Abstract
The present study aimed to measure physical activity in patients with chronic obstructive pulmonary disease (COPD) to: 1) identify the disease stage at which physical activity becomes limited; 2) investigate the relationship of clinical characteristics with physical activity; 3) evaluate the predictive power of clinical characteristics identifying very inactive patients; and 4) analyse the reliability of physical activity measurements.
In total, 163 patients with COPD (Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage I–IV; BODE (body mass index, airway obstruction, dyspnoea, exercise capacity) index score 0–10) and 29 patients with chronic bronchitis (normal spirometry; former GOLD stage 0) wore activity monitors that recorded steps per day, minutes of at least moderate activity, and physical activity levels for 5 days (3 weekdays plus Saturday and Sunday).
Compared with patients with chronic bronchitis, steps per day, minutes of at least moderate activity and physical activity levels were reduced from GOLD stage II/BODE score 1, GOLD stage III/BODE score 3/4 and from GOLD stage III/BODE score 1, respectively. Reliability of physical activity measurements improved with the number of measured days and with higher GOLD stages. Moderate relationships were observed between clinical characteristics and physical activity. GOLD stages III and IV best predicted very inactive patients.
Physical activity is reduced in patients with chronic obstructive pulmonary disease from Global Initiative for Chronic Obstructive Lung Disease stage II/ body mass index, airway obstruction, dyspnoea, exercise capacity score 1. Clinical characteristics of patients with chronic obstructive pulmonary disease only incompletely reflect their physical activity.
- 6-minute walking distance
- activities of daily living
- chronic obstructive pulmonary disease
- clinical chronic obstructive pulmonary disease
Physical activity is an important clinical parameter related to morbidity and mortality in many chronic diseases 1. In chronic obstructive pulmonary disease (COPD) the level of physical activity reported by patients is related to lung function decline 2, hospitalisations 3 and mortality 4.
Physical activity is defined as any bodily movement produced by skeletal muscles that results in energy expenditure beyond resting energy expenditure 1. Physical activity can be quantified with self-report questionnaires 5–7, motion sensors, such as pedometers or accelerometers 5, 7, and with methods assessing free-living energy expenditure, such as the doubly labeled water technique 6. Self-reported physical activity is often subject to recall bias 7, correlates only poorly with objectively quantified physical activity in patients with COPD 8, 9, and does not provide an accurate estimate of free-living energy expenditure 6. Pedometers and accelerometers generate objective data in terms of quantifying steps or body movements performed over a period of time 5. However, estimating total daily energy expenditure from body movement counts has been shown to be inaccurate 10, 11. Recently, a multisensor armband (SenseWear Pro armband; BodyMedia, Inc., Pittsburgh, PA, USA) became available. It incorporates a biaxial accelerometer that records steps per day, and physiological indicators of energy expenditure. In patients with COPD, the SenseWear Pro armband provides a valid and reproducible estimate of energy expenditure during walking at a slow to moderate pace in a laboratory setting 12, and a high correlation between steps per day and movement counts as measured by a different accelerometer 13.
Physical activity in terms of body movements, walking time and standing time has been shown to be reduced in patients with severe COPD 14, 15. However, it is currently unknown at which clinical stage of the disease limitations of physical activity are first displayed. Furthermore, the relationships between physical activity and clinical characteristics reflecting the disease severity, such as the degree of airway obstruction, distance walked in 6 min, self-reported grade of dyspnoea and clinical stages of COPD, need to be investigated as, to date, data are inconclusive or have never been evaluated. For example, some studies have found substantial correlations between airway obstruction and physical activity 8, 14, while others found no 16, 17 or only loose 15 relationships. Previous studies indicate that the 6-min walking distance (6MWD) might best reflect physical activity 8, 15, while a recent study found airway obstruction to correlate with physical activity better than 6MWD 18.
Habitual physical activity is known to be highly variable 19, 20. Therefore, reliability of physical activity measurements needs to be investigated further in patients with COPD as it is currently unknown how many days of physical activity measurement are needed to reliably measure physical activity in patients with COPD.
The present study aimed to: 1) measure physical activity in a substantial number of patients with COPD; 2) investigate the relationships between clinical characteristics and physical activity; 3) assess the predictive power of clinical characteristics identifying very inactive patients; and 4) analyse the reliability of physical activity measurements. A group of patients with normal lung function and symptoms of chronic bronchitis, who were matched for social and lifestyle-associated confounders of physical activity, served as a control.
METHODS
Study population
In total, 170 patients with COPD (128 males, 42 females) and 30 patients with chronic bronchitis (23 males, seven females) were recruited between February 2006 and November 2006 at the Pulmonary Research Institute at Hospital Grosshansdorf (Grosshansdorf, Germany). Details of the COPD population at the institute have been published previously 13. Patients with COPD had to be free of an exacerbation for at least 2 months. Post-bronchodilator spirometry was performed using established reference values 21. Patients with chronic bronchitis served as a control group matched for social and lifestyle-associated confounders of physical activity, such as smoking habits, alcohol consumption and educational status 22, 23. The patients fulfilled the criteria of being “at risk” (stage 0) for COPD according to the former staging system of the Global Initiative for Chronic Obstructive Lung Disease (GOLD), i.e. chronic cough and sputum production but normal spirometry 24. The study was approved by the local ethics committee of Schleswig-Holstein (Germany), and participants gave their written informed consent. Eight patients (seven with COPD and one with chronic bronchitis) were excluded from analysis (fig. 1⇓).
Numbers of patients and measurement days.
Physical activity
Clinical characteristics of COPD patients
All patients with COPD were classified according to the current GOLD criteria 25 and the criteria of the BODE (body mass index, airway obstruction, dyspnoea, exercise capacity) index 26.
Dyspnoea was assessed by the modified Medical Research Council (MMRC) dyspnoea scale, which is part of the BODE index 26. Furthermore, the Medical Research Council (MRC) dyspnoea scale (same descriptors as MMRC) has been shown to be a simple method categorising patients with COPD in terms of their disability 27. Levels of dyspnoea are graded as follows. Grade 0: “I only get breathless with strenuous exercise”; grade 1: “I get short of breath when hurrying on the level or up a slight hill”; grade 2: “I walk slower than people of the same age on the level because of breathlessness or have to stop for breath when walking at my own pace on the level”; grade 3: “I stop for breath after walking 100 yards or after a few minutes on the level”; grade 4: “I am too breathless to leave the house”.
The 6-min walk test was conducted according to current guidelines on a 30-m corridor 28. The 6-min walk test measures the global and integrated responses of all organ systems involved during exercise 28, has been shown to be an important parameter related to morbidity and mortality in COPD 29, 30, and is also part of the BODE index 26.
Receiver operating characteristic curves were used to analyse the sensitivity, specificity and accuracy of the clinical characteristics (GOLD stages, BODE score, 6MWD, airway obstruction (forced expiratory volume in one second; FEV1) and MMRC) in serving as predictors of very inactive patients with COPD. The positive and negative predictive values and likelihood ratios were also calculated.
Parameters and measurement
Parameters of physical activity were as follows: steps per day; minutes of at least moderate activity (defined as any physical activity >3 metabolic equivalents); and physical activity level. Physical activity was measured using a multisensor armband (SenseWear Pro armband), which is worn on the upper right arm over the triceps muscle. The armband was described previously in a validation study for patients with COPD 12. Briefly, it incorporates a biaxial accelerometer that records steps per day and physiological sensors of energy expenditure. The physical activity level was calculated by dividing the total daily energy expenditure by whole-night sleeping energy expenditure 13. A physical activity level ≥1.70 defines an active person 6, 1.40–1.69 defines a predominantly sedentary person 6, and <1.40 defines a very inactive person 31. A person with a physical activity level of 1.2 is usually chair- or bed-bound 31.
Days of analysis
Patients wore the SenseWear armband for 8 days. To obtain the armband patients visited the Pulmonary Research Institute on the first day and returned on the final day to return the device. The first and last days were not used for analysis because of an incomplete measurement of the day and a bias due to the fact that the patients had to visit the Pulmonary Research Institute. Therefore, data from 6 days (4 weekdays plus Saturday and Sunday) of measurement were available for most patients.
Patients were told to wear the armband 24 h·day−1 with the exception of the time spent on personal hygiene. Wearing time was recorded by the armband. For a valid day of activity measurement, the threshold was set at 22.5 h of wearing time (94% wearing time per day). Days below that threshold were excluded from analysis.
As one aim was to assess the day-to-day variability of physical activity, including the amount of physical activity performed on weekdays versus weekend days, legal and religious holidays falling on a weekday were excluded (fig. 1⇑).
As another aim was to compare the physical activity between patients of different disease stages according to GOLD or BODE the current authors tried to keep the study population as large as possible. In total, eight patients had to be excluded from analysis due to the fact that a weekend day was missing or fewer than three regular weekdays were available. In the remaining 192 patients, 1,114 measurement days were available. Of these patients, 154 patients had a measurement of 4 weekdays, Saturday and Sunday, and 38 patients had a measurement of 3 weekdays, Saturday and Sunday. To maintain a study population of 192 patients the present authors systematically excluded the fourth weekday in 154 patients (fig. 1⇑), grouped the days of measurement into weekday-1, weekday-2, weekday-3, Saturday and Sunday, and analysed 960 days of activity monitoring.
Variability and reliability of measurement
The variability of physical activity between days was analysed by repeated measures ANOVA. First, it was determined whether mean physical activity per day was different across all measured days. In the case of a significant difference between all measured days, the current authors analysed whether this was caused by a difference between Saturday and weekdays, Sunday and weekdays, or a difference between weekdays themselves.
The reliability of physical activity measurement was assessed by the intra-class correlation coefficient, calculated as follows:
Intra-class coefficient = σb2 / [σb2 + (σw2 / k)] (1)
where σb2 is the between-subject variance, σw2 is the within-subject variance and k is the number of measurement days. An intra-class correlation coefficient ≥0.8 indicates that the measured physical activity captures at least 80% of the variation of physical activity of the group and is the generally accepted value for a multiple day intra-class correlation in accelerometer studies 32–34. The intra-class correlation coefficient was calculated for every possible combination of days. To ensure that no bias resulted from exclusion of the fourth weekday in 154 patients, the mean values of the physical activity parameters assessed on 5 days (3 weekdays plus Saturday and Sunday) versus 6 days (4 weekdays plus Saturday and Sunday) were compared.
General statistics
General statistics included ANOVA for linear trend, least significant difference post hoc analysis, and parametric and nonparametric correlations.
RESULTS
Characteristics of the patients are given in tables 1⇓ and 2⇓, and table E1 of the online supplementary material.
Patient characteristics
Lung function
Steps per day, minutes of at least moderate activity and physical activity level decreased with the clinical stages according to GOLD or BODE (figs 2a–c⇓ and 3a–c⇓). Furthermore, physical activity decreased with the grade of dyspnoea (fig. 4a–c⇓). Steps per day, minutes of at least moderate activity and physical activity level decreased from patients with chronic bronchitis to patients in GOLD stage IV by 69, 69 and 61%, respectively (fig. 2a–c⇓). Compared to patients with chronic bronchitis, the proportion of sedentary COPD patients increased markedly in GOLD stage I, BODE score 0 and in COPD patients reporting getting breathless with strenuous exercise only (MMRC 0; fig. 5a–c⇓). The proportion of very inactive patients markedly increased in GOLD stages III and IV, in patients with BODE score 2 or higher, and in patients quoting dyspnoea of MMRC grade 2 or higher (fig. 5a–c⇓). Compared to patients with chronic bronchitis, steps per day, minutes of at least moderate activity and physical activity level were significantly reduced in COPD patients from GOLD stage II/BODE score 1, from GOLD stage III/BODE score 3/4 (quintile 4) and from GOLD stage III/BODE score 1, respectively (figs 2a–c⇓ and 3a–c⇓). Patients reporting MMRC grade 1 dyspnoea or higher had a reduced physical activity (fig. 4a–c⇓).
a) Steps per day, b) minutes >3 metabolic equivalents (METs), c) physical activity level and d) 6-min walk distance (6MWD) for patients with chronic bronchitis (CB) or chronic obstructive pulmonary disease according to Global Initiative for Chronic Obstructive Lung Disease (GOLD) stages. Linear differences from CB to GOLD stage IV were tested by unweighted ANOVA for linear trend. Differences between groups were tested by least significant difference post hoc analysis. a) For linearity, p<0.001. GOLD stage II, III and IV were significantly reduced compared with CB (p = 0.02, p<0.001 and p<0.001, respectively). GOLD stage III was significantly reduced compared with GOLD stage I (p<0.001) and II (p = 0.001). GOLD stage IV was significantly reduced compared with GOLD stage I, II and III (p<0.001, p<0.001 and p = 0.003, respectively). b) For linearity, p<0.001. GOLD stage III and IV were significantly reduced compared with CB (p = 0.002 and p<0.001, respectively). GOLD stage III was significantly reduced compared with GOLD stage I (p = 0.04) and II (p = 0.02). GOLD stage IV was significantly reduced compared with GOLD stage I, II and III (p<0.001, p<0.001 and p = 0.002, respectively). c) For linearity, p<0.001. GOLD stage III and IV were significantly reduced compared with CB (p<0.001). GOLD stage III was significantly reduced compared with GOLD stage I and II (p<0.001). GOLD stage IV was significantly reduced compared with GOLD stage I, II and III (p<0.001, p<0.001 and p = 0.006, respectively). d) For linearity, p<0.001. GOLD stage III and IV were significantly reduced compared with CB (p<0.001). GOLD stage III was significantly reduced compared with GOLD stage I (p<0.001) and II (p = 0.009). GOLD stage IV was significantly reduced compared with GOLD stage I, II and III (p<0.001). The bars represent means and vertical lines represent 95% confidence intervals.
a) Steps per day, b) minutes >3 metabolic equivalents (METs), c) physical activity level and d) 6-min walk distance (6MWD) for patients with chronic bronchitis (CB) or chronic obstructive pulmonary disease according to BODE (body mass index, airway obstruction, dyspnoea, exercise capacity) quintiles. BODE score 0: quintile 1 (n = 39); BODE score 1: quintile 2 (n = 31); BODE score 2: quintile 3 (n = 29); BODE score 3–4: quintile 4 (n = 31); BODE score 5–10: quintile 5 (n = 33). Linear differences from CB to BODE score 5–10 were tested by unweighted ANOVA for linear trend. Differences between groups were tested by least significant difference post hoc analysis. a) For linearity, p<0.001. BODE score 1, 2, 3–4 and 5–10 were significantly reduced compared with CB (p = 0.02, p = 0.001, p<0.001 and p<0.001, respectively). b) For linearity, p<0.001. BODE score 3–4 and 5–10 were significantly reduced compared with CB (p = 0.003 and p<0.001, respectively). c) For linearity, p<0.001. BODE score 1, 2, 3–4 and 5–10 were significantly reduced compared with CB (p = 0.04, p = 0.003, p<0.001 and p<0.001, respectively). d) For linearity, p<0.001. BODE score 2, 3–4 and 5–10 were significantly reduced compared with CB (p = 0.004, p<0.001 and p<0.001, respectively). The bars represent means and vertical lines represent 95% confidence intervals.
a) Steps per day, b) minutes >3 metabolic equivalents (METs), c) physical activity level and d) 6-min walk distance (6MWD) for patients with chronic bronchitis (CB) or chronic obstructive pulmonary disease according to the modified Medical Research Council (MMRC) dyspnoea scale. The frequencies of MMRC grade 0, 1, 2, 3, and 4 were 44, 55, 27, 28 and nine subjects, respectively. Linear differences from CB to MMRC grade 4 were tested by unweighted ANOVA for linear trend. Differences between groups were tested by least significant difference post hoc analysis. a) For linearity, p<0.001. MMRC grade 1, 2, 3 and 4 were significantly reduced compared with CB (p<0.001). b) For linearity, p<0.001. MMRC grade 1, 2, 3 and 4 were significantly reduced compared with CB (p = 0.01, p<0.001, p<0.001 and p<0.001, respectively). c) For linearity, p<0.001. MMRC grade 1, 2, 3 and 4 were significantly reduced compared with CB (p = 0.008, p<0.001, p<0.001 and p<0.001, respectively). d) For linearity, p<0.001. MMRC grade 1, 2, 3 and 4 were significantly reduced compared with CB (p = 0.02, p<0.001, p<0.001 and p<0.001, respectively). Bars represent means and vertical lines represent 95% confidence intervals.
Percentage of patients who were active (physical activity level >1.70; ▪), predominantly sedentary (physical activity level 1.40–1.69; ▓) or very inactive (physical activity level <1.40; □) according to a) Global Initiative for Chronic Obstructive Lung Disease (GOLD) stages, b) BODE (body mass index, airway obstruction, dyspnoea, exercise capacity) score and c) the modified Medical Research Council (MMRC) dyspnoea scale. CB: chronic bronchitis.
The 6MWD was significantly reduced in COPD patients from GOLD stage III, from BODE score 2 and from MMRC grade 1 when compared to the 6MWD of patients with chronic bronchitis (figs 2d⇑, 3d⇑ and 4d⇑). The 6MWD decreased from patients with chronic bronchitis to patients in GOLD stage IV by 40% (fig. 2d⇑).
Steps per day and the physical activity level were reduced on Sundays in patients with chronic bronchitis and in COPD patients with GOLD stage I–III. Minutes of at least moderate activity were reduced on Sundays in patients with chronic bronchitis and in COPD patients with GOLD stage I and GOLD stage III (tables E2A–E2C online supplementary data). Depending on the physical activity parameter, any 2–3 days was sufficient for a reliable measurement of physical activity in patients with GOLD stage IV, whereas up to 5 days of measurement were required in patients with GOLD stage I (fig. 6a–c⇓).
Minimal intra-class correlation coefficient for consistency of a) steps per day, b) minutes >3 metabolic equivalents (METs) and c) physical activity level across the measured days. Intra-class correlation coefficients were calculated for every possible combination of days: 10 combinations for 2 days; 10 combinations for 3 days; five combinations for 4 days; and one combination for 5 days. ♦: chronic bronchitis; ▪: Global Initiative for Chronic Obstructive Lung Disease (GOLD) stage I; ▴: GOLD stage II; ▾: GOLD stage III; •: GOLD stage IV.
The mean values for steps per day, minutes of moderate activity and the physical activity level were virtually unchanged when assessed by 5 or 6 days of measurement (r≥0.993, p<0.001; fig. E1a–c online supplementary material).
Moderate correlations were observed between clinical characteristics of patients with COPD and physical activity (table 3⇓). When using the individual best day of every patient (defined as the highest number for steps per day, minutes of at least moderate activity and the physical activity level) instead of the mean value, correlations between clinical characteristics and parameters of physical activity were basically unchanged (table E3 online supplementary material). The moderate correlations of 6MWD with parameters of physical activity did not significantly change when patients with chronic bronchitis were included in the analysis (fig. E2a–c online supplementary material). In patients with COPD, the GOLD staging system (GOLD stages III and IV) was the best predictor of very inactive patients (fig. 7⇓ and table 4⇓). According to the area under curve, the predictive values and the likelihood ratios, the GOLD staging system was superior to the BODE score, FEV1, 6MWD and MMRC in predicting very inactive patients (table 4⇓).
Receiver operating characteristic curves for Global Initiative for Chronic Obstructive Lung Disease stages (········) and 6-min walk test (- - - - -) serving as predictors of very inactive patients with chronic obstructive pulmonary disease (physical activity level <1.40).
Correlation coefficients between clinical characteristics and mean physical activity in 163 patients with chronic obstructive pulmonary disease
Receiver operating characteristic curves for prediction of very inactive# patients with chronic obstructive pulmonary disease
DISCUSSION
The main findings of the present study are that significant limitations of physical activity are present in patients with COPD from GOLD stage II/BODE score 1, and that clinical characteristics commonly used to assess COPD severity do not completely reflect physical activity when a broad range of disease severity is evaluated.
Physical activity, measured by a pedometer or an accelerometer, has been previously shown to be reduced in patients with severe COPD compared to healthy subjects 14, 15. Schönhofer et al. 14 reported that the daily movement counts were 43% lower in 25 patients with severe COPD (mean FEV1 47% predicted) than in 25 normal healthy subjects. Pitta et al. 15 reported that walking time was 46% lower and standing time was 35% lower in 50 patients with severe COPD (mean FEV1 43% pred) than in healthy subjects, whereas sitting time was 22% greater and lying-down time was 200% greater. However, when comparing COPD patients with subjects without lung function limitations it was unclear at which clinical stage the reduction of physical activity occurs. In the present study, comparing patients with normal lung function but symptoms of chronic bronchitis with COPD patients, the current authors found that steps per day and physical activity level were significantly reduced from GOLD stage II/BODE score 1 and from GOLD stage III/BODE score 1, respectively. This indicates that limitations of physical activity are visible first in patients with GOLD stage II/BODE score 1, but the limitations do not affect the physical activity level at that stage. The present authors speculate that one possible explanation of this discrepancy might be the increased metabolic and ventilatory demands for activities of daily living in patients with COPD compared to healthy subjects 35. Another possibility might be that patients with COPD in GOLD stage II avoid walking-related activities first, while other activities are not affected at that stage. However, these speculations are clearly subject to further research.
In the present study, there was a physical activity level of 1.7 in patients with a normal lung function but symptoms of chronic bronchitis (mean age 63 yrs, 79% males, 55% retired). In a pooled analysis of physical activity levels of retired and elderly subjects, physical activity levels ranged from 1.58 (27 females only, mean age 68 yrs) to 1.68 (20 males only, mean age 69 yrs) 31. In a recent study investigating the impact of physical activity on mortality in 302 healthy older adults (mean age 75 yrs, 50% males) the mean physical activity level was 1.7 6. These data indicate that the patients with chronic bronchitis in the present cohort were within the range of physical activity levels commonly found in that age group.
Another issue that has not been studied in detail is the difference in physical activity between the different clinical stages of COPD. The current study patients in GOLD stage I and GOLD stage II had similar physical activity levels, whereas patients in GOLD stages III and IV differed markedly from patients in the earlier stages and from each other. Even though the absolute values for the physical activity levels did not significantly differ in patients in GOLD stage I and GOLD stage II compared to patients with chronic bronchitis, there was a remarkable shift from patients being active to patients being predominantly sedentary. This shift also occurred in COPD patients reported to suffer from dyspnoea on exertion only or in COPD patients scored as BODE 0.
A health recommendation was published by the Centers for Disease Control and Prevention and the American College of Sports Medicine 36 stating that every adult should perform 30 min of moderate-intensity physical activity on most, preferably all, days of the week. In fact, this recommendation means that 30 min of moderate physical activity (for example brisk walking) should be accumulated in bouts of at least 10 min in addition to what sedentary persons normally perform 36. The present authors were unable to analyse their data with respect to this health guideline as no specific types of activity can be identified by the SenseWear Pro armband. However, as shown previously, it is unlikely that patients with moderate-to-severe COPD are able to accumulate 30 min of brisk walking as they only walk slowly for 44 min per day 15.
Variability of physical activity, which is closely linked to reliability of the measurement, is an important issue in accelerometer studies. In the present study, Sunday was a day of reduced physical activity in nearly all patients except those in GOLD stage IV. Former studies in healthy volunteers also found Sunday to be a day of reduced physical activity 33, 34, 37. The present authors demonstrate that the reliability of accelerometer findings depends on disease severity and on the number of days used for analysis. Assuming the worst consistency across days, it was found that up to 5 days of measurement were required to reliably measure physical activity in patients with COPD in GOLD stage I, which indicates that variability of physical activity is higher in less severe COPD. Two other accelerometer studies have previously cited the intra-class correlation coefficient for accelerometer measurement over a period of time in patients with COPD. Steele et al. 8 had an intra-class correlation coefficient of 0.69 for statistical agreement of 3 days (Friday, Saturday and Sunday) in patients with severe COPD. Pitta et al. 15 showed that 2 days of measurement (weekdays only) were sufficient to obtain an intra-class correlation coefficient of ≥0.7. Recently, the number of days needed to reliably measure physical activity in healthy persons was the subject of a review article by Trost et al. 20, who recommended that 3–5 days of accelerometer monitoring were needed to obtain a reliable measure of physical activity. The present data for patients with chronic bronchitis and patients with COPD are in line with this recommendation.
To the current authors’ knowledge, the MMRC dyspnoea scale has never been evaluated as a measure of physical activity in patients with COPD. However, MRC grades 4 and 5 (equivalent to MMRC grade 3 and 4) have been shown to categorise patients with COPD in terms of their disability 27. In the present study, patients with COPD, who were reported to be too breathless to leave the house (MMRC 4), had a physical activity level of 1.26, which is only slightly higher than a chair- or bed-bound patient 31.
For physicians taking care of patients with COPD it would be ideal to reliably estimate physical activity by COPD-related clinical characteristics assessed by lung function, a simple exercise test or a dyspnoea scale. However, physical activity is a complex multidimensional behaviour that is affected not only by physical attributes, but also by psychosocial and environmental factors that are beyond the scope of those tests 38, 39. Overall, moderate relationships were found between the clinical characteristics of COPD patients and their physical activity. The 6MWD showed closer associations with physical activity than airway obstruction, as has been reported previously 8, 15, 40. However, when compared with the other clinical characteristics used in this study, differences were very small. In the present study, the 6MWD was inferior to airway obstruction and the clinical staging systems in the prediction of very inactive patients. One possibility for this observation might be that physical activity decreased to a greater extent than 6MWD. Furthermore, Pitta et al. 15 have previously shown that 6MWD is only of limited value as a surrogate marker of physical activity in patients with COPD who walk >400 m. The mean 6MWD of all the current study patients was 439 m. The mean 6MWD in GOLD stage III was still 414 m, which indicates that most of the current study patients walked >400 m. In line with the findings of Pitta et al. 15, it can be concluded that the 6MWD is unlikely to replace an objective measurement of physical activity when the whole range of disease severity is investigated.
In the current study, GOLD stages III and IV were shown to be the best predictors of very inactive patients. However, only half of the patients in GOLD stage III were very inactive. Therefore, even with the best predictor, some level of uncertainty remains when identifying very inactive patients.
There are several study limitations that need to be addressed. First, the present study was a single-centre study performed in patients who were interested in this research project. This may limit applicability across different centres and different clinical settings. Secondly, a control group of never-smokers was not included. Thirdly, the current authors did not perform an analysis of physical activity by season and the winter season is not represented in the recruitment period. However, this should not interfere with the conclusions of the study.
In summary, the present study shows that physical activity is reduced in patients with chronic obstructive pulmonary disease from Global Initiative for Chronic Obstructive Lung Disease stage II/ body mass index, airway obstruction, dyspnoea, exercise capacity score 1, and that clinical characteristics reflecting chronic obstructive pulmonary disease severity do not completely reflect physical activity in patients with chronic obstructive pulmonary disease.
Support statement
This study was supported by an unrestricted research grant from Astra Zeneca and by the Dr Fritz Meyer Struckmann Foundation. The funding sources had no role in the study design, collection, analysis, or interpretation of the data or in the decision to submit the paper for publication.
Statement of interest
A statement of interest for this study can be found at www.erj.ersjournals.com/misc/statements.shtml
Acknowledgments
The authors would like to thank M. McKenney and O. Holz for the critical review of the manuscript.
Footnotes
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This article has supplementary material accessible from www.erj.ersjournals.com
For editorial comments see page 227.
- Received February 16, 2008.
- Accepted September 29, 2008.
- © ERS Journals Ltd
