Skin test reactivity to indoor allergens correlates with asthma severity in jeddah, saudi arabia.

BACKGROUND: There is increased emphasis on the role of indoor allergens in asthma.
OBJECTIVE: To examine the spectrum of skin test reactivity (sensitization) to indoor allergens and its correlation with asthma severity in Jeddah, Saudi Arabia.
METHODS: Asthmatic patients referred to the allergy clinic at King Abdulaziz University Hospital (KAUH) in Jeddah were studied. Measures of clinical severity were adopted from national and international asthma guidelines. The degree of sensitization was assessed by the wheal size (positive >/= 3 mm) from standard skin-prick tests for the following common indoor inhalant allergens: house dust mites (Dermatophagoides pteronyssinus [Dp] and Dermatophagoides farinae [Df]), cat, and cockroach.
RESULTS: Skin test results from 113 of 151 (74.8%) asthmatic patients were positive for one or more allergens. The patients' ages ranged between 9 and 63 years (mean, 30 +/- 13 years), and females constituted 65.5%. The predominant asthma severity level was moderate persistent (55.8%), followed by mild persistent (33.6%). The prevalences of sensitization to indoor allergens were as follows: Dp, 87% (3-25 mm [mean, 7 mm]); Df, 84% (3-20 mm [mean, 7 mm]); cat, 44% (3-15 mm [mean, 6 mm]); and cockroach, 33% (3-12 mm [mean, 4 mm]). Higher asthma severity levels were significantly correlated with the number of allergens with positive sensitization (R = 0.3, p < .001) and with the degree of sensitization to house dust mites (Dp [degrees of freedom {df} = 16, p < .001] and Df [df = 17, p < .01]) but not to cat (df = 10, p < .24) or cockroach (df = 8, p < .36).
CONCLUSIONS: Immunoglobulin E-mediated skin test reactivity to indoor allergens, particularly to house dust mites, was common in asthmatic patients from Jeddah at KAUH. Increased sensitization was associated with higher levels of asthma severity, which is compatible with the literature. This emphasizes the importance of identifying sensitization to relevant indoor allergens in the clinical evaluation of asthmatic persons.

Asthmatic airways are characterized by an immunologic chronic inflammation that has been documented to occur after exposure to an allergen [1,2]. Several studies have suggested a correlation between allergen exposure and the prevalence of asthma [3-5]. In sensitized individuals, exposure to airborne allergens is a risk factor for asthma exacerbations, the persistence of asthma symptoms, and significant changes in pulmonary function [6-8].

Worldwide, the documented increase in the prevalence of asthma has been almost entirely an increase in that of perennial asthma, and a large proportion of such patients are allergic to allergens that are found all year round in homes [9,10]. This has led to increased interest in the immunologic role of allergenic substances that accumulate indoors. Indoor allergens today have increased in developed countries where homes have been insulated for energy efficiency, carpeted, heated, cooled, and humidified--changes that have also made homes an ideal habitat for the generators of indoor allergens [11,12].

Globally, the most abundant indoor allergens include those derived from house dust mites (HDMs), cats, and cockroaches [12,13]. The principal HDM species are the pyroglyphid mites (Dermatophagoides pteronyssinus [Dp], Dermatophagoides farinae [Df], and others), which usually account for 90% of mite species in house dust in temperate regions [9,14]. According to some local studies, similar allergens have been isolated from the homes of asthmatic persons living in different regions of Saudi Arabia [15].

Recent progress in the fields of allergy and immunology have promoted extensive studies on the identification of sensitization to indoor allergens. In vivo and in vitro allergy tests are considered valuable tools for exploring the presence of an immunoglobulin E (IgE)-mediated immune response in atopic disorders such as bronchial asthma, and their results are a reflection of sensitization to the given allergen [16-18]. Previous investigators demonstrated a direct relationship between positive allergy skin test reactions or sensitization to inhalant indoor allergens and the increase in the severity of asthma [19,20]. However, no study has focused primarily on the clinical severity of asthma (assessed by international and national asthma management guidelines) in relation to common indoor allergens detected in Saudi Arabia.

Hence, this study aimed to explore the spectrum of IgE-mediated skin test reactivity or sensitization to common indoor inhalant allergens among asthmatic patients seen at King Abdulaziz University Hospital (KAUH) in Jeddah, the second-largest city in Saudi Arabia. This work focuses on the hypothesis that skin test reactivity to indoor allergens may have a relationship with higher levels of clinical severity of asthma.

Methods

This was a cross-sectional study on 151 patients with a primary diagnosis of bronchial asthma. They were sequentially selected from patients examined at the allergy clinic of KAUH from January 1997 to December 1999. Only patients who were living in the city of Jeddah were included in the study. Jeddah is a coastal city located in the western region of the Kingdom of Saudi Arabia on the Red Sea, and high humidity characterizes its weather, particularly in the summer season. The criteria for the diagnosis and assessment of the clinical severity of each asthmatic patient were day-time symptoms, nocturnal symptoms, and mean peak expiratory flow at the clinic visit (Table 1). These criteria were adopted from the National Asthma Education Prevention Program in the United States and the Saudi national protocol for the management of asthma [21,22]. The presence of one of the features of severity is sufficient to place a patient in that severity category. Each asthmatic patient was assigned to the most severe grade in which any of their features occurred.

Table 1

Criteria Used for Categorizing the Clinical Severity of Asthmatic Patients

Severity Level	Day Symptoms	Night Symptoms	PEF
Mild intermittent	≤2 times/week	≤2 times/month	≥80%
Mild persistent	>2 times/week but <1 time/day	>2 times/month	≥80%
Moderate persistent	Daily	>1 time/week	>60 to <80%
Severe persistent	Continuous	Frequent	≤60%

PEF = peak expiratory flow.

Demographic data, documented asthma severity level assessments, and the results of skin-prick tests (SPTs) for common inhalant allergens were extracted from the records of the patients. The assessment of the level of asthma severity was carried out and documented in each patient's chart before the SPT was performed. The following patients were excluded from the study:

• Smokers (to rule out chronic obstructive airway disease)

• Patients who were pregnant or taking β-blockers (for safety reasons)

• Patients taking antihistamines or taking long-term oral corticosteroids for more than 1 week (because of their negative effect on SPT results)

Skin test reactivity (sensitization) was determined by reviewing the results of reactions to a standard SPT after 15 minutes. Verbal consent was obtained from candidates prior to skin-prick testing. The panel of indoor allergen extracts appropriate for the SPTs was obtained from Greer Laboratories in the United States. The indoor allergens used were the two common species of HDM (Dp and Df) and cat and cockroach extracts. The cockroach extract contained a 1:10 (weight per volume) mixture of two common species, Blattella germanica (German cockroach) and Periplaneta americana (American cockroach). Extracts of the HDMs (Dp and Df) and cat hair exist in concentrations of 10,000 allergen units per millilitre.

After sterilization of the forearm with propyl alcohol, single drops of each allergen extract were applied, 2 cm apart. A skin-prick test was performed within the allergen drops on the skin with a 26-gauge needle. Additionally, a drop of histamine phosphate (at a concentration of 2.7 mg/mL) and a drop of the diluent were used as a positive control and a negative control, respectively. A wheal ≥5 mm in size in reaction to histamine was considered adequate for the competency of the test. A wheal ≥3 mm in diameter (more than the negative control) was considered a positive test result for sensitization to that peculiar allergen. The size of wheal for each indoor allergen was recorded and was used as a reflection of the degree of skin test reactivity (sensitization).

The degree of skin test reactivity for each case was classified, according to the diameter of its wheal, as mild sensitization (3-5 mm), moderate sensitization (6-10 mm), or severe sensitization (≥11 mm). Furthermore, the number of indoor allergens yielding a positive reaction was recorded for each case.

The data were entered into a personal computer. Frequency tables, correlation analysis by Pearson's test, and analysis of variance were performed with SPSS version 11 statistical software.

Results

Of 151 asthmatic individuals living in Jeddah, 113 had positive skin test reactions to one or more indoor allergens, accounting for 74.8% of the studied group. The ages of the patients who had positive skin test results ranged between 9 and 63 years (mean, 30 ± 13 standard deviations [SD]), and 74 (65.5%) were female. The predominant levels of asthma severity were moderate persistent (63 cases [55.8%]) and mild persistent (38 cases [33.6%]) (Table 2).

Table 2

Frequency of Asthma Clinical Severity Levels

Severity Level	No. of Patients	% of Patients	Cumulative %
Mild intermittent	8	7.1	7.1
Mild persistent	38	33.6	40.7
Moderate persistent	63	55.8	96.5
Severe persistent	4	3.5	100.0
Total	113	100.0	--

The prevalence of positive skin reactivity and wheal size was highest for both HDMs: 98 cases (87%) for Dp and 95 cases (84%) for Df (Table 3). Sensitization to more than one allergen, and particularly to two and three different allergens, was common (Table 4).

Table 3

Prevalence of Positive Skin Reactivity to the Different Indoor Allergens

Allergen	No. of Patients	% of Patients	Wheal Diameter (mm)	Mean ± SD
HDM (Dp)	98	87	3-25	7 ± 4
HDM (Df)	95	84	3-20	7 ± 4
Cat	50	44	3-15	6 ± 2
Cockroach	38	33	3-12	4 ± 2

Df = Dermatophagoides farinae; Dp = Dermatophagoides pteronyssinus; HDM = house dust mite.

Table 4

Number of Allergens Yielding Positive Skin Test Reactivity (Sensitization)

	No. of Patients	% of Patients	Cumulative %
Sensitization to 1 allergen	17	15.0	15.0
Sensitization to 2 allergens	39	34.5	49.6
Sensitization to 3 allergens	40	35.4	85.0
Sensitization to 4 allergens	17	15.0	100.0
Total	113	100.0	--

The frequency of asthma cases in each category of sensitization degree is shown in Figure 1. There was a correlation between sensitization to the two species of HDM (Df and Dp, p < .001), which represents a known cross-reactivity between them.

Figure 1

The degree of skin test reactivity (sensitization) to the indoor allergens studied. Wheal size was used as the measure of the degree of skin test reactivity (0-2 mm, negative; 3-5 mm, mild; 6-10 mm, moderate; >10 mm, severe).

Statistically, the increasing levels of clinical severity in the asthmatic patients under study were significantly correlated to the number of indoor allergens yielding positive skin test reactivity (sensitization) (R = 0.3, p < .001) and to the degree of skin test reactivity (ie, wheal size) to Dp (df = 16, p < .001) and Df (df = 17, p < .01) but did not reach statistical significance in the cases of cat (df = 10, p < .24) and cockroach (df = 8, p < .36) allergens.

The relation between the severity of asthma and the degree of skin test reactivity to the different indoor allergens is shown in Figure 2. The linear relation between the severity of asthma and the mean degree of skin test reactivity is illustrated in Figure 3. Figure 4 shows that higher levels of asthma severity were associated with higher numbers of sensitization to indoor allergens.

Figure 2

Box plot of skin test reactivity to the different indoor allergens studied.

Figure 3

Mean skin test reactivity (wheal size in millimetres) to indoor allergens studied.

Figure 4

Number of allergens yielding sensitization, plotted against asthma severity.

Discussion

Our predominantly sedentary indoor lifestyle has been identified as one of the probable causes for increases in the prevalence of asthma. This indoor lifestyle may have led to either an increased exposure to allergens or an increase in factors that enhance the lungs' response to foreign proteins [9]. Clearly, exposure to allergens can provoke acute asthma attacks as well as chronic allergic symptoms [10].

In this study, positive skin test reactions to common indoor allergens were seen in up to three-quarters of the enrolled asthmatic patients who were referred to the allergy clinic. Although such a high rate of sensitization is compatible with some international figures, selection bias must be considered [9,23]. The majority of patients seen at the allergy clinic have moderate persistent asthma whereas most asthmatic persons in the general population have mild asthma. Doctors refer patients whom they suspect to have allergies to the allergy clinic, or patients request allergy assessment if they suspect themselves to have an allergy. In view of selection bias, the prevalence of sensitization in the general asthmatic population in Jeddah is most likely lower and needs investigation.

Sensitization to the two species of HDM was the predominant indoor allergen sensitization in more than 80% of the asthmatic patients. This pattern of sensitization is expected in a humid coastal city such as Jeddah. Conditions for mite growth are a temperature between 22° and 26°C and a relative humidity >55%. Dp is the dominant mite in constantly damp climates; Df survives better in somewhat drier climates. Modern houses are characterized by wall-to-wall carpeting, box mattresses, and optimal temperatures for the growth of HDMs. Worldwide, there is evidence to suggest that HDMs are the most common indoor allergens associated with asthma [8,9].

Alferah and colleagues conducted a study to analyze HDM content in samples collected from asthmatic patients' indoor environments in four regions of Saudi Arabia [15]. The humid western region showed a high concentration of HDM (particularly more Der f I). Variations in both qualitative and quantitative assessments of HDMs may be attributed to variations in geography and climate, particularly humidity. SPT results with HDM allergens also revealed a high positivity rate, consistent with the concentration of HDMs in the region [15]. This shows the possible influence of mites in patients' allergic manifestations, which are not only common but are also increasing in parts of the country. Airborne allergens were identified as risk factors for asthma and other allergic diseases in other Arabian Gulf countries [24].

In this study, sensitization to cat allergen was evident in nearly half of the patients with positive skin test results, and sensitization to cockroach allergen was evident in one-third of them. Cat allergen is responsible for the rapid onset of respiratory symptoms in cat-sensitized persons entering an indoor environment that contains a cat and may constitute a relevant risk factor for asthma exacerbations [25,26]. Additionally, public places and homes without a cat may contain sufficient allergenic protein to induce clinical symptoms in highly sensitized persons [27,28]. In some locations, sensitization to cockroach allergen may be as common as sensitization to domestic mite allergens and can have a greater effect on asthma morbidity [29-31].

Some indoor fungi (moulds) are an established risk factor for asthma in various populations [6,32]. Future studies on the impact of other indoor allergens, such as moulds, on asthma in Saudi Arabia are needed.

This study demonstrated a correlation between the degree of IgE-mediated skin test reactivity to indoor allergens, particularly HDMs, and higher levels of clinical severity of asthma. The correlation found was low, and it was highly dependent on the four subjects in the severe persistent category. In other regions of the world, such a correlation has been recognized by several investigators [20,33,34]. The strength of the IgE antibody response to HDMs in humid climates could contribute to the increased prevalence and severity of asthma [30,34].

Recent asthma guidelines have established that great attention should be given to measures to prevent the symptoms of this chronic, lifelong, and incurable disease [35]. Some measures for the prevention of asthma symptoms involve the avoidance of allergens and nonspecific triggers when asthma is established. Several studies have documented an improvement in asthma after exposure to the allergen ceases [36-38]. Thus, indoor environmental control measures to reduce exposure to allergens might be important, but complete control is difficult to achieve, and there is conflicting evidence about whether such control measures are effective at reducing asthma symptoms [39,40]. Effective control strategies should be (1) tailored to individual allergens, (2) flexible for suiting individual needs, and (3) cost effective [35,41].

HDMs are especially important in humid areas in Saudi Arabia, such as the cities of Jeddah and Dammam [15]. According to asthma management guidelines, measures that significantly reduce exposure to mites must be an integral part of asthma management for asthmatic persons who have been sensitized to clinically relevant allergens [35,42]. Environmental controls should be reinforced when asthma is poorly controlled or requires significant medication or whenever there is a suggestion that exposure to mites is playing a role [35,42]. The most effective and probably most important avoidance measure is to use mattress, pillow, and duvet covers that are impermeable to mite allergens (evidence level B) [43-45].

Conclusion

This work demonstrated that three-quarters of asthmatic persons living in Jeddah, Saudi Arabia, who were referred to the allergy clinic at King Abdulaziz University Hospital were sensitized to common indoor inhalant allergens. Additionally, there was a clear association between the degree of skin test reactivity to common indoor inhalant allergens and higher levels of clinical severity of bronchial asthma. Based on this, asthmatics should be offered effective education about the importance of exploring their sensitization to relevant environmental allergens. Subsequently, for better symptom control, health care workers must be encouraged to apply individualized educational strategies for the avoidance of allergens that are clinically relevant for their particular asthmatic patients. Eventually, this will be of significant help in the overall management of asthma symptoms.