Abstract
Chronic obstructive pulmonary disease (COPD) is a heterogeneous disease and not well understood. The forced expiratory volume in one second is used for the diagnosis and staging of COPD, but there is wide acceptance that it is a crude measure and insensitive to change over shorter periods of time.
Evaluation of COPD Longitudinally to Identify Predictive Surrogate End-points (ECLIPSE) is a 3-yr longitudinal study with four specific aims: 1) definition of clinically relevant COPD subtypes; 2) identification of parameters that predict disease progression in these subtypes; 3) examination of biomarkers that correlate with COPD subtypes and may predict disease progression; and 4) identification of novel genetic factors and/or biomarkers that both correlate with clinically relevant COPD subtypes and predict disease progression.
ECLIPSE plans to recruit 2,180 COPD subjects in Global Initiative for Chronic Obstructive Lung Disease categories II–IV and 343 smoking and 223 nonsmoking control subjects. Study procedures are to be performed at baseline, 3 months, 6 months and every 6 months thereafter. Assessments include pulmonary function measurements (spirometry, impulse oscillometry and plethysmography), chest computed tomography, biomarker measurement (in blood, sputum, urine and exhaled breath condensate), health outcomes, body impedance, resting oxygen saturation and 6-min walking distance.
Evaluation of COPD Longitudinally to Identify Predictive Surrogate End-points is the largest study attempting to better describe the subtypes of chronic obstructive pulmonary disease, as well as defining predictive markers of its progression.
Chronic obstructive pulmonary disease (COPD) causes 2.75 million deaths annually, representing the fourth leading cause of death worldwide 1, and is associated with substantial morbidity 2. COPD is a multicomponent disease, comprising emphysema in the lung parenchyma, large central airway inflammation and mucociliary dysfunction, bronchiolitis and small airway structural changes 3. Together, these separate factors contribute to the chronic airflow limitation that characterises the condition 3, 4. In addition, there is evidence that systemic inflammation and extrapulmonary effects are also common in COPD, although the association between systemic inflammation and systemic manifestations of COPD is still not entirely clear.
Traditionally, both COPD diagnosis and severity evaluation have been based on spirometry 5, 6, and change in forced expiratory volume in one second (FEV1) over time is still the most widely accepted measure of disease progression. However, FEV1 has limitations as it measures only one aspect of the disease and is not predictive of disease progression, especially in early disease 7–9. In addition, patients with similar FEV1 may show very different underlying pathologies, e.g. predominantly airspace disease (i.e. emphysema) or disease of the airways, as manifested by increased airway wall thickness 8. Additionally, patients with similar FEV1 may also be of different functional status. Thus, spirometric assessment alone is insufficient for the characterisation of COPD and there is a clear need for a better understanding of the conditions that comprise COPD, which is a syndrome rather than a disease.
For the assessment of response to COPD treatment, there is also a need for measures of disease progression applicable and responsive to interventional research. Although FEV1 decline has, to date, been regarded as the gold standard, different measures are likely to provide a more specific assessment of disease activity and progression within clinical subtypes of COPD. In addition, a substantial length of observation time is required for using FEV1 decline as a measure of progression, and biomarkers that could evaluate progression over a shorter period of time would be useful.
The Evaluation of COPD Longitudinally to Identify Predictive Surrogate End-points (ECLIPSE) study (registered on ClinicalTrials.gov with identifier NCT00292552 10; GlaxoSmithKline study code SCO104960) is a 3-yr longitudinal study with the overall objective of identifying the parameters that predict disease progression in individuals with different COPD subtypes, as well as biomarkers that may serve as surrogate end-points. The present article describes the purpose and design of the study.
METHODS
Study objective
The ECLIPSE study has the following specific aims. 1) Use of questionnaires, spirometry, exercise testing and computed tomography (CT) for the definition of clinically relevant COPD subtypes in individuals with Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage II–IV COPD. 2) Identification and definition of the parameters that predict disease progression over 3 yrs in clinically relevant COPD subtypes in individuals with GOLD stage II–IV COPD. For the purposes of the present study, disease progression is defined in terms of changes in lung function variables, symptoms, exacerbation frequency, exercise capacity and airway/lung parenchymal changes on chest CT scans. 3) Measurement of known biomarkers in blood, urine, sputum and breath condensate in order to identify those that correlate with clinically relevant COPD subtypes in individuals with GOLD stage II–IV COPD and which may serve as markers of disease progression. 4) Use of genetic analysis, proteomics, RNA transcriptomics and metabolomics for the identification of novel genetic factors and/or biomarkers that correlate with clinically relevant COPD subtypes in individuals with COPD and with one or more of the markers of disease progression.
Study design
ECLIPSE is an ongoing 3-yr noninterventional longitudinal prospective study being conducted at 46 centres in 12 countries. Following a baseline visit, subjects are to be followed-up at a total of seven visits at: 3 months, 6 months and every 6 months thereafter for 3 yrs. In addition to the study visits, COPD patients are to be telephoned each month between clinic visits in order to assess exacerbation rates. All subjects are to continue to receive their normal prescribed medications throughout the study; no medications are prohibited during the study. The study is being conducted in accordance with the Declaration of Helsinki and good clinical practice guidelines, and has been approved by the relevant ethics and review boards at the participating centres.
Subject participation
A planned total of 2,180 COPD patients aged 40–75 yrs, with baseline post-bronchodilator FEV1 of <80% of the predicted value, baseline post-bronchodilator FEV1/forced vital capacity (FVC) of ≤0.7 and a smoking history of ≥10 pack-yrs are to be enrolled. In addition, 566 control subjects (post-bronchodilator FEV1 of >85% pred and FEV1/FVC of >0.7) aged 40–75 yrs are to be recruited, forming two groups: 343 controls with a smoking history of ≥10 pack-yrs, and 223 nonsmoking controls with a smoking history of <1 pack-yr. The inclusion criteria for COPD patients and control subjects are shown in table 1⇓. Exclusion criteria were related to diagnosis (known respiratory disorders other than COPD and severe α1-antitrypsin deficiency), prior medical history (known history of significant inflammatory disease other than COPD, a COPD exacerbation within 4 weeks of enrolment, having undergone lung surgery, recent diagnosis of cancer, having received a blood transfusion in the 4 weeks prior to study start, inability to walk, taking part in a blinded drug study, therapy with oral corticosteroids at inclusion and participation in studies with radiation exposure. In addition, the usual criteria of serious uncontrolled disease likely to interfere with the study or impact on subject safety and substance abuse were applied.
Outcome measurements
End-points measured in the ECLIPSE study include lung physiology, imaging, biomarkers, health outcomes and genetics. The end-points are listed in table 2⇓; they are not listed in order of importance.
Measures of lung physiology and imaging are central parameters. All subjects are to undergo spirometry and impulse oscillometry at all study visits. Body plethysmography measurements are to be performed annually at selected sites, with recording of static lung volumes, airway resistance and specific conductance. Biomarkers in blood are to be assessed at all sites, whereas sputum, urine and exhaled breath condensate are to be collected at selected sites. At baseline and after 1 and 3 yrs, all subjects are to undergo a low-dose volumetric CT scan (120 kV peak, 40 mA and 1.00 or 1.25-mm slice thickness) at full inspiration. The radiation dose is estimated to be 1.67 mSv per CT study or 5 mSv for the entire ECLIPSE protocol. All scans are to be sent for evaluation at the central imaging unit at the University of British Columbia (Vancouver, BC, Canada).
Study organisation
The present study is guided by a Steering Committee, consisting of five academic physicians and representatives of the study sponsor, GlaxoSmithKline. A Scientific Committee of six academic investigators reports to the steering committee on specific scientific issues and proposals for substudies.
DISCUSSION
COPD is characterised by abnormal spirometric results, with a focus on FEV1. Since small airways disease is an important component of COPD, and FEV1 is not very sensitive to changes in small airway calibre, other measures may more accurately reflect small airway function. In addition, FEV1 is insensitive to the severity of emphysema in COPD, and patients with similar FEV1 may exhibit very different underlying pathologies. As an assessment of severity, FEV1 correlates poorly with clinical parameters (e.g. dyspnoea, quality of life and cost of care). In order to follow COPD over time, studies using decline in FEV1 for the assessment of COPD progression typically require ≥3 yrs, and the costs and efforts associated with studies of ≥3 yrs duration limit the number of novel drugs that can be considered for disease modification. Finally, although FEV1, as well as other measures of lung function, can be used for prognostic purposes, the association between mortality and FEV1 is considerably stronger when other measures are added to the predictive equation 11. Clearly, more sensitive measures of assessing COPD severity and disease progression are needed. Such measures should ideally reflect several components, e.g. inflammation, structural changes, disease activity, impact on patients’ lives and prognosis.
Airway inflammation is a key component of the pathogenesis of COPD 5, 6. The inflammation can be characterised by various differential cell profiles, which may reflect different inflammatory subgroups 12, 13, as well as increased levels of various inflammatory mediators 14, 15. Airway inflammation can, to some extent, be studied noninvasively using induced sputum and exhaled breath condensate, and both measures are being applied to subsets of the ECLIPSE population. Systemic inflammation is increasingly being recognised as an important feature of COPD 16. To date, C-reactive protein has been reviewed most extensively; however, a number of other markers may be of importance, and profiling of systemic inflammation is important in the ECLIPSE study.
CT scanning is a crucial element of the ECLIPSE study for the determination of different pathogenic phenotypes. Three low-dose volumetric CT scans and quantitative analyses are to be conducted as a tool for dividing COPD into subgroups based on structural changes and evaluation of disease progression. CT lung density measurements are to be used for the evaluation of both degree and distribution of emphysema and airway wall dimensions 17. This area is clearly not yet fully developed, but previous data suggest that risk factors for COPD may differ depending upon the identification of emphysema/airway remodelling on CT.
Exacerbations are important events influencing disease severity, health-related quality of life, disease progression and mortality 18, and characterisation of frequency, type and duration of exacerbation could be of significant importance. In the ECLIPSE study, all subjects are contacted monthly by telephone, employing a structured interview scheme in order to capture exacerbations. Other more detailed tools, such as diary cards, may have been more accurate for this characterisation but were considered unfeasible in a population of this size from several different countries.
Various other health outcome measures have been correlated with COPD progression. Breathlessness, which in the ECLIPSE study is measured using a modified UK Medical Research Council dyspnoea scale, is an independent predictor of mortality 9. The same is the case for St George’s Respiratory Questionnaire scores 19 and exercise capacity 20. In general, it is unlikely that any single outcome measure would accurately predict clinical progression in all COPD patients; the ECLIPSE study aims to examine whether the body mass index, airflow obstruction, dyspnoea and exercise capacity index 11 or other prognostic indices may be of value across different COPD subtypes.
Comorbid conditions in COPD are of importance since they are frequent and affect prognosis as well as costs of COPD 21. In the ECLIPSE study, it was decided not to exclude subjects with cardiovascular comorbid conditions unless they were of a severity that made it unlikely that the patients could complete a 3-yr study. It was, however, decided to exclude diseases with significant systemic inflammation, such as rheumatoid arthritis and inflammatory bowel disease. The present authors are aware that this could potentially introduce a bias or at least reduce the generalisability of the ECLIPSE findings somewhat, but would prefer to run that risk rather than contaminate the population with non-COPD-related systemic inflammation.
The major dilemma of a study such as ECLIPSE, which is aimed at finding surrogate markers superior to FEV1, is the fact that the gold standard for both the diagnosis and assessment of the rate of progression is currently FEV1. The challenge of the ECLIPSE study is, therefore, to utilise the various information gathered to describe models of COPD rooted in the classic definition of COPD, but with much more detail and the ability to capture the dynamics of the different processes that result in the clinical subgroups that eventually make up the syndrome nowadays called COPD. It is recognised that putative surrogate end-points identified from the ECLIPSE study would need to be further tested in subsequent studies.
In conclusion, the Evaluation of COPD Longitudinally to Identify Predictive Surrogate End-points study is the first study in a large number of subjects with the primary objective of describing the subtypes of chronic obstructive pulmonary disease, defining predictive or surrogate markers of disease progression, and possibly identifying novel targets for therapeutic intervention.
Clinical trials
This study is registered at clinical Trials.gov with the identification number: NCT00292552.
Statement of interest
A statement of interest for all of the authors and the study itself can be found at www.erj.ersjournals.com/misc/statements.shtml
Acknowledgments
The members of the Evaluation of COPD Longitudinally to Identify Predictive Surrogate End-points (ECLIPSE) Steering Committee are: H. Coxson (University of British Columbia, Vancouver, BC, Canada); L. Edwards (GlaxoSmithKline, Research Triangle Park, NC, USA); K. Knobil (Co-Chair; GlaxoSmithKline, Greenford, UK); D. Lomas (University of Cambridge, Cambridge, UK); W. MacNee (University of Edinburgh, Edinburgh, UK); E. Silverman (Brigham and Women’s Hospital, Boston, MA, USA); R. Tal-Singer (GlaxoSmithKline, King of Prussia, PA, USA); J. Vestbo (Co-Chair; Hvidovre Hospital, Hvidovre, Denmark); and J. Yates (GlaxoSmithKline, Research Triangle Park).
The members of the ECLIPSE Scientific Committee are: A. Agusti (Son Dureta Hospital and Cimera, Palma, Spain); P. Calverley (University Hospital Aintree, Liverpool, UK); B. Celli (Caritas St. Elizabeth’s Medical Center, Boston, MA, USA); C. Crim (GlaxoSmithKline, Research Triangle Park); G. Hagan (GlaxoSmithKline, Greenford); W. MacNee (Chair); S. Rennard (University of Nebraska, Omaha, NE, USA); R. Tal-Singer, E. Wouters (University of Maastricht, Maastricht, the Netherlands); and J. Yates.
- Received August 26, 2007.
- Accepted December 21, 2007.
- © ERS Journals Ltd