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BMC Public Health

, 19:303 | Cite as

Prevalence of asthma and other allergic conditions in adults in Khuzestan, southwest Iran, 2018

  • Esmaeil Idani
  • Hanieh Raji
  • Farzan Madadizadeh
  • Bahman Cheraghian
  • Maryam Haddadzadeh Shoshtari
  • Maryam DastoorpoorEmail author
Open Access
Research article
Part of the following topical collections:
  1. Chronic Disease epidemiology

Abstract

Background

Health information on the dimensions of asthma and allergic conditions in Khuzestan Province, as a major industrial and polluted area in Iran as and the Middle East, is inadequate. This study was performed to measure the prevalence of asthma and other allergic conditions in adults in Khuzestan Province.

Methods

This population-based cross-sectional study was carried out in 17 villages and 27 cities of Khuzestan Province during the years 2017–2018 on 20 to 65 year old respondents. Two-stage cluster sampling was used. The ECRHS (European Community Respiratory Health Survey) questionnaire was completed for individuals with additional questions regarding other allergic conditions.

Results

In the study, 5720 questionnaires were distributed of which 5708 were returned. The prevalence of current asthma was 8.5% and that of asthma-like symptoms was 19.0%. The most common symptoms of asthma were nocturnal cough (13.6%), chest tightness (12.3%) and wheezing (13.1%). The prevalence of allergic rhinitis (AR), eczema and airway hyperresponsiveness were 27.2, 10.7, and 38.7%, respectively. The prevalence of current asthma was strongly correlated with age, current location (city, village), and the smoking status of respondents (p < 0.05).

Conclusion

The prevalence of current asthma and asthma-like symptoms in Khuzestan Province is almost twice as high as in Iran. Given the high prevalence of symptoms of airway hyperresponsiveness in the entire province, it is necessary to take environmental measures to mitigate the emergence of new cases of asthma among the residents. In addition, surveillance studies are necessary to monitor the trends in the prevalence of asthma in this province.

Keywords

Prevalence Asthma Rhinitis Allergic Eczema Adults 

Abbreviations

AR

Allergic Rhinitis

DALYs

Disability Adjusted Life Years

ECRHS

European Community Respiratory Health Survey

NO2

Nitrogen Dioxide

O3

Ozone

SO2

Sulfur Dioxide

YLD

Years of Life Lost due to premature death

YLL

Years of Life lived with Disability

Background

Asthma is a chronic inflammatory disease of the respiratory tract characterized by unstable obstruction of the airflow and severe response of the airways [1]. The most common symptoms of asthma are frequent wheezing, rapid breathing, chest tightness and coughing, which usually aggravate in the presence of certain factors such as dust, activity, cigarette and air pollution [2].

Various studies have revealed that the prevalence of asthma is on the increase worldwide, especially in industrialized countries. For example, the number of persons with self-reported asthma in the United States has more than doubled between 1980 (6.5 million) and 1996 (14.5 million) [3]. It is also estimated that more than 330 million people in the world suffer from asthma, and by 2025 a hundred million more are probably added to the number of people with asthma. [4].

According to the Global Asthma Network’s 2016 study, the burden of disease attributed to asthma based on the Disability Adjusted Life Years (DALYs) index was estimated to be 23.7 million DALYs in all age groups, 56% of which were Years of Life Lost due to premature death (YLD) and 44% were Years of Life lived with Disability (YLL). In general, asthma ranks 28th among the world’s leading burden of disease [5].

The results of the studies show that the prevalence of wheezing in different countries of the world varies from 1.6 to 36.8%. It is less than 5% in Albania, China, Greece, Indonesia, Romania and Russia. In countries like Australia, New Zealand, Ireland and the United Kingdom, it ranges from 29 to 32%. Australia, for example, has reported wheezing as 29.4%, Austria 11.9%, Ireland 15.2%, Brazilian boys 7.3%, and girls 4.9% [6].

There are few studies on the prevalence of asthma in adults in the eastern Mediterranean region classified by the World Health Organization, especially in Iran [7, 8]. In a cross-sectional study in Iran in 2015, the rate of current asthma and asthma-like symptoms in adults was 4.7 and 8.9, respectively [9].

Asthma is a multifactorial disease in which family as well as infectious, allergic, socioeconomic, psychological and environmental factors play a role [10]. Environmental factors such as exposure to various allergens, irritants, and industrial pollutants and particulate matter are involved in developing countries [11, 12]. For developed countries, outdoor pollutants such as benzene, particulate matter and irritant gases including nitrogen dioxide (NO2), ozone (O3), sulfur dioxide (SO2) increase the incidence of respiratory diseases, especially asthma [13, 14].

The Province of Khuzestan has been exposed to various pollutants for many years, the most important sources of which are micro-waste, industrial and non-industrial pollutants. Ahvaz is the capital of Khuzestan Province. The rate of pollution in this city is increasing and becoming more severe every day [15, 16]. According to the World Health Organization’s report in 2013, the City of Ahwaz, in terms of the average annual amount of suspended particles of less than 10 μm (372 μg/m3), is the most polluted city in the world thus far [17].

Among the requirements of this study was the occurrence of multiple respiratory outbreaks during three years from 2013 to 2015 as the result of the first autumn rainfall in the Khuzestan Province, which seems to be influencing the occurrence of asthma and allergic conditions [18]. Also, in the study of Fazlollahi et al. in Iran in 2015, the Khuzestan Province ranks the highest as regards the incidence of current asthma [9].Therefore, conducting an accurate study on the epidemiology of asthma and allergic conditions in the province seemed necessary. Therefore, this study was carried out to estimate the prevalence of asthma and other allergic conditions in adults in the Khuzestan Province.

Methods

Study area

The study was conducted in the Khuzestan Province, southwest of Iran, located at the geographical coordinates of 31.33 ° N and 48.69 ° E. The Khuzestan Province shares border with Iraq and the Persian Gulf, which is the center of oil and gas production in Iranian [19]. The area of the Khuzestan Province is 64,057 km2 and, with a population of 4,710,506 people, it is considered as the fifth-largest populated region of Iran. The capital of the Khuzestan Province is Ahvaz City [19].

Study design

This cross-sectional study was conducted during September 2017 to February 2018 on the adult population of the Khuzestan Province. The study was carried out in 24 counties of Khuzestan through sampling from 27 cities and 17 villages. The inclusion criteria were male or female from 20 to 65 years of age and giving personal consent for participation in the study. Exclusion criteria were individuals with specific illnesses, disabilities, and/or a mental state, and dementia at the time of study that prevented them from co-operating.

Sample size

According to a similar study by Mehrabi et al., which estimated the prevalence of asthma in adults aged 15–65 years in Kurdistan to be 0.023 [20] and the National Census of 2016 which reports the population of the Khuzestan Province as 4,710,509 people, and the following formula, this research considered a sample size of 2600 people. Drawing upon the effect size 2, the sample size was obtained as 5200 respondents. Taking into account that approximately 10% of the respondents might not respond, we calculated the final sample size as 5720.
$$ {\displaystyle \begin{array}{l}n=\frac{Nz_{1-\frac{\alpha }{2}}^2p\left(1-p\right)}{d^2\left(N-1\right)+{z}_{1-\frac{\alpha }{2}}^2p\left(1-p\right)},\mathrm{N}=4710509,\alpha =0.05,{z}_{1-\frac{\alpha }{2}}=1.96,p=0.023,d=0.0054\Rightarrow n\simeq 2600\\ {}\end{array}} $$

Sampling frame and sampling strategy

In this study, two-stage cluster sampling was used. In the first stage, all clusters in Khuzestan Province were selected. In the second stage, 143 clusters were selected by random systematic sampling from the whole cluster, taking into account the probability proportional to their size. The number of clusters in urban and rural areas was selected based on their population’s proportion to the population of Khuzestan Province. The list of census enumeration areas, population and geographic map of each cluster were prepared through correspondence with the Iranian Statistics Center and the latest census data (2017). At the end, 143 clusters each with a cluster size of 40 persons were selected. Each cluster included 8 men and 8 women aged 20 to 29 years old, 8 men and 8 women in the range of 30–44 years old, and 4 men and 4 women aged 45–65 years.

After receiving the necessary trainings, enumerators began sampling. They were handed maps of selected clusters and referred to the address of each cluster from the southwest point of that cluster in the clockwise direction. For each cluster, sampling was carried out until 40 respondents agreed to participate.

Of each family, not more than one person was selected for any age group, and if there were more than one person in a family for a certain age group, one was chosen among those whose day and month of birth were closer to the day of the survey. Questioning was done in the afternoons and holidays with the consent of the respondents.

Questionnaire

The instrument for studying the prevalence of asthma and asthma symptoms was the ECRHS questionnaire, [21] which was previously used in domestic studies of standardization [7] and localization. The ECRHS questionnaire is the standard tool used in the survey of “the European Respiratory Society” in 48 centers in 17 European countries and 5 non-European countries between 1990 and 1995 in adults aged 20–44 [21].

In the ECRHS, asthma symptoms include: Wheezing in the past 12 months, wheezing with shortness of breath in the last 12 months, wheezing in the absence of cold during the past 12 months, feeling tightness in the chest while waking up in the past 12 months, nocturnal cough and dyspnea attacks in the last 12 months, a history of asthma attack in the last 12 months, recent anti-asthma medication, and nasal allergies.

Based on the ECRHS questionnaire, current asthma is defined as recently taking anti-asthma medication or having an asthma attack in the last 12 months. People with asthma-like symptoms are those individuals who have at least one symptom of asthma including wheezing, waking up with a feeling of tightness in the chest, waking up with dyspnea and coughing attacks in the last 12 months [21].

The questionnaire included questions about age, gender, education level, marital status, employment status, active smoking, passive smoking, quantity of cigarettes smoked, duration of smoking, physician-confirmed asthma (Do you have asthma (confirmed by doctor)?), allergic rhinitis, airway hyperresponsiveness and eczema condition.

In relation to the measurement of the prevalence of “airway hyperresponsiveness”, a multi-choice question was asked: Which of the following irritates you and starts symptoms such as shortness of breath, cough, sneezing, runny nose, itching of the eyes, red eye and the hives? pollen, dried plants, cat, dog, bird, cosmetics, spray, colognes, insecticides, rubber gloves, metal and jewelry, home dust, air pollution, exercise, nervousness, cold weather, humidity, cool air from a cooler, sweeping and any other substance (food, medicine and plant) that the person expresses.

Asthma is an inflammatory disease affecting the airways of the lungs and leaving long-term impacts on the patient [22]. The characteristics of the disease include: recurring symptoms, reversible airflow obstruction, and bronchospasm. The symptoms of this disease include wheezing, coughing, chest tightness, and shortness of breath [23].

Rhinitis is referred to inflammation and irritation of the mucous membrane which is inside the nose. The typical symptoms of rhinitis are a stuffy and runny nose and sneezing. This inflammation type is the result of exposure to bacteria, viruses, irritants or allergens [24].

Airway hyperresponsiveness is an increased sensitivity of the airways to a constrictor or agonist inhaled by the patient, a steeper slope of the dose-response curve, and a bigger maximal reaction to the agonist [25].

Eczema is referred to a group of ailments that leads to skin inflammation. The characteristics of these ailments are itching, red skin and a rash [26].

Statistical analysis

Considering that the results were obtained for 24 countries and were to be generalized to the total population of 20–65 years living in Khuzestan Province, all cities and villages were given weights. This means that each sample represents several people.

The total weight is obtained from the inverse multiplication of two weights: one is the weight associated with the cluster selection, and the other is the weight of each sample from the clusters. Total weight was obtained using a formula. In the formula, Np is the total number of clusters in Khuzestan Province and np is the number of selected clusters (143 clusters). Nc and nc are the total population of 20 to 65 year olds and the sample size in each cluster, respectively.
$$ PWT=\left(\frac{N_p}{n_p}\right)\times \left(\frac{N_c}{n_c}\right) $$

To estimate the descriptive results, frequency, mean and standard deviation were used. To measure the analytical results and examine the relationship between the dependent variables (asthma symptoms and allergic conditions) and the independent variables (age, sex, educational status, residence, and smoking status), the chi-square test and multiple logistic regression analysis (ENTER method) were used. An analysis was done using Stata 10, and a p-value below 0.05 was considered significant.

Results

Distribution of the respondents according to demographic characteristics

In the study, 5720 questionnaires were distributed of which 5708 were returned. Some of the variables such as education level and active smoking were non-response. The mean ± SD age of the respondents in the study was 34.5 ± 11.8 years (95% CI: 34.2–34.8). The proportion of men was 50.7% and women were 49.3%. The majority of the respondents held high school and associate’s degrees (37.9%), were married (62.0%), lived in urban areas (87.4%) and were employed (53.2%). The prevalence of smoking in the age group of 20 to 65 years was 15.7%. The average smoking rate was 18.1 ± 9.3 (95% CI: 16.6–19.7) cigarettes a day and the mean smoking duration was 14.1 ± 9.0 years (95% CI: 12.8–15.4). More details about the demographics of the respondents are shown in Table 1.
Table 1

Distribution of Respondents According to Demographic Characteristics in Khuzestanb

Variable

Class

N

Weighted %

95% CI

Gender

Male

2882

50.7

49.8

51.6

Female

2826

49.3

48.4

50.2

Age

20–29 years

2262

39.6

39.0

40.2

30–44 years

2256

39.4

38.8

40.0

45–65 years

1190

21.0

20.2

21.8

Education level a

Illiterate

313

5.7

4.6

6.8

Low

1585

29.1

26.4

31.8

Moderate

2056

37.9

36.2

39.7

High

1460

27.2

24.0

30.4

Marital status

Married

3487

62.0

60.2

63.9

Single

2077

36.9

35.0

38.8

Divorced

19

0.4

0.2

0.6

Widow/widower

41

0.7

0.5

1.0

Region

Urban

5013

87.4

81.9

92.9

Rural

695

12.6

7.1

18.1

Employment status

Employed

1483

53.2

50.6

55.7

Unemployed

1327

46.8

44.3

49.4

Active smokers

Yes

882

15.7

13.5

17.9

No

4775

84.3

82.1

86.5

Passive smokers

Yes

3292

58.1

52.9

63.4

No

2363

41.9

36.6

47.1

a: Low educational level (primary school & middle school), moderate educational level (high school and associated degree), and high educational level (bachelor, master and doctorate degree)

b: n may not total to 5708 in some variables due to non-response

Prevalence of asthma symptoms and other allergic conditions

In the study, the prevalence of current asthma was 8.5% and asthma-like symptoms were 19%. The most common symptoms of asthma were nocturnal cough (13.6%), chest tightness (12.3%) and wheezing (13.1%). The prevalence of AR, eczema and airway hyperresponsiveness was 27.2, 10.7, and 38.7%, respectively (Table 2).
Table 2

Prevalence of Asthma Symptoms and Other Allergic Conditions in Overall and According to Gender

Asthma symptoms and other allergic conditions

Total

Gender

Male

Female

P-value¥

Nb

Yes

%a (95% CI)

Yes

%a(95% CI)

Yes

%a(95% CI)

Asthma-like symptoms

5659

1059

19.0(15.9–22.1)

540

19.2(15.6–22.5)

519

18.7(15.7–22.0)

0.839

Wheezing

5655

728

13.1(10.8–15.4)

374

13.2(10.7–15.8)

354

13.0(10.5–15.4)

0.781

Wheezing with shortness of breath

5539

674

12.3(10.3–14.2)

348

12.5(10.2–14.8)

326

12.0(9.9–14.1)

0.624

Wheezing in the absence of a cold

5516

656

12.1(10.0–14.1)

323

11.8(9.4–14.0)

333

12.3(10.2–14.5)

0.468

Waking with tightness in the chest

5660

690

12.3(10.2–14.3)

349

12.2(9.9–14.6)

341

12.3(10.1–14.5)

0.947

Woken by an attack of breathlessness

5658

580

10.3(8.6–12.0)

303

10.6(8.5–12.7)

277

10.0(8.2–11.7)

0.512

Woken by attack of cough

5668

768

13.6(11.4–15.8)

380

13.3(10.8–15.8)

388

13.8(11.6–16.2)

0.473

Current asthma

5672

478

8.5(7.0–10.0)

231

8.1(6.6–9.7)

247

8.9(7.0–10.7)

0.278

Asthma attack

5646

410

7.3(5.8–8.7)

195

6.8(5.4–8.2)

215

7.7(6.0–9.5)

0.174

Medications for asthma

5666

417

7.4(6.1–8.8)

198

7.0(5.6–8.4)

219

7.9(6.2–9.5)

0.192

Physician-confirmed asthma

5658

359

6.4(5.3–7.5)

171

6.0(4.8–7.2)

188

6.8(5.4–8.1)

0.245

Allergic Rhinitis

5671

1544

27.2(25.1–29.4)

694

24.2(22.0–26.5)

850

30.4(27.8–32.9)

< 0.001*

Airway hyperresponsiveness

5708

2190

38.7(35.0–42.3)

1000

35.1(31.3–38.9)

1190

42.3(38.4–46.3)

< 0.001*

Eczema

5663

605

10.7(9.2–12.3)

277

9.7(8.0–11.5)

328

11.8(10.0–13.5)

0.021*

a: Prevalence estimates were weighted using normalized cross-sectional weights

b: n may not total to 5708 in some variables due to non-response

¥ χ2 test

*P < 0.05

The results of bivariate analysis showed that the prevalence of current asthma, asthma-like symptoms, and all signs of asthma include: wheezing, wheezing with dyspnea, wheezing in the absence of colds, chest tightness, nocturnal dyspnea, nocturnal cough, asthma attack, medications for asthma and physician-confirmed asthma were not different in men and women (P-value> 0.05). However, AR, airway hyperresponsiveness and eczema were more prevalent in women (P-value< 0.05) (Table 2).

The prevalence of current asthma, asthma-like symptoms, all signs of asthma and physician-confirmed asthma in the age group of 45 to 65 years were significantly higher compared to other age groups (P-value< 0.05). Meanwhile, AR were more prevalent in young people aged 20–29 years (P-value < 0.05) (Table 3).
Table 3

Prevalence of Asthma Symptoms and Other Allergic Conditions According to Age

Asthma symptoms and other allergic conditions

Age (years)

20–29

30–44

45–65

P-value¥

Yes

%a (95% CI)

Yes

%a (95% CI)

Yes

%a (95% CI)

Asthma-like symptoms

353

15.8(12.7–18.9)

397

18.0(14.6–21.3)

309

26.8(22.5–31.2)

< 0.001*

Wheezing

247

11.1(8.6-13.5)

273

12.4(9.8–15.0)

208

18.2(14.9–21.6)

< 0.001*

Wheezing with shortness of breath

223

10.1(8.1–12.2)

259

11.9(9.6–14.3)

192

16.9(14.1–19.7)

< 0.001*

Wheezing in the absence of a cold

211

9.7(7.8–11.7)

241

11.2(8.9–13.5)

204

18.0(14.7–21.4)

< 0.001*

Waking with tightness in the chest

218

9.7(7.6–11.8)

269

12.2(9.7–14.6)

203

17.3(14.3–20.3)

< 0.001*

Woken by an attack of breathlessness

191

8.5(6.7–10.3)

211

9.5(7.5–11.5)

178

15.2(12.4–18.0)

< 0.001*

Woken by attack of cough

250

11.1(8.9–13.4)

289

12.9(10.3–15.6)

229

19.5(16.3–22.8)

< 0.001*

Current asthma

162

7.2(5.6–8.9)

185

8.3(6.5–10.1)

131

11.3(9.0–13.7)

< 0.001*

Asthma attack

139

6.2(4.7–7.8)

158

7.0(5.3–8.8)

113

9.7(7.6–11.8)

0.001*

Medications for asthma

139

6.2(4.8–7.6)

158

7.1(5.4–8.7)

120

10.4(8.3–12.4)

< 0.001*

Physician-confirmed asthma

122

5.5(4.1–6.9)

136

6.1(4.7–7.6)

101

8.7(7.0–10.4)

0.005*

Allergic Rhinitis

710

31.6(28.4–34.7)

553

24.7(22.2–27.2)

281

23.9(21.1–26.8)

< 0.001*

Airway hyperresponsiveness

956

42.2(38.1–46.3)

795

35.8(31.7–39.9)

439

37.3(32.7–41.9)

0.001*

Eczema

276

12.3 (10.2–14.4)

209

9.4(7.7–11.0)

120

10.3(8.0–12.6)

0.012*

a: Prevalence estimates were weighted using normalized cross-sectional weights

¥ χ2 test

*P < 0.05

The prevalence of airway hyperresponsiveness among people with higher education is higher than others (P-value < 0.05). In contrast, the prevalence of asthma-like symptoms, wheezing with dyspnea, wheezing in the absence of colds, chest tightness, nocturnal dyspnea and nocturnal cough were significantly higher among illiterate people than others (P-value< 0.05)(Table 4).
Table 4

Prevalence of Asthma Symptoms and Other Allergic Conditions According to Education level

Asthma symptoms and other allergic conditions

Education level b

Illiterate

Low

Moderate

High

P-value¥

Yes

%a(95% CI)

Yes

%a(95% CI)

Yes

%a(95% CI)

Yes

%a(95% CI)

Asthma-like symptoms

72

23.8(18.3–29.3)

243

15.6(12.0–19.1)

333

16.4(13.4–19.4)

309

22.0(16.5–27.4)

0.009*

Wheezing

46

15.1(10.3-20.0)

175

11.2(8.5–14.0)

231

11.4(9.2–13.7)

219

15.7(11.2–20.1)

0.050

Wheezing with shortness of breath

49

16.8(11.9–21.6)

159

10.3(8.3–12.4)

223

11.1(9.1–13.1)

191

13.6(10.0–17.3)

0.038*

Wheezing in the absence of a cold

47

16.1(11.2–21.0)

151

9.9(7.9–12.0)

212

10.7(8.6–12.8)

179

12.9(9.8–15.9)

0.025*

Waking with tightness in the chest

54

17.8(12.6–22.9)

164

10.5(8.4–12.6)

219

10.7(8.7–12.7)

182

12.8(9.4–16.2)

0.019*

Woken by an attack of breathlessness

49

16.1(11.6–20.7)

137

8.8(7.0–10.7)

193

9.4(7.6–11.3)

146

10.2(7.5–12.8)

0.013*

Woken by attack of cough

63

20.8(15.5–26.1)

188

12.0(9.2–14.8)

251

12.3(9.9–14.7)

200

13.8(10.5–17.1)

0.017*

Current asthma

35

11.6(7.5–15.7)

124

8.0(6.3–9.7)

154

7.6(6.2–9.1)

145

9.9(5.8–14.1)

0.260

Asthma attack

30

9.9(6.1–13.7)

102

6.5(5.0–8.1)

138

6.8(5.5–8.1)

124

8.5(4.4–12.5)

0.341

Medications for asthma

31

10.2(6.5–13.9)

116

7.5(5.8–9.2)

127

6.3(5.0–7.5)

127

8.7(5.0–12.4)

0.217

Physician-confirmed asthma

28

9.3(5.6–13.0)

100

6.5(4.9–8.1)

114

5.6(4.5–6.8)

101

7.0(4.5–9.4)

0.254

Allergic Rhinitis

78

24.8(19.9–29.7)

430

27.4(24.5–30.3)

525

25.6(23.1–28.2)

428

29.7(26.2–33.2)

0.098

Airway hyperresponsiveness

108

34.0(27.6–40.4)

563

35.8(32.2–39.3)

733

35.7(32.1–39.4)

651

45.2(38.8–51.7)

0.001*

Eczema

42

13.3(9.2-17.3)

152

9.8(8.0–11.5)

187

9.1(7.4–10.8)

197

13.7(10.7–16.7)

0.001*

a: Prevalence estimates were weighted using normalized cross-sectional weights

b: Low educational level (primary school & middle school), moderate educational level (high school and associated degree), and high educational level (bachelor, master and doctorate degree)

¥ χ2 test

*P < 0.05

Current asthma, wheezing with dyspnea, wheezing in the absence of colds, nocturnal cough, asthma attacks and medications for asthma were more prevalent in urban areas compared to rural areas (P-value < 0.05).It is worth to point out that the prevalence of current asthma, asthma-like symptoms, wheezing, nocturnal cough, medications for asthma and physician-confirmed asthma were significantly higher in smokers than non-smokers (P-value < 0.05). Moreover, AR, airway hyperresponsiveness and eczema among smokers were more prevalent (P-value< 0.05) (Table 5). The results of the adjusted model confirm these findings, except for relationship between signs of asthma and education (Table 6).
Table 5

Prevalence of Asthma Symptoms and Other Allergic Conditions According to Region and Active smoking

Asthma symptoms and other allergic conditions

Region

Active smoking

Urban

Rural

P-value¥

Yes

NO

P-value¥

Yes

%a (95% CI)

Yes

%a(95% CI)

Yes

%a(95% CI)

Yes

%a(95% CI)

Asthma-like symptoms

968

19.7 (16.3–23.2)

91

13.7(7.4–20.0)

0.133

201

23.1(18.6–27.6)

839

18.0(14.8–21.2)

0.010*

Wheezing

670

13.7 (11.2–16.3)

58

8.9(4.3–13.5)

0.110

150

17.3(13.5–21.1)

560

12.0(9.7–14.4)

0.002*

Wheezing with shortness of breath

625

13.0 (10.8–15.2)

49

7.1(4.2–10.0)

0.005*

121

14.1(11.1-17.2)

538

11.7(9.6–13.7)

0.107

Wheezing in the absence of a cold

608

12.8 (10.5–15.1)

48

7.1(4.0–10.2)

0.012*

117

13.8(10.7-17.0)

527

11.5(9.4–13.7)

0.132

Waking with tightness in the chest

630

12.8 (10.5–15.1)

60

8.9(5.3–12.5)

0.102

125

14.4(11.2–17.5)

554

11.8(9.6–14.0)

0.106

Woken by an attack of breathlessness

528

10.7 (8.8–12.6)

52

7.6(4.6–10.7)

0.129

104

12.0(9.3–14.6)

466

9.9(8.1–11.7)

0.115

Woken by attack of cough

706

14.2 (11.8–16.7)

62

9.1(5.6–12.6)

0.033*

143

16.4(13.1-19.7)

613

12.9(10.6–15.3)

0.033*

Current asthma

447

9.1 (7.4–10.8)

31

4.5(2.3–6.8)

0.008*

103

11.9(9.1-14.7)

367

7.8(6.1–9.4)

0.004*

Asthma attack

385

7.8 (6.2–9.4)

25

3.5(1.6–5.5)

0.006*

84

9.7(7.2-12.2)

321

6.8(5.2–8.4)

0.030*

Medications for asthma

387

7.9 (6.4–9.4)

30

4.4(2.2–6.5)

0.026*

85

9.8(7.4-12.3)

326

6.9(5.4–8.4)

0.026*

Physician-confirmed asthma

329

6.7 (5.5–7.9)

30

4.5(1.9–7.2)

0.204

72

8.3(6.1–10.6)

280

6.0(4.8–7.1)

0.031*

Allergic Rhinitis

1323

26.7 (24.5–29.0)

190

27.1(21.4–32.7)

0.907

286

32.8(29.0–36.7)

1209

25.5(23.3–27.7)

< 0.001*

Airway hyperresponsiveness

1913

38.3 (34.5–42.2)

277

40.8(30.9–50.7)

0.646

393

44.6(39.5–49.7)

1767

37.3(33.5–41.1)

0.006*

Eczema

510

10.3 (8.7–12.0)

95

13.5(9.8–17.2)

0.099

121

13.7(10.9–16.4)

472

10.0(8.5–11.6)

0.005*

a: Prevalence estimates were weighted using normalized cross-sectional weights

¥ χ2 test

*P < 0.05

Table 6

Multiple logistic regression analysis of risk factors for Current asthma and other allergic conditions ¥

Asthma symptoms and other allergic conditions

Male a

Age b

Education c

Urban d

Smokers e

30–44

45–65

Low

Moderate

High

OR(95% CI)

OR(95% CI)

OR(95% CI)

OR(95% CI)

OR(95% CI)

OR(95% CI)

OR(95% CI)

OR(95% CI)

Asthma-like symptoms

1.03(0.88–1.20)

1.17(0.98–1.40)

2.16(1.70–2.74)*

0.82(0.57-1.18)

1.01(0.70–1.47)

1.47(0.89–2.43)

1.43(0.79–2.61)

1.39(1.08–1.78)*

Wheezing

0.99(0.82–1.21)

1.17(0.95–1.44)

1.99(1.50–2.64)*

0.98(0.64-1.52)

1.15(0.72–1.83)

1.68(0.92–3.07)

1.42(0.76–2.64)

1.55(1.17–2.04)*

Wheezing with shortness of breath

1.04(0.86–1.27)

1.25(1.01–1.54)*

1.90(1.44-2.51)*

0.76(0.52-1.10)

0.89(0.59–1.35)

1.11(0.66–1.88)

1.78(1.16–2.75)*

1.25(0.96-1.64)

Wheezing in the absence of a cold

0.97(0.80–1.16)

1.19(0.96–1.47)

2.27(1.73–2.98)*

0.84(0.57-1.24)

1.06(0.69–1.64)

1.23(0.76–2.22)

1.69(1.02–2.82)*

1.25(0.93-1.67)

Waking with tightness in the chest

1.04(0.86–1.26)

1.30(1.05–1.61)*

2.06(1.59-2.67)*

0.74(0.51-1.10)

0.84(0.55–1.28)

1.04(0.62–1.74)

1.48(0.88–2.49)

1.24(0.94–1.65)

Woken by an attack of breathlessness

1.07(0.87–1.33)

1.12(0.89–1.40)

2.00(1.49–2.70)*

0.68(0.47-1.00)

0.82(0.54–1.22)

0.92(0.55–1.53)

1.39(0.85–2.28)

1.22(0.92–1.61)

Woken by attack of cough

0.94(0.79–1.12)

1.18(0.97–1.44)

2.01(1.58–2.56)*

0.72(0.49-1.05)

0.83(0.57–1.20)

0.95(0.60–1.48)

1.65(1.01–2.68)*

1.38(1.06-1.80)*

Current asthma

0.88(0.73–1.06)

1.19 (0.95–1.50)

1.71 (1.28–2.28)*

0.88(0.56-1.39)

0.87(0.55–1.39)

1.17(0.58–2.36)

2.08(1.21–3.56)*

1.55(1.13-2.13)*

Asthma attack

0.83(0.68–1.02)

1.17(0.91–1.50)

1.76(1.31–2.36)*

0.87(0.55-1.37)

0.95(0.59–1.52)

1.23(0.58–2.61)

2.24(1.20–4.17)*

1.41(0.99-1.99)

Medications for asthma

0.85(0.69–1.06)

1.14(0.90–1.46)

1.77(1.32–2.37)*

0.93(0.58-1.49)

0.82(0.51–1.32)

1.18(0.58–2.38)

1.80(1.05–3.10)*

1.40(1.01-1.95)*

Physician-confirmed asthma

0.86(0.68–1.07)

1.11(0.82–1.51)

1.50(1.06–2.13)*

0.82(0.50-1.36)

0.72(0.43–1.21)

0.91(0.47–1.77)

1.45(0.78–2.72)

1.31(0.95–1.81)

Allergic Rhinitis

0.72(0.63–0.81)*

0.70(0.59-0.82)*

0.66(0.53-0.82)*

1.03(0.76-1.40)

0.91(0.65–1.28)

1.13(0.78–1.63)

0.99(0.73–1.35)

1.35(1.10–1.66)*

Airway hyperresponsiveness

0.71(0.63–0.80)*

0.74(0.62-0.88)*

0.83(0.67-1.04)

1.14(0.82–1.56)

1.15(0.83–1.59)

1.74(1.15–2.64)*

0.88(0.60-1.30)

1.30(1.05–1.60)*

Eczema

0.78(0.64-0.93)*

0.70(0.57-0.88)*

0.79(0.57-1.08)

0.69(0.46–1.02)

0.66(0.43–1.03)

1.08(0.67–1.74)

0.70(0.49–0.99)*

1.33(1.03-1.71)*

¥ Results are from multiple logistic regression analysis with normalized cross-sectional weights (adjusted for sex, age, education, region and active smoking)

a: female, b: 20–29 years, c: Illiterate, d: rural and e: non-smokers is referent category

*P < 0.05

Prevalence of asthma symptoms and other allergic conditions in different counties

Figures 1 to 4 shows the prevalence of current asthma and other allergic conditions in different counties of Khuzestan Province. As regards the prevalence of current asthma, Ahvaz, Dasht-e Azadegan, Khorramshahr, Dezful, Gotvand and Bagh-e Malek, reported the highest prevalence rate (Fig. 1). With regard to the prevalence of AR, the counties of Shush, Dasht-e Azadegan, Masjed Soleyman and Ramshir were the most prevalent (Fig. 2). Also, among different counties, Ahvaz, Dasht-e Azadegan, Dezful, Masjed Soleyman and Ramhormoz had the highest prevalence of airway hyperresponsiveness (Fig. 3). Finally, the counties of Ahvaz, Dezful and Ramshir, had the highest prevalence of eczema (Fig. 4).
Fig. 1

Prevalence of current asthma in Khuzestan province

Fig. 2

Prevalence of allergic rhinitis in Khuzestan province

Fig. 3

Prevalence of hyperresponsiveness in Khuzestan province

Fig. 4

Prevalence of eczema in Khuzestan province

Discussion

This study was conducted to evaluate the prevalence of asthma, asthma symptoms, AR, eczema and airway hyperresponsiveness in Khuzestan Province as a major industrial and polluted area in Iran and in the Middle East.

The prevalence of current asthma, asthma-like symptoms, AR and airway hyperresponsiveness were estimated to be 8.5, 19.0, 26.8, and 38.7%, respectively. The most common symptoms of asthma were nocturnal cough, chest tightness and wheezing.

A cross-sectional study in 70 countries worldwide found that the global prevalence of physician-confirmed asthma, clinical/treated asthma and adult wheezing were 4.3, 4.5 and 8.6, respectively [27].The prevalence of adult asthma is estimated to be between 1 and 5% in several highly populated, industrialized countries in Asia, including India, China, Singapore, Malaysia, Nepal, Pakistan and Bangladesh [28, 29, 30]. It seems that the prevalence of adult asthma in Khuzestan province is higher than the reported prevalence in studies in the several Asian countries.

Another study in adults aged 20–40 years in Riyadh (Saudi Arabia) using the ECRHS questionnaire showed that the prevalence of asthma confirmed by a physician was 11.3%, the prevalence of wheezing in the last 12 months was 18.2%, and the prevalence of drug use for asthma was 10.6% [31]. Given the geographical proximity of Khuzestan Province to the Saudi Arabian desert and the exposure of Khuzestan Province and Saudi Arabia to dust storms, the prevalence of asthma and asthma symptoms in Khuzestan Province is approximately the same as in Riyadh, Saudi Arabia. Based on the study of Fazlollah et al. in Iran [9], the outcomes of current asthma (8.5% vs. 4.7%) and asthmatic symptoms (19.0% vs. 8.9%) in Khuzestan Province were almost twice as high as in Iran.

Considering the results of other countries and nation-wide studies in Iran, Khuzestan Province appears to have a high prevalence of asthma and asthma-related symptoms. Increased prevalence of asthma in Khuzestan Province can be due to high allergic load due to vegetation, geographic location and topography, heavy industries including oil and gas, petrochemicals and steel, and proximity to the Arabian Peninsula and the emerging reindeer resources in the neighboring countries, including Iraq which has been causing the escalation and aggravation of the reindeer storms in the province for several years.

The results of this study showed that the prevalence of physician-confirmed asthma is lower than the prevalence of current asthma. The reason for this can be lack of awareness or commitment of all doctors to the diagnostic guide for asthma, which leads to less asthma diagnosis, or the use of a number of doctors from terminologies other than asthma, such as allergies in humans.

The prevalence of current asthma, asthma symptoms and physician-confirmed asthma was not different between men and women, which is consistent with the results of the study of Fazlollahi et al. (2015) [9]. Indeed, endogenous and exogenous sex steroid hormones cause women to develop asthma after adolescence [32]. Despite the persistence of gender discordance in childhood asthma [33], there is no evidence of asthma and gender in adults [9].

In contrast, the prevalence of AR and airway hyperresponsiveness in women was significantly higher than that of men. According to the results of other studies, the airway hyperresponsiveness of children in boys is higher. However, it is more severe in girls [34, 35, 36]. Most studies on the relationship between age and sex with allergic conditions appear to have been conducted in children, and there is little information in this regard in adults.

The results of this study showed that the prevalence of current asthma, asthma symptoms and physician-confirmed asthma increases with higher age, and in contrast to allergic conditions including AR, the airway hyperresponsiveness and eczema decrease with higher age.

Although the new onset of asthma at any age may occur in adults, higher prevalence of asthma at older ages can be due to exposure to environmental factors. However, allergies and atopies as risk factors for asthma are found in other studies to decrease in higher ages [34].

The prevalence of current asthma, wheezing with shortness of breath, wheezing in the absence of colds, nocturnal cough, asthma attack and medications for asthma were significantly higher in cities than in rural areas. In this regard, the results of our study are in line with the results of two studies by Śliwczyński et al. [37] and Kupryś-Lipińska et al. [38] in Poland.

It seems that the reason for the high prevalence of asthma in the city relative to the village in Khuzestan Province is the existence of numerous industries, including the oil and gas extraction industries, petrochemicals, steel and sugar cane and carbon black in the city.

Among the urban factors potentially responsible for increasing the prevalence of asthma and atopic diseases, air pollution resulting from industry and traffic is often cited [38].

The use of medications for asthma was significantly different for urban citizens and villagers, which probably indicates that more people are aware of the use of prescription drugs, especially respiratory inhalers, and more adherence to prescription drugs.

In this study, the prevalence of current asthma, asthma symptoms, wheezing, nocturnal cough and asthma medication was significantly higher in smokers than non-smokers. Various studies similar to ours have shown an association between cigarette smoking and marijuana with asthma and asthma symptoms [7, 8, 9, 39, 40, 41].

Among the counties of Khuzestan Province, there was a significant difference in the prevalence of current asthma, AR and airway hyperresponsiveness. It seems that this variety suggests that local factors such as ethnicity, race, genetics and various environmental factors alter the prevalence of these conditions in different locations. The reason for this variation in the prevalence of asthma, AR, and airway hyperresponsiveness between different areas of the province can be a topic for future research.

Finally, given that in most epidemiological studies, information about the main symptoms of asthma are filled in the questionnaire by patients, the method is likely to have strengths and weaknesses. One of their limitations is the problem of patients to remember symptoms, as well as individual’s understanding of the disease. Despite efforts to ensure valid responses to questionnaire items about asthma and its symptoms, there may still be controversy among people. In some cases, a positive answer to a questionnaire item does not necessarily indicate asthma. For example, wheezing in a person does not always denote asthma and is also seen in other diseases. However, with the use of a set of asthma symptoms and the confirmation of asthma by a doctor, it seems that a certain credibility can be obtained for the results.

Conclusion

The high prevalence of asthma in Khuzestan province can be attributed to the high load of allergies resulting from dust storms and the occurrence of respiratory crises and frequent thunderstorm asthma in recent years. This phenomenon requires more attention and planning of health authorities and policy-makers at the level of primary prevention, including environmental measures to prevent and reduce the burden of asthma in the coming years. Due to the high prevalence of chemoprophylaxis as a medical treatment in people susceptible to asthma (rhinitis, increased airway susceptibility), attention can also be paid to preventing asthma, although the results are not conclusive. In sum, surveillance studies are necessary to monitor the trends of the prevalence of asthma in this province.

Notes

Acknowledgements

The authors are grateful to all respondents in this study.

Funding

This work was funded by Ahvaz Jundishapur University of Medical Sciences (Grant Number: APRD-9504). Hereby, we acknowledge the Deputy Vice-Chancellor of Research and Technology Affairs of Ahvaz Jundishapur University of Medical Sciences.

Availability of data and materials

Data sharing: Participant level data are available from the corresponding author.

Authors’ contributions

EI, BC and MD conceived and designed the project. MD and FM acquired the data. MD analyzed and interpreted the data. MD, HR and MHS wrote the paper. All authors approved the final text.

Ethics approval and consent to participate

After obtaining the licenses required for conducting the research and coordinating with the authorities, the written informed consent of the respondents was received on their voluntary participation in the study. We assured them that their information would remain confidential. Ethics License of the present study was acquired from the Ethics Committee of Ahvaz Jundishapur University of Medical Sciences (Code of ethics: IR.AJUMS.REC.1395.352).

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

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© The Author(s). 2019

Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.

Authors and Affiliations

  • Esmaeil Idani
    • 1
  • Hanieh Raji
    • 1
  • Farzan Madadizadeh
    • 2
    • 3
  • Bahman Cheraghian
    • 4
  • Maryam Haddadzadeh Shoshtari
    • 1
  • Maryam Dastoorpoor
    • 5
    Email author
  1. 1.Air Pollution and Respiratory Diseases Research CenterAhvaz Jundishapur University of Medical SciencesAhvazIran
  2. 2.Research Center of Prevention and Epidemiology of Non-Communicable Disease, Department of Biostatistics and EpidemiologySchool of Public Health, Shahid Sadoughi University of Medical SciencesYazdIran
  3. 3.Department of Epidemiology and BiostatisticsSchool of Public Health, Tehran University of Medical SciencesTehranIran
  4. 4.Department of Epidemiology and BiostatisticsSchool of Public Health, Ahvaz Jundishapur University of Medical SciencesAhvazIran
  5. 5.Department of Epidemiology and Biostatistics, Air Pollution and Respiratory Diseases Research CenterAhvaz Jundishapur University of Medical SciencesAhvazIran

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