Gender difference on the knowledge, attitude, and practice of COPD diagnosis and treatment: a national, multicenter, cross-sectional survey in China.

PURPOSE: To investigate the gender difference in knowledge, attitude, and practice of COPD diagnosis and treatment in China. PATIENTS AND METHODS: A nationwide, multicenter, cross-sectional questionnaire study was carried out to investigate patients' understanding and experience of COPD between September 2007 and December 2008.
RESULTS: Two thousand and seventy-two patients were recruited from eleven centers. The final effective questionnaires were those of 1,698 cases, of which 32% were female. Women were younger, had higher body mass index, were more never smokers, and had lesser pack-years (all P<0.01). More women had under elementary education level and monthly income <1,000 RMB (about 160 USD) (all P<0.01). Women had higher ratio of FEV1/FVC (54.1±10.9 vs 50.2±11.5), FEV1% (50.0±19.1 vs 45.4±29.0), and lower short form-36 mental component summary (57.5±26.8 vs 61.3±25.0) (all P<0.01). Fewer women reported severe exacerbation (defined as an acute worsening of respiratory symptoms that results in patient's hospitalization) in the previous year (44.5% vs 51.6%, P<0.05). More women reported that they never heard of COPD before (67.0% vs 59.0%, P<0.01). Less women reported that physician had to tell them they had emphysema (50.5% vs 60.4%) or COPD (31.9% vs 37.9%). Less women had pulmonary function test (PFT) done before (65.2% vs 70.4%, P<0.05). More women reported that they would not repeat PFT annually (91.7% vs 87.6%, P<0.05) and did not know the PFT results (78.6% vs 73.1%, P<0.05). More women reported not having had pulmonary rehabilitation before (87.8% vs 83.6%, P<0.05). Fewer women reported knowing that COPD should be given combined therapy (38.3% vs 44.5%) and long-term treatment (46.1% vs 51.9%) (all P<0.05).
CONCLUSION: Male and female patients had different experiences on COPD diagnosis and treatment. Physicians should pay more attention to patients' education on COPD, especially of women.

Introduction

COPD is a disease characterized by airflow limitation that is not fully reversible. As a major public health problem, COPD is the third leading cause of death in China.1 The overall prevalence of COPD was 8.2% in 2004 (men 12.4%; women 5.1%) and 8.6% in 2015 (men 11.9%; women 5.4%), accounting for 99.9 million people in China.2,3 It is notable that in our national epidemiology survey, prevalence of COPD is increasing, but only 12.0% of people with COPD had a pulmonary function test (PFT) done before, in which only 9.4% were women, which is statistically less than men (13.2%).2 Patients have little understanding on COPD compared with the knowledge of hypertension and diabetes mellitus, while the health care professionals have little information on patients’ experience. The correct information exchange between patients and health care professionals can help in early detection of COPD. Patient education has been shown to be an effective method to improve patients’ understanding of the disease and treatment. There have been few studies examining patients’ understanding of COPD.

Traditionally, we regarded COPD as a male disease, which primarily affected men. However, epidemiology survey showed us a different standpoint. COPD deaths in women firstly surpassed men in 2004 in the USA, and the prevalence of COPD in women was higher than men in the USA, Canada, the Netherlands, and Australia.4–7 Also, in our national epidemiology study, COPD in women increased from 5.1% in 2004 to 5.4% in 2015, which represents 31.2 million people in China.2,3 Women are at greater risk of smoking-induced lung function impairment, more severe dyspnea, and poorer health status for the same level of tobacco exposure, and the number of women smokers is increasing.8–10 In addition, women have more chances of exposure to biomass smoke, which causes nonsmokers with COPD also more likely to be female.11–14 The risk factors may justify the current “prevalence” (only 10% have spirometry) of COPD; nonetheless, the alleged increase (from 5% to 5.4%) from 2005 to 2014 seems insignificant. Despite this, research suggests that physicians are still “gender biased” in diagnosing COPD, as a general practitioner is more likely to diagnose men with COPD.15 The delayed diagnosis or misdiagnosis of COPD in women may cause poor prognosis.16,17 The degree to which these observations represent biologic, physiologic, or sociologic differences is not addressed. In addition, new evidence is emerging that men and women may be phenotypically different in their response to tobacco smoke, with men being more prone to an emphysematous phenotype and women to an airway predominant phenotype.18 Although information regarding differences in disease biology and clinical presentation between men and women is emerging, knowledge regarding gender difference in disease perception and experience is lacking.

Our research aim, therefore, was to explore the gender difference in understanding the disease from the perspectives of patients with COPD in a nationwide, multicenter study. The results will provide better education and management for patients, prevent disease progression, improve the quality of life and adherence, and reduce social burden between genders.

Patients and methods

Study design and patients

This study was a retrospective database analysis. Nationwide cross-sectional surveys of patients with COPD were conducted in China including eleven tertiary hospitals from September 2007 to December 2008. These eleven hospitals were chosen because they represented different parts of China. The study was approved by the ethical committee of Peking University Third Hospital, Beijing, China. All data in the database were de-identified.

Patients’ survey

Outpatients with COPD were recruited consecutively. COPD was diagnosed according to the criteria recommended by the Chinese Medical Society.19 Chronic airflow limitation was defined as a post-bronchodilator ratio of FEV1/FVC being <70%. Bronchodilator reversibility test revealed an increase in FEV1 <12% or 200 mL above the pre-bronchodilator FEV1 after inhalation of 400 µg of salbutamol. Static lung volumes were measured in all patients using body plethysmography when appropriate. Patients were asked if they had comorbidities such as hypertension, coronary artery disease, diabetes, cerebrovascular disease, or other diseases. Patients with asthma, bronchiectasis, lung cancer, active lung tuberculosis, psychiatric diseases, cognitive dysfunction, or left heart failure were excluded from the study. Information on the use of drugs was also acquired by asking patients. The Chinese validated version of short form-36 (SF-36) was administered by trained researchers in each center.20 Each patient was interviewed once.

Questionnaire items

The questionnaire was designed according to the literature with modification. A panel of COPD experts helped draft the questionnaires. The demographics, and patients’ knowledge, attitude, and practice of COPD were included in the questionnaire. Patients’ knowledge, attitude, and practice on COPD diagnosis and treatment were measured by a series of questions; the answer was dichotomic or ranked by patients. For most questions, the answers to be selected were yes, no, or do not know, and some questions had some items to be ranked (Supplementary material). Dyspnea severity was measured by the mMRC Dyspnea Index. Stages of COPD were defined according to the original GOLD criteria based on FEV1% predicted.21 The investigators in each center were trained before the study. Patients were interviewed face to face by the investigators.

Statistical analyses

All statistical analyses were conducted with SPSS 21.0 (IBM Corporation, Armonk, NY, USA). Descriptive data were expressed as mean±SD or proportion (%). Differences between the two groups were tested using the Student’s t-test or the chi-squared test, when appropriate. The independent effects of gender on the knowledge, attitude, and practice of COPD were evaluated with logistic regression models. All P-values were two-tailed, with P<0.05 considered statistically significant.

Results

Patients’ demographics

Two thousand and seventy-two patients were interviewed in the eleven centers. The final effective questionnaires were 1,698 after exclusion of 337 cases without PFT results and 38 cases who did not meet the COPD PFT criterion (Figure 1). The characteristics of the patients are shown in Table 1; 32% of the patients were female. Relative to male patients, women were younger (64.9±11.2 vs 67.6±10.9 years old), had higher body mass index (23.2±4.2 vs 22.2±3.7 kg/m2), were more never smokers (63.6% vs 13.4%), and had lesser pack-years (26.0±23.2 vs 36.5±25.9) (all P<0.01). More women were farmers (31.7% vs 17.5%), with under elementary education level (28.6% vs 9.5%) and a monthly income of <1,000 RMB (about 160$; 61.4% vs 30.4%), and without medical insurance (45.5% vs 26.0%) or work (46.1% vs 20.1%) (all P<0.01; Table 1).

Figure 1

Flow of participants through the study.

Abbreviation: PFT, pulmonary function test.

Table 1

Patient demographics

	Male(n=1,156)	Female(n=542)	P-value
Age, years (mean±SD)	67.6±10.9	64.9±11.2	<0.01
BMI (kg/m2) (mean±SD)	22.2±3.7	23.2±4.2	<0.01
Smoking history, n (%)
Current smoker	298 (26.0%)	79 (14.6%)	<0.01
Never smoker	153 (13.4%)	344 (63.6%)	<0.01
Ex-smoker	693 (60.6%)	118 (21.8%)	<0.01
Pack-years (mean±SD)	36.5±25.9	26.0±23.2	<0.01
Education under elementary, n (%)	109 (9.5%)	155 (28.6%)	<0.01
Occupation, n (%)
Farmer	202 (17.5%)	172 (31.7%)	<0.01
No work	232 (20.1%)	250 (46.1%)	<0.01
No insurance, n (%)	299 (26.0%)	246 (45.5%)	<0.01
Monthly income ≤1,000 (RMB), n (%)	348 (30.4%)	333 (61.4%)	<0.01

Abbreviation: BMI, body mass index.

Disease severity, comorbidities, exacerbation, and quality of life

Relative to male patients, women had higher FEV1/FVC (54.1±10.9 vs 50.2±11.5), FEV1% (50.0±19.1 vs 45.4±29.0), vital capacity % (72.0±22.6 vs 67.0±20.7) (all P<0.01) and lower residual volume/total lung capacity (58.5±23.2 vs 62.7±33.9, P<0.05). However, women rated mMRC dyspnea score similar to men (1.74±1.10 vs 1.70±1.11, P>0.05). They had similar comorbidities: hypertension (56.0% vs 56.3%), coronary artery disease (30.3% vs 30.6%), diabetes (18.3% vs 16.8%), and cerebrovascular disease (7.9% vs 10.6%) (all P>0.05). Less women reported severe exacerbation (defined as an acute worsening of respiratory symptoms that results in patients’ hospitalization) in the previous year (44.5% vs 51.6%, P<0.05). The number of exacerbations in the past year (2.55±2.93 vs 2.47±2.68) and the percentage of one or more exacerbations (84.3% vs 87.0%) were similar between women and men. Regarding the quality of life, women had lower SF-36 mental component summary (57.5±26.8 vs 61.3±25.0, P<0.01) and similar SF-36 physical component summary to men, as shown in Table 2.

Table 2

Gender difference on disease severity, comorbidities, exacerbation, and quality of life

	Male(n=1,156)	Female(n=542)	P-value
COPD stage, n (%)
Stage I	72 (6.3)	45 (8.4)	>0.05
Stage II	308 (27.1)	221 (41.1)	<0.01
Stage III	439 (38.7)	188 (34.9)	>0.05
Stage IV	316 (27.8)	84 (15.6)	<0.01
FEV1/FVC (mean±SD)	50.2±11.5	54.1±10.9	<0.01
FEV1% (mean±SD)	45.4±29.0	50.0±19.1	<0.01
VC% (mean±SD)	67.0±20.7	72.0±22.6	<0.01
RV/TLC% (mean±SD)	62.7±33.9	58.5±23.2	<0.05
DLco% (mean±SD)	61.5±28.5	64.2±26.0	>0.05
mMRC dyspnea score (mean±SD)	1.70±1.11	1.74±1.10	>0.05
Complication, n (%)
Hypertension	292 (56.3)	135 (56.0)	>0.05
CHD	159 (30.6)	73 (30.3)	>0.05
Diabetes	87 (16.8)	44 (18.3)	>0.05
Cerebrovascular disease	55 (10.6)	19 (7.9)	>0.05
Liver disease	21 (4.0)	10 (4.1)	>0.05
Kidney disease	20 (3.9)	7 (2.9)	>0.05
Hematology disease	4 (0.8)	2 (0.8)	>0.05
Exacerbation history
Number of exacerbations (mean±SD)	2.47±2.68	2.55±2.93	>0.05
One or more exacerbation n (%)	821 (87.0)	386 (84.3)	>0.05
Severe exacerbation, n (%)	441 (51.6)	185 (44.5)	<0.05
Quality of life
SF-36_PCS (mean±SD)	55.5±21.6	53.4±21.2	>0.05
SF-36_MCS (mean±SD)	61.3±25.0	57.5±26.8	<0.01

Abbreviations: CHD, coronary heart disease; DLco, carbon monoxide diffusing capacity; RV, residual volume; SF-36_MCS, the short form-36 mental component summary; SF-36_PCS, the short form-36 physical component summary; TLC, total lung capacity; VC, vital capacity.

Patients’ knowledge about COPD diagnosis

Patients’ knowledge about COPD diagnosis was assessed by the items that were heard of COPD and the risk factors of COPD. Relative to male patients, more women reported having never heard of COPD before (67.0% vs 59.0%, P<0.01). More than half of the women did not know the risk factors of COPD (53.5% vs 37.5%, P<0.01). Less women regarded active smoking, passive smoking, air pollution, biomass, respiratory infection, and occupational exposure as the risk factors of COPD (Table 3).

Table 3

Patients’ knowledge, attitude, and practice on COPD diagnosis

	Male, n (%)	Female, n (%)	P-value
Never heard of COPD	682 (59.0)	363 (67.0)	<0.01
Risk factors of COPD
Unknown	431 (37.5)	288 (53.5)	<0.01
Active smoking	655 (57.0)	183 (34.0)	<0.01
Passive smoking	378 (32.9)	150 (27.9)	<0.05
Air pollution	349 (30.3)	119 (22.1)	<0.01
Biomass	176 (15.3)	64 (11.9)	>0.05
Respiratory infection	325 (28.3)	122 (22.7)	<0.05
Occupational exposure	178 (15.5)	52 (9.7)	<0.01
Regard themselves have COPD	957 (83.1)	434 (80.7)	>0.05
Ask physician about the severity of COPD	1,066 (92.6)	489 (90.6)	>0.05
Physician had to tell the patient that he/she has emphysema	694 (60.4)	272 (50.5)	<0.01
Physician had to tell the patient that he/she has chronic bronchitis	892 (77.6)	404 (74.8)	>0.05
Physician had to tell the patient that he/she has COPD	436 (37.9)	172 (31.9)	<0.05
Physician had to say about the severity of COPD	354 (30.8)	153 (28.2)	>0.05
Have done PFT before	812 (70.4)	353 (65.2)	<0.05
Not repeating PFT yearly	1,011 (87.6)	497 (91.7)	<0.05
Not knowing PFT results	843 (73.1)	426 (78.6)	<0.05

Abbreviation: PFT, pulmonary function test.

Patients’ attitude about COPD diagnosis

As for patients’ attitude about COPD diagnosis, similar percentage of female and male patients regarded themselves as having COPD (80.7% vs 83.1%, P>0.05). There was no gender difference about whether they would ask physician about the severity of COPD (90.6% vs 92.6%, P>0.05), as shown in Table 3.

Patients’ and physicians’ practice about COPD diagnosis

Relative to the practice on COPD diagnosis, less women had PFT done before (65.2% vs 70.4%, P<0.05). More women reported not repeating PFT annually (91.7% vs 87.6%, P<0.05) and being unknown to the PFT results (78.6% vs 73.1%, P<0.05). Less women reported that physician would tell them they have emphysema (50.5% vs 60.4%, P<0.01) or COPD (31.9% vs 37.9%, P<0.05). Similar percentage of female and male patients reported that physician would tell them they have chronic bronchitis (74.8% vs 77.6%, P>0.05) and about the severity of COPD (28.2% vs 30.8%, P>0.05), as shown in Table 3.

Patients’ knowledge about COPD treatment

The knowledge on COPD treatment was evaluated by patients’ cognition of drugs’ side effects, treatment methods, and goal of COPD treatment. Approximately 80% of female and male patients did not know the side effects of anticholinergic drugs (80.1% vs 81.6%), β-adrenergic agonists (79.4% vs 82.2%), inhaled corticosteroids (ICSs; 80.0% vs 80.7%), ICS/long-acting β2-agonist (80.3% vs 82.7%), and theophylline (78.6% vs 81.4%) (all P>0.05). Lesser women than men reported COPD should be given combined therapy (38.3% vs 44.5%) and long-term treatment (46.1% vs 51.9%) (all P<0.05). They did not differ in the goal of COPD treatment (Table 4).

Table 4

Patients’ knowledge on the goal of COPD treatment

	Male, n (%)	Female, n (%)	P-value
Patients who did not know the side effects of COPD drug
Anticholinergic drugs	775 (81.6)	359 (80.1)	>0.05
Beta-receptor agonist	778 (82.2)	355 (79.4)	>0.05
ICS	766 (80.7)	357 (80.0)	>0.05
ICS/LABA	784 (82.7)	358 (80.3)	>0.05
Theophylline	773 (81.4)	352 (78.6)	>0.05
Single or combined therapy
Single therapy	44 (3.9)	30 (5.6)	>0.05
Combined therapy	508 (44.5)	205 (38.3)	<0.05
Do not know/does not matter	590 (51.7)	300 (56.1)	>0.05
Long-term treatment
Yes	593 (51.9)	247 (46.1)	<0.05
Goal of COPD treatment
Can be cured	258 (22.4)	124 (23.1)	>0.05
Reduced symptoms	601 (52.1)	296 (55.1)	>0.05
Improved quality of life	153 (13.3)	62 (11.5)	>0.05
No effective treatment	69 (6.0)	28 (5.2)	>0.05

Abbreviations: ICS, inhaled corticosteroid; LABA, long-acting β2-agonist.

Patients’ attitude on current COPD treatment

As to patients’ attitude on COPD treatment, >70% of the female and male patients were satisfied with COPD drugs (75.1% vs 77.6%, P>0.05). Some patients worried about the side effects of ICSs (26.7% vs 28.0%). When asked about the factors associated with the “ideal” COPD drug, male and female patients ranked drug efficacy as No 1 (69.6% vs 70.3%) and side effects as No 2 (36.0% vs 35.6%), as shown in Table 5.

Table 5

Patients’ practice on current COPD treatment

	Male, n (%)	Female, n (%)	P-value
COPD treatments
Any medication	594 (87.5)	245 (84.8)	>0.05
Theophylline	402 (59.1)	157 (54.3)	>0.05
Salbutamol	265 (39.0)	106 (36.7)	>0.05
Ipratropium bromide	232 (34.2)	85 (29.4)	>0.05
Salmeterol/fluticasone	169 (24.9)	81 (28.0)	>0.05
Tiotropium	111 (16.3)	40 (13.8)	>0.05
Budesonide	77 (11.3)	29 (10.0)	>0.05
Oral beta agonist	42 (6.2)	20 (6.9)	>0.05
Formoterol/budesonide	36 (5.3)	11 (3.8)	>0.05
Formoterol	20 (2.9)	8 (2.8)	>0.05
Beclomethasone	19 (2.8)	5 (1.7)	>0.05
Fluticasone	8 (1.2)	5 (1.7)	>0.05
When the drugs are taken
According to prescription	749 (66.9)	325 (62.6)	>0.05
When I remember	105 (9.4)	45 (8.7)	>0.05
When needed	266 (23.8)	149 (28.7)	<0.05
Patient adjusts the drug frequency or doses
Never	496 (44.4)	219 (42.3)	>0.05
Seldom	325 (29.1)	136 (26.3)	>0.05
A few times	120 (10.8)	56 (10.8)	>0.05
Often	25 (2.2)	18 (3.5)	>0.05
Always	150 (13.4)	89 (17.2)	<0.05
Patients’ satisfaction with COPD drugs
Extremely dissatisfied	11 (1.0)	10 (2.0)	>0.05
Dissatisfied	223 (20.3)	116 (22.9)	>0.05
Satisfied somewhat	395 (35)	172 (34)	>0.05
Satisfied	380 (34.7)	166 (32.8)	>0.05
Extremely satisfied	87 (7.9)	42 (8.3)	>0.05
Worried about the side effects of ICSs	319 (28.0)	142 (26.7)	>0.05
Use antibiotics very often	473 (41.2)	237 (43.9)	>0.05
Oxygen supply at home	792 (68.8)	400 (73.9)	>0.05
Pulmonary rehabilitation	962 (83.6)	473 (87.8)	<0.05
Factors associated with the “ideal” COPD drug
Drug efficacy	805 (69.6)	381 (70.3)	>0.05
Side effects	416 (36.0)	193 (35.6)	>0.05
Attending patient education activity held by the hospital
Yes	34 (8.3)	95 (6.3)	>0.05
No	1,049 (91.7)	503 (93.7)	>0.05
Physician introduced the effect of prescribed drugs	531 (47.4)	242 (46.4)	>0.05

Abbreviation: ICSs, inhaled corticosteroids.

Patients’ and physicians’ practice on COPD treatment

With regard to the practice on COPD treatment, 84.8% female and 87.5% male patients reported use of any respiratory medication for COPD in recent 3 months. The most commonly used drug by women and men was theophylline (54.3% vs 59.1%), followed by salbutamol (36.7% vs 39.0%), ipratropium bromide (29.4% vs 34.2%), and salmeterol/fluticasone (28.0% vs 24.9%) (all P>0.05). Female and male groups reported taking drugs according to the prescription (62.6% vs 66.9%), when they remember (8.7% vs 9.4%), or when needed (28.7% vs 23.8%). Most of them never adjusted (42.3% vs 44.4%, P>0.05), whereas a small percentage of the patients always adjusted the drug frequency or doses by themselves (17.2% vs 13.4%, P<0.05). Similar percentage of patients reported using antibiotics very often (43.9% vs 41.2%, P>0.05). They did not have oxygen supply at home (73.9% vs 68.8%, P>0.05). More women reported not having had pulmonary rehabilitation before (87.8% vs 83.6%, P<0.05). They did not ever attend patient education activity held by the hospital (93.7% vs 91.7%, P>0.05). Similar percentage of patients reported that physician would introduce the effect of prescribed drugs to them (46.4% vs 47.4%, P>0.05), as shown in Table 5.

Factors associated with patients’ knowledge, attitude, and practice on COPD

Using “never heard of COPD before” as the outcome variable about patients’ knowledge on COPD, we did logistic regression analysis and found that after adjustment of age, education, income, insurance, smoking pack-years, mMRC, FEV1%, lower income (<1,000 RMB, OR 1.790, 95% CI 1.279–2.505), FEV1% (OR 1.025, 95% CI 1.017–1.033), and having insurance (OR 0.552, 95% CI 0.375–0.811) among male patients and having insurance (OR 0.273, 95% CI 0.123–0.604) among female patients remained the independent variables associated with patients’ knowledge on COPD (Table 6).

Table 6

Multivariable adjusted ORs for patients’ knowledge on COPD

	Male		Female
	OR (95% CI)	P-value	OR (95% CI)	P-value
Age	1.008 (0.994–1.022)	0.263	0.994 (0.954–1.036)	0.766
Smoking pack-years	1.003 (0.998–1.008)	0.284	1.001 (0.987–1.016)	0.838
FEV1%	1.025 (1.017–1.033)	0.000	1.016 (0.996–1.035)	0.112
Education level
Low education (under elementary level)	0.932 (0.688–1.262)	0.648	2.230 (0.992–5.013)	0.052
High education	1.0 (ref)	–	1.0 (ref)	–
Insurance
Have insurance	0.552 (0.375–0.811)	0.002	0.273 (0.123–0.604)	0.001
Self-paid	1.0 (ref)	–	1.0 (ref)	–
Income level
Monthly income ≤1,000 RMB	1.790 (1.279–2.505)	0.001	0.596 (0.266–1.333)	0.207
Monthly income >1,000 RMB	1.0 (ref)	–	1.0 (ref)	–
Dyspnea severity
mMRC <2	1.0 (ref)	–	1.0 (ref)	–
mMRC ≥2	1.006 (0.753–1.343)	0.970	1.562 (0.774–3.150)	0.213

Abbreviation: ref, reference.

Discussion

The surveys represented the first coordinated national surveys of gender difference on knowledge, attitude, and practice of COPD in China. It revealed that female and male patients had different experiences on COPD and its treatment. The knowledge on COPD was poor in COPD patients, more measures should be taken to improve patients’ knowledge on COPD, especially women. It is evident that gender differences in disease impact, expression, progression, and response to therapy were noted in COPD.22 However, studies on gender difference in experience and management are lacking. Focused investigation in this area is clearly warranted.

Studies suggested that COPD had different impacts on patient physiology and psychology between males and females. In the present study, relative to male patients, female patients were younger, had higher body mass index, were more never smokers, and had lesser pack-years. More female patients were farmers, with under elementary education level, a monthly income of <1,000 RMB, and without medical insurance or work. Although female patients had higher FEV1/FVC, FEV1%, vital capacity %, and lower residual volume/total lung capacity, they had similar mMRC dyspnea score, the number of exacerbations in the past year, and lower SF-36 mental component summary. The gender differences on COPD were also revealed in other surveys. Our large national survey conducted in 2014–2015 estimated that the prevalence of COPD in Chinese people aged 40 years and older was 13.6%.23 In the study, there were great differences between men and women in the prevalence, the smoking status, and the severity of COPD. The prevalence of COPD in men was 19.0%, whereas it was 8.1% among women; as to the smoking status, almost all current smokers were men (58.2%), whereas only 4.0% were women, and men had a higher prevalence in COPD of GOLD stage II–IV than women.23 Another national prevalence study undertaken in 2012–2015 showed similar results, that men had a higher prevalence (11.9%) than women (5.4%).2 Women had a poorer understanding of their condition than men; less female patients had a PFT done before than male patients.2 These two national surveys identified the prevalence of COPD in China and its risk factors, but did not focus on the gender difference of COPD, and our study made a further investigation on the gender difference of COPD. The confronting COPD international survey was performed in the USA, Canada, France, Italy, Germany, the Netherlands, Spain, and the UK in 2000 with 3,265 COPD participants. Forty-one percent of them were women. Women were younger and had lesser pack-years of smoking. They were more likely to report severe dyspnea than men, with similar cough and less sputum. There were no differences in the risk of hospitalization or emergency room visit.24 Also, there were significant differences in the clinical expression of COPD between men and women, with women scoring lower on health status questionnaires, manifesting worse dyspnea scores, and experiencing more exacerbations than men.25 A study from Spain showed that women COPD patients were significantly younger, had better PTF, smoked less, but had worse quality of life and higher anxiety and depression.26 Another probe revealed that at the same age and FEV1% predicted, women were more likely to have dyspnea and worse quality of life (the St George’s respiratory questionnaire and SF-36 health survey questionnaire) and worse scores on the Morale Scale that measures subjective well-being, but less sputum.27 Evidence indicates that men and women may be phenotypically different in their response to tobacco smoke, with men being more prone to an emphysematous phenotype and women to an airway predominant phenotype.18 Also, women were more likely to be undiagnosed by general practitioners.15 These studies indicated that gender differences in COPD physiology and psychology existed in different studies. Female COPD patients should be given more attention.

In the study, we used knowledge, attitude, and practice (KAP) questionnaire to evaluate patients’ knowledge, attitude, and practice on COPD, instead of validated questionnaires such as the Bristol COPD Knowledge Questionnaire (BCKQ) for some reasons. The BCKQ contains 13 topics and it is widely used to assess patients’ knowledge about COPD. It also works well in assessing the effectiveness of education and enables comparison of different teaching methods.28 Because it focuses on the education of COPD knowledge, it has limitation in assessing COPD patients’ attitude and practice and it is not close enough to the clinic to some extent. The KAP questionnaire we used in the article is more comprehensive and closer to clinic than BCKQ, so we chose the KAP questionnaire instead of validated questionnaires such as BCKQ.

Our results showed that COPD patients had a poor understanding of COPD assessed by the items they heard of COPD, the risk factors of COPD, knowledge of the side effects, and COPD treatment. Other studies also showed the same results. A study conducted in Guizhou and Chongqing, China, revealed patients’ knowledge on COPD measured by BCKQ and found that patients’ knowledge about COPD was poor, the mean BCKQ score was 30.36±5.59, and patients’ knowledge level was a risk factor of anxiety and depression.29 Another study recruited 100 patients in Hong Kong, China, to assess patients’ knowledge of COPD, the mean score of BCKQ was 41.01±10.64, and there was no gender difference on the knowledge of COPD.30 The two Chinese surveys had some limitations in evaluating patients’ knowledge on COPD, the number of participants was limited, and most participants were from a single center which could not represent national population. Another survey undertaken in the West Midlands, UK, investigated self-management behavior and support among COPD patients and explored the behavior associated with having a self-management plan. The results indicated that the knowledge on COPD was also poor with a mean BCKQ of 31.5±10.7.31 A study showed that COPD education delivered in primary care increased patients’ knowledge on COPD; the participants’ BCKQ scores in the experimental group and the control group were 27.6±8.7 and 29.6±7.9, respectively, at baseline.32 In general, the knowledge on COPD was limited worldwide, and our survey found that patients, especially women, had a poor knowledge of COPD in China. We should pay more attention to women’s education on COPD.

The current survey revealed the differences in male and female patients’ attitudes about COPD. Relative to male patients, more female patients reported having never heard of COPD before, not repeating PFT annually, and being unknown to the PFT results. Less female patients had done PFT before and reported that the physician would tell them they have emphysema or COPD. The results were consistent with our previous study in Yanqing District, China.33 We evaluated the patients’ comprehension, recognition, and burden of COPD in the rural area of Beijing. Of the 1,624 people aged >40 in five villages in Yanqing District of Beijing, 148 were diagnosed to have COPD. None of them had ever heard the term COPD and been diagnosed with COPD. Lung function tests and health education had never been performed for these patients.33 In our national epidemiology survey, about 9.7% of adults had a PTF done before;2 but in our survey, we found a higher rate of PFT done before than other national and international surveys,2,23,34 which may be attributed to the reason that patients recruited were from clinics in tertiary hospitals and some of them may have visited physicians in primary care or secondary hospitals before. Despite this, over 70% of patients did not know their PFT results. Patients’ knowledge of COPD was limited. Patients considered themselves to be uninformed about COPD and obtained most of their information from physicians. A nationwide survey in the USA showed that about 45.6% of the COPD patients were aware of COPD guidelines, but men were better informed.35 Also, they had sufficient sources of COPD education, as along with physician, respiratory therapist, and nurse, they also got information about COPD on books, magazines, other patients, television or cable, patient organizations, online support groups, and other Internet resources.35 The results showed that patients had a poor understanding of COPD in China and patients had a few sources, except from the physician, for learning about COPD. Health education should play an important role in the management of COPD in China, particularly among females.

Whether women received the same medical care for COPD as men is not known. We found that the most commonly used drugs by female and male patients in the recent 3 months were theophylline, followed by albuterol, ipratropium bromide, and salmeterol/fluticasone. The results were equal to another survey conducted in Sweden, which showed that drug treatment depended on disease severity.36 More than 70% of the patients were satisfied with COPD drugs. Approximately 80% of the patients did not know the side effects of anticholinergic drugs, β-adrenergic agonists, ICSs, ICS/long-acting β2-agonist, and theophylline. Similar percentage of female and male patients reported using antibiotics very often. They did not have oxygen supply at home. Relative to male patients, more female patients reported not having had pulmonary rehabilitation before and lesser number of females reported COPD should be given combined therapy and long-term treatment. In our previous study in Yanqing District, only 4.1% of the patients in stable stage took theophylline irregularly.33 None of the stable COPD patients took inhalers regularly or temporally. No oxygen therapy and pulmonary rehabilitation were done in those patients. During acute exacerbations, only 6.8% took theophylline and 6.8% had antibiotics, and the management of both stable and exacerbation of COPD was inadequate.33 The results indicated that patients, especially women, were unfamiliar with COPD guidelines.

In our study, more women were farmers, with under elementary education level, a monthly income <1,000 RMB, and without medical insurance or work. Using “never heard of COPD before” as the outcome variable about patients’ knowledge on COPD, we did logistic regression analysis and found that lower income and FEV1% in male patients had a negative effect on the knowledge of COPD, and self-paid insurance in female and male patients enhanced patients’ knowledge on COPD. Optimal care is impeded by suboptimal knowledge of physicians and patients and by not having insurance coverage policies.

The current study had several limitations. The study design was not a population survey, and patients were selected from clinics in hospitals consecutively and not by random selection; therefore, it might have a selection bias. About 50%–60% of the patients were GOLD stage III and IV; they may have different perceptions of COPD and treatment, compared with stage I and II patients. Secondly, there is heterogeneity in drug availability in different centers. We did not compare the differences among centers.

Conclusion

In summary, our data indicate that male and female patients had different experiences on COPD and its treatment. Physician should pay more attention to patient education, especially of females, using various ways such as television, Internet, and lecture to improve their knowledge and management of COPD.

The KAP Questionnaire on COPD
I. Patients’ knowledge of COPD diagnosis and treatment
1. Have you ever heard of COPD before?	Yes ☐			No ☐
2. Which disease is associated with COPD?
Chronic bronchitis or emphysema	Yes ☐			No ☐		Don’t know ☐
3. Which item is a risk factor of COPD?
Active smoking	Yes ☐			No ☐
Passive smoking	Yes ☐			No ☐
Air pollution	Yes ☐			No ☐
Biomass	Yes ☐			No ☐
Respiratory infection	Yes ☐			No ☐
Occupational exposure	Yes ☐			No ☐		Don’t know ☐
4. What’s the clinical feature of COPD?
Cough	Yes ☐			No ☐
Expectoration	Yes ☐			No ☐
Dyspnea	Yes ☐			No ☐		Don’t know ☐
5. What’s the clinical feature of COPD exacerbation?
Upper respiratory infection	Yes ☐			No ☐
Increased dyspnea	Yes ☐			No ☐
Increased sputum volume	Yes ☐			No ☐
Sputum purulence	Yes ☐			No ☐
Increased cough	Yes ☐			No ☐
Fever	Yes ☐			No ☐		Don’t know ☐
6. What’s the warning sign of coming COPD exacerbation?
Wheeze	Yes ☐			No ☐
Lacking of strength	Yes ☐			No ☐
Upper respiratory infection	Yes ☐			No ☐
Increased cough	Yes ☐			No ☐
Increased sputum	Yes ☐			No ☐
No warning signs or don’t know	Yes ☐			No ☐
7. What’s the side effect of most used COPD drugs? Please list the side effect if you choose yes.
Anticholinergic drug	Yes ☐			No ☐
Beta receptor agonist	Yes ☐			No ☐
Inhaled corticosteroids	Yes ☐			No ☐
ICS/LABA	Yes ☐			No ☐
Theophylline	Yes ☐			No ☐
8. Do you think COPD should use combined treatment or single treatment?
Single treatment ☐		Combined treatment ☐			Don’t know ☐
9. Does COPD need long-term therapy?
Yes ☐		No ☐			Don’t know ☐
10. What’s the right description on goal of COPD treatment?
Can be cured			Yes ☐		No ☐
Alleviate symptoms			Yes ☐		No ☐
Improve quality of life			Yes ☐		No ☐
No effective treatment			Yes ☐		No ☐
II. Patients’ attitude of COPD diagnosis and treatment
1. Do you regard yourself have chronic bronchitis, emphysema or COPD?			Yes ☐	No ☐
2. Would you ask physician about the severity of COPD?			Yes ☐	No ☐
3. Which did you worry most in a COPD exacerbation?
Death ☐ The exacerbation of syndrome ☐ Hospitalization ☐ Decline of lung function ☐
4. Which item best describes your satisfaction with COPD drugs?
Extremely dissatisfied ☐ Dissatisfied ☐ Satisfied somewhat ☐ Satisfied ☐ Extremely satisfied ☐
5. These are factors associated with the “ideal” COPD drug, please rank them by importance?
A. Drug efficacy B. Type of dose C. Side effects D. The size and shape E. Price F. Frequency of dose
6. Do you worry about side effect of ICS?			Yes ☐	No ☐			Don’t know ☐
III. Patients’ practice of COPD diagnosis and treatment
1. What medicines do you take to treat your COPD?
Theophylline ☐ Salbutamol ☐ Ipratropium bromide ☐ Salmeterol/fluticasone ☐ Tiotropium ☐ Budesonide ☐
Oral beta agonist ☐ Formoterol/budesonide ☐ Formoterol ☐ Beclomethasone ☐
2. Had Physician told you that you have emphysema?			Yes ☐	No ☐
3. Had Physician told you that you have chronic bronchitis?			Yes ☐	No ☐
4. Had Physician told you that you have COPD?			Yes ☐	No ☐
5. Had Physician told you the severity of your COPD?			Yes ☐	No ☐
6. Had you ever done PFT before?			Yes ☐	No ☐
7. Do you repeat PFT yearly?			Yes ☐	No ☐
8. Do you know your PFT results?			Yes ☐	No ☐
9. Had physician introduce the effect of prescribed drugs?			Yes ☐	No ☐
10. When did you take drugs?
According to prescription ☐ When remember ☐ When needed ☐
11. How often do you adjust drug frequency or doses without doctors’ instructions?
Never ☐ Seldom ☐ A few ☐ Often ☐ Always ☐
12. Did you use antibiotics very often?			Yes ☐	No ☐
13. Do you have oxygen supply at home? If you have one, did you use it often or treat it as a standby?
Use it often ☐ Standby ☐ Don’t have one ☐
14. Had you attended a pulmonary rehabilitation program?			Yes ☐	No ☐
15. Did you attend patients’ education activity held by hospital?			Yes ☐	No ☐