid modification in diabetes remained uncertain, except possibly for hypercholesterolaemic people with a prior MI. Two large-scale trials, the Scandinavian Simvastatin Survival Study (4S)
Since that time, numerous other trials of statin treatment have been reported, with randomized data now reported on over 18000 persons with diabetes. Those involving more than 1000 people with diabetes include the Long-Term Intervention with Pravastatin in Ischaemic Disease (LIPID) study
Two large-scale trials of fibrate therapy have also been completed: the Veterans Low-HDL Cholesterol Intervention Trial (VA-HIT)
At the same time, our understanding of the mechanism of action of fibrates has grown, with identification of the peroxisome proliferator-activated receptor alpha (PPAR-alpha) transcription factor as the primary pathway through which fibrate-mediated effects are triggered
Unconfounded randomized controlled trials of lipid-lowering therapy, showing numbers of subjects with diabetes
Study
Population
Year of primary publication
Therapy
Total no.
No. with diabetes
Reference
4S
Prior CHD
1994
Simvastatin 20–40 mg
4444
202
20, 38
CARE
Prior CHD
1996
Pravastatin 40 mg
4159
586
21
Post-CABG*
Prior CHD
1997
Lovastatin 40–80 mg vs 2.5–5 mg
1351
122
39, 40
LIPID
Prior CHD
1998
Pravastatin 40 mg
9014
1077
6, 23
GISSI-P*
Prior CHD
2000
Pravastatin 20 mg
4271
582
41
GREACE*
Prior CHD
2002
Atorvastatin 10–80 mg
1600
313
42
PROSPER
Mixed
2002
Pravastatin 40 mg
5804
623
43
ALLHAT-LLT*
Mixed
2002
Pravastatin 20–40 mg
10355
3638
27
HPS
Mixed
2003
Simvastatin 40 mg
20536
5963
24, 25
ASCOT-LLA
Mixed
2003
Atorvastatin 10 mg
10305
2532
26
WOSCOPS
Primary
1995
Pravastatin 40 mg
6595
76
22
AFCAPS/TexCAPS
Primary
1998
Lovastatin 20–40 mg
6605
1 55
44
CARDS
Primary
2004
Atorvastatin 10 mg
2838
2838
28
Total
–
–
Any statin
87877
18707
VA-HIT
Prior CHD
1999
Gemfibrozil 1200 mg
2531
769
29, 30, 32
BIP
Prior CHD
2000
Bezafibrate 400 mg
3090
309
31
DAIS
Mixed
2001
Fenofibrate 200 mg
418
418
33
LEADER
Mixed
2002
Bezafibrate 400 mg
1568
268
45
SENDCAP
Primary
1998
Bezafibrate 400 mg
164
164
46
HHS
Primary
1992
Gemfibrozil 1200 mg
4081
135
14, 15
Total
–
–
Any fibrate
11852
2063
* No placebo used; lipid lowering compared with less treatment in Post-CABG study, with no treatment in GISSI-P study, and with usual care in ALLHAT-LLT and GREACE studies.
CHD = coronary heart disease
Entry criteria and outcomes in trials of fibrates
Study
Demographic entry criteria
Lipid entry criteria
Outcomes
SENDCAP
men and women, 35–65 years, no cardiovascular disease
• serum cholesterol ≥ 5.2 mmol/L
• triglyceride ≥ 1.8 mmol/L
• HDL ≤ 1.1 mmol/L
• total/HDL ≥ 4.7
change in carotid intima-media thickness, lipid changes, CHD events, at 3 years
VA-HIT
men, <74 years, documented history of CHD
• HDL ≤ 1.0 mmol/L
• LDL ≤ 3.6 mmol/L
• triglyceride ≤ 3.4 mmol/L
nonfatal MI or CHD death over median 5.1 years
BIP
men and women, 45–74 years, MI 6 months to 5 years before, no insulin-dependent diabetes
• serum cholesterol 4.7-6.5 mmol/L
• LDL ≤ 4.7 mmol/L
• HDL ≤ 1.2 mmol/L
• triglyceride ≤ 3.4 mmol/L
fatal or nonfatal MI or sudden death over mean 6.2 years
DAIS
men and women, 40–65 years, type 2 diabetes
• total/HDL ≥ 4
• LDL 3.5–4.5 mmol/L + triglyceride ≤ 5.2 mol/L
change in coronary artery lumen diameters, by angiography, and lipid changes after 3 years
LEADER
men with lower-extremity arterial disease, no lipid-lowering drug
• serum cholesterol 3.5–8.0 mmol/L
CHD events and stroke over median 4.6 years
HHS
men, 40–55 years, asymptomatic
• non-HDL cholesterol >5.2 mmol/L
lipid changes, MI, cardiac death at 5 years
CHD = coronary heart disease, MI = myocardial infarction, HDL = high-density lipoprotein, LDL = low-density lipoprotein
Approximately 140 million adults were estimated to be suffering from diabetes mellitus, the most common endocrine disorder worldwide, in 1997. By 2010, projections put diabetes prevalence about 60 percent higher, at 221 million. Just as many persons again have an elevated fasting glucose level, or impaired fasting glucose, which can progress rapidly to diabetes. Without the FIELD study, doctors would remain uncertain about the merits of using a fibrate when confronted with a patient with diabetes at risk of clinical CHD. It is expected that the main results of FIELD will be reported in late 2005.
Declaration of competing interests
Of the Management Committee of the FIELD Study:
PB, YAK and RS have received reimbursements, fees, funding, or salary in the past five years from an organization that may in any way gain or lose financially from the publication of this paper;
No authors hold or have held stocks or shares in such an organization;
No authors have other financial competing interests;
AK has the following nonfinancial competing interests: Advisory board membership.
Authors' contributions
The FIELD Management Committee conceived and developed the study protocol and are the responsible authors of this manuscript.
Appendix 1: Study organization
Management Committee
P Barter*, J Best*, P Colman, M d’Emden, T Davis, P Drury, C Ehnholm, P Glasziou, D Hunt, A Keech* (study chairman and principal investigator), YA Kesaniemi, M Laakso, R Scott*, RJ Simes*, D Sullivan, M-R Taskinen*, M Whiting; J-C Ansquer, B Fraitag (non-voting sponsor representatives). * Executive Committee members.
Outcomes Assessment Committee
N Anderson, G Hankey, D Hunt (chairman), S Lehto, S Mann, M Romo; LP Li (outcomes officer, in attendance).
Safety and Data Monitoring Committee
C Hennekens, S MacMahon (chairman), S Pocock, A Tonkin, L Wilhelmsen; P Forder (unblinded statistician, in attendance).
Site principal investigators
Co-investigators and site coordinators
Coordinating centre teams
Central laboratories
Laboratoires Fournier SA liaison: