Open Access Highly Accessed Open Badges Original research

The most common aeroallergens in a tropical region in Southwestern Iran

Mohammad-Ali Assarehzadegan*, AbdolHossein Shakurnia and Akram Amini

Author Affiliations

Immunology department, Faculty of Medicine, Jundishapur University of Medical Sciences, Ahvaz, Iran

For all author emails, please log on.

World Allergy Organization Journal 2013, 6:7  doi:10.1186/1939-4551-6-7

The electronic version of this article is the complete one and can be found online at:

Received:31 October 2012
Accepted:19 March 2013
Published:4 April 2013

© 2013 Assarehzadegan et al.; licensee BioMed Central Ltd.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.



Respiratory allergies are the most important public health issues in the world. They are caused by aeroallergens which play great role in pathogenesis of respiratory allergic diseases.


The current study was conducted to evaluate the prevalence of positive skin test for various aeroallergens among allergic patients in Ahvaz, southwest Iran. 299 participants with allergic rhinitis (seasonal or perennial) were selected. Skin prick test using twenty three common allergen extracts was performed on all patients.


The overall frequency of sensitization to any allergen was 85.6%. In outdoor allergens the most prevalent aeroallergen category was weeds (89%) followed by tree and grasses, and in indoor allergens, mites (43%) were the most prevalent aeroallergen. The mean and median numbers of positive test reactions among those with positive test responses were 11.5 and 13.0, respectively. 84% of patients were poly-sensitised and about 50% of them were sensitised to more than twelve different allergens.


The results of the study revealed that prevalence of the skin prick reactivity to weed pollens is significant in southwest Iran and multiple sensitizations were common.

Aeroallergen; Prevalence; Allergy; Tropical; Sensitization


Respiratory allergies, particularly allergic rhinitis, are among the most common allergies within various populations all over the world and the incidence is expected to increase [1]. Prevalence of respiratory allergy has been determined between 10-30% in different studies [2-5].

Aeroallergens play great role in pathogenesis of respiratory allergic diseases. Pollens, molds and pets are the main sources of allergens [5,6]. The occurrence of allergic rhinitis varies among different countries, as well as different regions within a country, which could be related to the type of allergens existing in those regions [6-8]. Moreover, for an efficient diagnosis of the specific allergy and an efficient treatment, it is very important to identify common aeroallergens in the area [3,6,9].

Ahvaz, the capital of Khuzestan province, is located in the southwest of Iran with an approximate population of 1.4 millions (census 2006). Ahvaz has a desert climate with long, extremely hot summers and mild, short winters. It is consistently one of the hottest cities in Iran, with summer temperatures regularly at least 45 degrees Celsius, sometimes exceeding 50 degrees Celsius with many sandstorms and dust storms common during the summer period while in winters the minimum temperature could fall around +5 degrees Celsius. Winters in Ahvaz have no snow. The average annual rainfall is around 230 mm. In our region the dust storm was a usual phenomenon in some days in spring and summer but now it may occur almost all of the year [10-12].

Due to the lack of published studies that have been conducted on sensitization to aeroallergens in the southwest of Iran, the prevalence of common aeroallergens is still not fully understood in the region. The current study was therefore conducted to determine the prevalence of positive skin test for various aeroallergens among allergic patients in the city of Ahvaz. It was hoped that the results would be useful to health system policy-makers in planning respiratory allergic diseases prevention programs in the region.


Study population

This study was conducted as the cross-sectional study on candidates participating in Immunology department of Jundishapur University of Medical Sciences and Khuzestan Jahad Daneshgahi Medical Center from July 2010 to September 2011. Two hundred and ninety nine participants with allergic rhinitis (seasonal or perennial) were selected based on ISAAC [13] (The International Study of Asthma and Allergies in Childhood) questioner. The study was conducted according to good clinical practices and the Declaration of Helsinki. The Ethics Committee of Ahvaz Jundishapur University of Medical Sciences was approved the study protocol and an official agreement from all of patients was obtained before the study.

The diagnosis of current allergic rhinitis was established by clinical examination and a combination of having a problem with sneezing or a runny or blocked nose in the absence of a cold or flu and a positive SPT reaction (diameter >3 mm more than negative control) to at least one of the twenty three aeroallergens. A study questionnaire requesting demographic data, family history of atopy and respiratory symptoms was also administered to each patient.

Skin prick test and total IgE

Skin prick test using twenty three common allergen extracts (HollisterStier, Spokane, WA, USA) was performed on all patients in accordance with previous study [6] (Table 1). In this study, allergens were selected based on the plant species existing in our region and other possible allergens were identified from consulting ear, nose and throat specialists [14]. Seven different types of weeds (Amaranthus palmeri, Amaranthus retroflexus, Kochia scoparia, Chenopodium album, Salsola kali, Plantago lanceolata, Artemisia vulgaris) and four grasses (Poa pratensis, Cynodon dactylon, Lolium perenne, Sorghum halepense) pollen extracts along with four trees (Acacia longifolia, Prosopis juliflora, Eucalyptus globulus, Fraxinus americana) extracts; four molds (Alternaria Mix, Aspergillus fumigatus, Cephalosporium acremonium, Penicillium Mix), two mites (Dermatophagoides pteronyssinus, Dermatophagoides farinae), house dust mix, and a mixture of two different cockroach (Periplaneta americana and Blattela germanica) extracts were used.

Table 1. Prevalence of positive skin prick test and total IgE among allergic rhinitis patients

Skin prick tests were performed under physician’s supervision. In this test, allergen extracts were put on patients’ inner forearms and irritation of the epidermis was caused by prick method using the lancet and the result was observed after 15 minutes. Next, the diameter of patient’s skin reaction was measured and compared with negative (glycerin saline) and positive (histamine hydrochloride, 10 mg/ml) controls. Patients with a wheal diameter >3 mm were considered positive compared with negative and positive controls. Patients using drugs affecting skin test were excluded from the study.

In the end, enzyme immunoassay method (ELISA) was performed to collect the total IgE serum. Serum samples were stored at −20°C until the analysis. ELISA test was performed in duplicate by using the commercial kit (DIPLUS, Canada). Based on manufacturer’s instruction, samples with more than 100 IU/ml total IgE was considered elevated.

Statistical analysis

In the end, all the data was analyzed by SPSS Version 18.0 software (Version 11.0 of SPSS software) (Chicago, USA). Chi-square test was used to compare the relationship between variables. p value less than 0.05 was considered significant.


Demographic characteristics of subjects are presented in Table 2. The mean duration of allergic rhinitis was 6.78 (±3.89) years. Symptoms of active conjunctivitis and allergic rhinitis were found in 172 (72.8%) of patients (Table 2). Among patients with positive for SPT, seasonal pattern was seen in 77.7% of the patients, perennial pattern in 22.3%. In addition, 193 patients (64.5%) had positive family history of allergy.

Table 2. Characteristics of patient population

The overall frequency of sensitization to any allergen was 85.6% (256/299), whereas 14.4% (43/299) of patients did not react to any of the tested allergens.

In outdoor allergens the most prevalent aeroallergen category was weeds (89 %) followed by tree and grasses, and in indoor allergens, mites (43%) and cockroaches (30.1) were the most and least prevalent aeroallergen types, respectively (Table 1).

Prevalence of positive skin test to any allergen is shown in Table 1. Skin reaction to Salsola kali was the most common among the allergens (72.9%). Other prevalent weeds were Amaranthus retroflexus (70.9%), Amaranthus palmeri (68.6%), Chenopodium album (67.9%), and Kochia scoparia (66.6%). Ninety five percent of patients with positive skin prick test for outdoor allergens were also sensitized to at least to one of these five allergens, which belong to the Amaranthaceae and Chenopodiaceae families.

Among tree pollen, the most prevalent allergen was Prosopis juliflora with 65.9% and the least prevalent was Eucalyptus globulus with 21.7%.

Among indoor allergens the most prevalent allergen was Dermatophagoides farinae (32.1%). Skin reaction to the mixture of cockroach extracts of Americanus and Germanium has been found in 30.8% of patients.

The mean and median numbers of positive test reactions among those with positive test responses were 11.5 and 13.0, respectively. The mean age of men and women with positive SPT were 33.69 ± 14.61 and 31.92 ± 13.05, respectively. However, the differences were not significant (p=0.9). Eighty four percent of patients were poly-sensitised (positive skin reaction to more than two allergens) and about 50% of them were sensitised to more than twelve different allergens (Figure 1).

thumbnailFigure 1. Percentage of patients according to number of positive skin test reactions.

As shown in Table 3, the analysis of the positive skin prick test rate according to age groups revealed, with the exception of the grasses pollen allergens, there is no significant difference between sensitization to selected allergens among 4 age groups and for 4–17 age group compared with 31–45 age groups.

Table 3. Age distribution of patients with positive skin prick test to indoor and outdoor allergens

Among outdoor allergens sensitization to P. juliflora and E. globulus [(p<0.04) and p<0.009), respectively], and among indoor allergens skin test reactivity to D. pteronyssinus (p<0.03) was significantly prevalent in allergic rhinitis patients with seasonal pattern (Table 3).

The mean total IgE serum was determined as 177.77 IU/ml. The mean total of IgE serum in men (174.31 IU/ml) was significantly greater than women (129.45 IU/ml) (p<0.01). Moreover, the mean total IgE serum among patients with positive SPT was significantly higher the one than in patients without positive SPT (177.77 vs. 4.56 IU/mL, p < 0.001).


Based on the results, 85.6% of patients with active rhinitis were responsive to at least one aeroallergen, which is found to be a higher percentage compared to other studies [1,15,16]. In the conducted study, 64.5% of patients with active rhinitis had family history of atopy (allergy), which is in agreement with some studies [3,15]. A family history of atopy is an established risk factor for allergy particularly allergic rhinitis [3,17].

The results of skin prick test in allergic rhinitis patients indicated the high incidence of allergy to plant pollens and the most common was found to be S. kali (Russian thistle) pollen with 72.9%. Allergy to S. kali pollen was reported as one of the most causes of allergic rhinitis in neighboring regions [6,18-21]. Prosopis juliflora (Mesquite) pollen (65.9%) was the most common sensitizing tree pollen in the present study. This is in accordance with previous studies in countries neighboring to our region [17,19,21]. Mesquite is abundant in Khuzestan and other region with hot and humid climate, where it is planted as shade and ornamental tree or for binding sand. Surprisingly, in spite of very limited presence of Fraxinus americana (Ash) tree in Khuzestan province, the Ash pollen was the second most common sensitizing tree pollen (52.5%) in our study. It may be due to confirmed cross-reactivity between pollens of ash and olive [22-24], a close taxonomical relationship tree, which is cultivated in orchards and sometimes in parks and gardens throughout the area. It is also possible that the high rate of sensitization to ash pollen is due to cross-reactivity among pollens of ash and grasses and weeds, as has been previously reported [22-24]. It could be supported by our findings that indicated a significant correlation between sensitization to pollens of ash and studied grasses or weeds (p<0.001) (data not shown).

Moreover, among other selected outdoor allergens, allergenic molds were found to be less prevalent, which in accordance to previous studies [9,17,21,25]. However, it seems that the exact prevalence of sensitization to molds is difficult depending on more variability of fungal antigens than other allergens, extracts used, and species tested [26,27].

Around 95% of patients with positive skin prick test were sensitive to at least one pollen type. This finding is also supported by studies conducted in other regions [3,5,15,25]. Recent studies have shown that high incidence of respiratory allergy is related to the global increase of CO2 and other greenhouse gasses, which leads to an increase in the production of pollens by plants, allergenicity of pollens, increase in production period and distribution of pollens, and changes in plant pattern in areas [28,29]. There is no doubt that environmental factors especially air pollution play an important role in the increasing allergies in the worldwide. In recent years, due to severe geographical and climate changing, the dust storm becomes a common phenomenon in our region [10-12]. To this date, there is no data available to report the effects of Middle East storm on public health particularly allergic diseases in this area. However, recently increasing evidence has been accumulated that exposure to particulate matters which contained various aeroallergens such as pollens and fungal spore, during dust storms could increase respiratory allergic diseases [11,12,30-32].

In recent years, due to climate change, the dust storm has become a common phenomenon in Khuzestan province [10-12]. To this date, there is no available data on the probable effects of Middle East storm on public health particularly allergic diseases in this area. Due to the lack of data, further studies are required to investigate the effect of dust storm on hospital visits, admission frequency, respiratory allergic diseases onset and mortality in local resident people.

In our research, prevalence of positive skin prick test to Dermatophagoides farinae and Dermatophagoides pteronyssinus was found to be 32.1% and 27.1% respectively, which was lower than the results of other studies [9,15]. Regarding to the optimum condition of 60% humidity and 25°C temperature, high incidence of mite allergy is expected in humid regions, such as Singapore [33], Malaysia [15] and Thailand [34]. Unexpectedly, this particular allergy was also found in hot and dry regions, like Sistan and Baluchestan province of Iran [9], Qatar [35] and Kuwait [17,21]. It may be associated with an increase in usage of air conditioners inside the houses which make good environment for mites to grow and increase exposure to indoor allergens [6,36,37].

In addition, prevalence of allergy to cockroach was determined to be 30.8%, which is higher than results of other studies [6,25,38,39], while the sensitization to cockroach allergens is one of the most common indoor allergens in some regions with similar weathers to our region [17,35,40].

The most of SPT positive patients (85%) were reactive to two or more allergens. This is in accordance with earlier reports [6,17,18,25]. It seems multi-allergen sensi-tization may be due to several factors, including cross-reactivity among allergens belonging to close reservoirs, which reflects the presence of common allergenic epitopes in different but botanically close plant species, long-term exposures to close phylogenic source of allergens, and interactions of genetic and environmental factors [6,17,18,25,37]. As the use of a panel of plant allergens belongs to closely related species; it may be an explanation of the high rate of multi-sensitization in our study.

In this study, no significant statistical relationship was found between the positive skin prick test and patient’s gender. Our data were similar with some studies [21,41], but in some others higher prevalence of allergy was seen in men compared to women [3,25,37,42]. This phenomenon cannot be explained since there is no evidence showing that men are more exposed to pollens than women. This is considerable since in some countries, such as Kuwait and Iran [17,43], men usually spend more time outdoors than women; therefore, they are more exposed to the outdoor allergens. However, our results show no significant difference between incidence of outdoor allergens and patient’s gender.

Traditionally, allergic rhinitis has been subdivided into seasonal and perennial types based on time and duration of symptom occurrence. In general, mites, cockroach and some molds are considered as perennial allergens, whereas weeds, grasses and trees are considered as seasonal allergens. In our studies, there was no significant correlation between selected allergens and pattern of allergenic rhinitis. The same results were obtained in some previous studies [44,45]. This may be due to several possible reasons: (1) it is difficult for patients to differentiate between seasonal or perennial allergies with the common cold and some active infections [44], (2) in tropical area with mild fall and winter, the exposure to some pollens is long standing because of increase in production period and distribution of pollens [28,29,44], (3) nasal inflammation is extended for weeks after pollen contact in patients with seasonal rhinitis [46], (4) the exposure to some perennial allergens is not comparable over the year and symptoms could be of short duration [44], and (5) in our study, the majority of patients (about 85%) are polysensitized to pollen and perennial allergens.

With exception of grasses, the analysis of date showed that there is no difference in the rates of positive skin prick test between younger and older allergic patients. However, some previous studies revealed that sensitization to some indoor allergens such as mites and cockroach is more common in younger patients [17,36]. It should be noted that in hot and dry climate area like Ahvaz city, the people spend most of their time inside buildings which have air conditioner, which may offer an explanation for high prevalence of indoor allergens in adults in present study [6,37].

In this study the mean total IgE serum in men was significantly higher than women (174.31 vs. 129.45) (p<0.01). Moreover, among skin prick test negative population, the average total IgE serum in men was greater than women. Elevated total IgE levels are usually associated to allergy, but it may be depend on various factors; such as parasitic infestations, smoking, pollution, local diet and different genetic background [25,47].


The study revealed that prevalence of the skin prick reactivity to outdoor allergens, particularly weed pollens, is significant in southwest Iran and multiple sensitizations was surprisingly common. Moreover, exposure to components of dust storm such as pollens and fungal spores may affect human health directly through allergic induction of respiratory disorders. However, further studies are needed to identify components of dust particles and define association of this phenomenon with the prevalence or exacerbation of respiratory allergic diseases in local resident population.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

MA, ASH and AA carried out data collection. MA and AA collated and analyzed statistics. MA drafted the manuscript. ASH finalized the manuscript. All authors read and approved the final manuscript.


This study was supported by Ahvaz Jundishapur University of Medical Sciences and Khuzestan Jahad Daneshgahi Medical Center.


  1. Pawankar R: Allergic Rhinitis and asthma: are they manifestations of one syndrome?

    Clin Exp Allergy 2006, 36:1-4. PubMed Abstract | Publisher Full Text OpenURL

  2. Civelek E, Soyer O, Gemicioglu B, Ekerel B: Turkish physicians- perception of allergic rhinitis and its impact on Asthma.

    Allergy 2006, 61:1454-1458. PubMed Abstract | Publisher Full Text OpenURL

  3. Kashef S, Kashef MA, Eghtedari F: prevalence of Aeroallergens in allergic Rhinitis in shiraz.

    Iran J Allergy Asthma Immunol 2003, 2:185-188. PubMed Abstract OpenURL

  4. Leynaert B, Neukirch F, Demoly P, Bousquet J: Epidemiologic evidence for asthma and rhinitis comorbidity.

    J Allergy Clin Immunol 2000, 106:S201-205. PubMed Abstract | Publisher Full Text OpenURL

  5. Singh AB, Kumar P: Aeroallergens in clinical practice of allergy in India. An overview.

    Ann Agric Environ Med 2003, 10:131-136. PubMed Abstract | Publisher Full Text OpenURL

  6. Fereidouni M, Farid Hossini R, Assarehzadegan MA, Jabberi Azad F, Varasteh A: skin prick test reactivity to common aeroallergens among allergic rhinitis patients in Mashhad,Iran.

    allergo et immunopathol 2009, 37:73-79. Publisher Full Text OpenURL

  7. Bartra J, Mullol J, del Cuvillo A, Davila I, Ferrer M, Jauregui I, Montoro J, Sastre J, Valero A: Air pollution and allergens.

    J Investig Allergol Clin Immunol 2007, 17:3-8. PubMed Abstract OpenURL

  8. Beggs PJ: Impacts of climate change on aeroallergens: past and future.

    Clin Exp Allergy 2004, 34:1507-1513. PubMed Abstract | Publisher Full Text OpenURL

  9. Khazaei HA, Hashemi SR, Aghamohammadi A, Farhoudi F, Rezaei N: The study of type 1 allergy prevalence among people of South-East of iran by skin prick test using common allergens.

    Iran J Allergy Asthma Immunol 2003, 2:165-168. PubMed Abstract OpenURL

  10. Keramat A, Marivani B, Samsami M: Climatic Change, Drought and Dust Crisis in Iran.

    WASET 2011, 57:10-13. OpenURL

  11. Miri A, Ahmadi H, Ghanbari A, Moghaddamnia A: Dust Storms Impacts on Air Pollution and Public Health under Hot and Dry Climate.

    IJEE 2007, 1:101-105. OpenURL

  12. Waness A, ABU El-Sameed Y, Mahboub B, Noshi M, Al-Jahdali H, Vast M, Mehta AC: Respiratory disorders in the Middle East: A review.

    Respiratory 2011, 16:755-766. OpenURL

  13. Worldwide variation in prevalence of symptoms of asthma, allergic rhinoconjunctivitis, and atopic eczema: ISAAC.

    Lancet 1998, 351:1225-1232. PubMed Abstract | Publisher Full Text OpenURL

  14. Seyyednejad S, Motamedi H: A review on native medicinal plants in Khuzestan, Iran with antibacterial properties.

    IJP 2010, 6:551-560. OpenURL

  15. Liam CK, Loo KL, Wong CM, Lim KH, Lee TC: Skin prick test reactivity to common aeroallergens in asthmatic patients with and without rhinitis.

    Respirology 2002, 7:345-350. PubMed Abstract | Publisher Full Text OpenURL

  16. Mirsaid-Ghazi B, Imamzadehgan R, Aghamohammadi A, Darakhshan-Davari R, Rezaei N: Frequency of Allergic Rhinitis in School-age Children (7–18 Years) in Tehran.

    Iran J Allergy Asthma Immunol 2003, 2:181-184. PubMed Abstract OpenURL

  17. Ezeamuzie CI, Thomson MS, Al-Ali S, Dowaisan A, Khan M, Hijazi Z: Asthma in the desert: spectrum of the sensitizing aeroallergens.

    Allergy 2000, 55:157-162. PubMed Abstract | Publisher Full Text OpenURL

  18. Aburuz S, Bulatova N, Tawalbeh M: Skin prick test reactivity to aeroallergens in Jordanian allergic rhinitis patients.

    East Mediterr Health J 2011, 17:604-610. PubMed Abstract OpenURL

  19. Al-Dowaisan A, Fakim N, Khan MR, Arifhodzic N, Panicker R, Hanoon A, Khan I: Salsola pollen as a predominant cause of respiratory allergies in Kuwait.

    Ann Allergy Asthma Immunol 2004, 92:262-267. PubMed Abstract | Publisher Full Text OpenURL

  20. Assarehzadegan MA, Sankian M, Jabberi Azad F, Noorbakhsh R, Varasteh A: Allergy to Salsola Kali in a Salsola Incanescens-rich Area: Role of Extensive Cross Allergenicity.

    Allergol Int 2009, 58:261-266. PubMed Abstract | Publisher Full Text OpenURL

  21. Ezeamuzie CI, al-Mousawi M, Dashti H, al-Bashir A, al-Hage M, al-Ali S: Prevalence of allergic sensitization to inhalant allergens among blood donors in Kuwait--a desert country.

    Allergy 1997, 52:1194-1200. PubMed Abstract | Publisher Full Text OpenURL

  22. Hemmer W, Focke M, Wantke F, Gotz M, Jarisch R: Ash (Fraxinus excelsior)-pollen allergy in central Europe: specifc role of pollen panallergens and the major allergen of ash pollen, Fra e 1.

    Allergy 2000, 55:923-930. PubMed Abstract | Publisher Full Text OpenURL

  23. Niederberger V, Purohit A, Oster JP, Spitzauer S, Valenta R, Pauli G: The allergen profile of ash (Fraxinus excelsior) pollen: cross-reactivity with allergens from various plant species.

    Clin Exp Allergy 2002, 32:933-941. PubMed Abstract | Publisher Full Text OpenURL

  24. Guerra F, Galan Carmen C, Daza J, Miquel R, Moreno C, Gonzalez J, Dominquez E: Study of sensitivity to the pollen of Fraxinus spp. (Oleaceae) in Cordoba, Spain.

    J Investig Allergol Clin Immunol 1995, 5:166-170. PubMed Abstract OpenURL

  25. Arbes SJ Jr, Gergen PJ, Elliott L, Zeldin DC: Prevalences of positive skin test responses to 10 common allergens in the US population: results from the third National Health and Nutrition Examination Survey.

    J Allergy Clin Immunol 2005, 116:377-383. PubMed Abstract | Publisher Full Text OpenURL

  26. Horner WE, Helbling A, Salvaggio JE, Lehrer SB: Fungal allergens.

    Clin Microbiol Rev 1995, 8:161-179. PubMed Abstract | Publisher Full Text | PubMed Central Full Text OpenURL

  27. Katz Y, Verleger H, Barr J, Rachmiel M, Kiviti S, Kuttin ES: Indoor survey of moulds and prevalence of mould atopy in Israel.

    Clin Exp Allergy 1999, 29:186-192. PubMed Abstract | Publisher Full Text OpenURL

  28. Clot B: Trends in airborne pollen: An overview of 21 years of data in Neuchâtel (Switzerland).

    Aerobiologia 2003, 19:227-234. OpenURL

  29. Damialis A, Halley J, Gioulekas D, Vokou D: Long-term trends in atmospheric pollen levels in the city of Thessaloniki, Greece.

    Atmospheric Environment 2007, 41:7011-7021. Publisher Full Text OpenURL

  30. Lei YC, Chan CC, Wang PY, Lee CT, Cheng TJ: Effects of Asian dust event particles on inflammation markers in peripheral blood and bronchoalveolar lavage in pulmonary hypertensive rats.

    Environ Res 2004, 95:71-76. PubMed Abstract | Publisher Full Text OpenURL

  31. Watanabe M, Yamasaki A, Burioka N, Kurai J, Yoneda K, Yoshida A: Correlation between Asian dust storms and worsening asthma in Western Japan.

    Allergol Int 2011, 60:267-275. PubMed Abstract | Publisher Full Text OpenURL

  32. Cakmak S, Dales RE, Coates F: Does air pollution increase the effect of aeroallergens on hospitalization for asthma?

    J Allergy Clin Immunol 2012, 129:228-231. PubMed Abstract | Publisher Full Text OpenURL

  33. Chew F, Lim S, Goh D, Lee BW: Sensitization to local dust- mite fauna in Singapore.

    Allergy 1999, 54:1150-1159. PubMed Abstract | Publisher Full Text OpenURL

  34. Pumhirun P, Towiwat P, Mahakit P: Aeroallergen sensitivity of Thai patients with allergic rhinitis.

    Asian Pac J Allergy Immunol 1997, 15:183-185. PubMed Abstract OpenURL

  35. Sattar HA, Mobayed H, al-Mohammed AA, Ibrahim AS, Jufairi AA, Balamurugan P, Mary VP, Bener A: The pattern of indoor and outdoor respiratory allergens in asthmatic adult patients in a humid and desert newly developed country.

    Eur Ann Allergy Clin Immunol 2003, 35:300-305. PubMed Abstract OpenURL

  36. Li J, Sun B, Huang Y, Lin X, Zhao D, Tan G, Wu J: A multicentre study assessing the prevalence of sensitizations in patients with asthma and/or rhinitis in China.

    Allergy 2009, 64:1083-1092. PubMed Abstract | Publisher Full Text OpenURL

  37. Dowaisan A, Al-Ali S, Khan M, Hijazi Z, Thomson MS, Ezeamuzie CI: Sensitization to aeroallergens among patients with allergic rhinitis in a desert environment.

    Ann Allergy Asthma Immunol 2000, 84:433-438. PubMed Abstract | Publisher Full Text OpenURL

  38. Farhoudi A, Pourpak Z, Mesdaghi M, Kazemnejad A, Chavoshzadeh Z: The study of Cockroach allergy in Iranian Children with asthma.

    Acta Medica Iranica 2003, 41:150-155. OpenURL

  39. Ghaffari J, Khademloo M, Saffar MJ, Rafiei A, Masiha F: Hypersensitivity to house dust mite and cockroach is the most common allergy in north of iran.

    Iran J Immunol 2010, 7:234-239. PubMed Abstract OpenURL

  40. Bener A, Safa W, Abdulhalik S, Lestringant GG: An analysis of skin prick test reactions in asthmatics in a hot climate and desert environment.

    Allerg Immunol (Paris) 2002, 34:281-286. OpenURL

  41. Movahedi M, Moin M, Farhoudi A: A comparison between diagnostic clinical tests and herbal geography in allergic patients in Tehran and Karaj cities.

    Iran J Allergy Asthma Immunol 2000, 1:29-31. OpenURL

  42. Kim J, Hahm MI, Lee SY, Kim WK, Chea Y, Park YM: Sensitization to aeroallergens in Korean children: a population-based study in 2010.

    J Korean Med Sci 2011, 26:1165-1172. PubMed Abstract | Publisher Full Text | PubMed Central Full Text OpenURL

  43. Farhoudi A, Razavi A, Chavoshzadeh Z, Heidarzadeh M, Bemanian MH, Nabavi M: Descriptive study of 226 patients with allergic rhinitis and asthma in karaj city.

    Iran J Allergy Asthma Immunol 2005, 4:99-101. PubMed Abstract OpenURL

  44. Bousquet J, Annesi-Maesano I, Carat F, Leger D, Rugina M, Pribil : Characteristics of intermittent and persistent allergic rhinitis: DREAMS study group.

    Clin Exp Allergy 2005, 35:728-732. PubMed Abstract | Publisher Full Text OpenURL

  45. Weinmayr G, Forastiere F, Weiland SK, Rzehak Pribil C, EL Hasnaoui A, Chanal I: International variation in prevalence of rhinitis and its relationship with sensitisation to perennial and seasonal allergens.

    Eur Respir J 2008, 32:1250-1261. PubMed Abstract | Publisher Full Text OpenURL

  46. Ricca V, Landi M, Ferrero P: Minimal persistent inflammation is also present in patients with seasonal allergic rhinitis.

    J Allergy Clin Immunol 2000, 105:54-57. PubMed Abstract | Publisher Full Text OpenURL

  47. Jarvis D, Luczynska C, Chinn S, Burney P: The association of age, gender and smoking with total IgE and specific IgE.

    Clin Exp Allergy 1995, 25:1083-1091. PubMed Abstract OpenURL