Background
Immune responses in allergic diseases begin with allergen sensitization. Allergen sensitization involves a complex interplay of genetic and environmental factors, and sensitization patterns have been reported to change with age [
1‐
3]. A cross-sectional study on the sensitization pattern in Singapore was conducted more than 10 years ago in a group of 75 children below the age of 3 years who have symptoms suggestive of atopic disorders [
4]. In this group of children, the prevalence of cow’s milk sensitization was the highest at 45.9 %, followed by egg white at 38.7 % and dustmites (31.4 % to
Dermatophagoides pteronyssinus, and 25.5 % to
Blomia tropicalis) [
4].
Given the changing environment, we evaluated risk factors of allergen sensitization in the first 3 years of life among Singapore children participating in a birth cohort study. To our knowledge, this is the first prospective study in Asia to assess risk factors for allergen sensitization in the first 3 years of life.
In addition, allergic diseases such as eczema, rhinitis and wheeze that occur in early childhood may be without allergen sensitization [
5]. However, knowledge about the association between early clinical phenotypes and the development of subsequent allergen sensitization is limited, as most studies have not assessed non-sensitized children, but have instead analyzed the association between early allergen sensitization and the subsequent development of allergic diseases [
6,
7]. The aim of this study is to study the associations between the clinical phenotypes and the development of allergen sensitization in the first 3 years of life. We hypothesized that clinical phenotypes may precede and predict the development of allergen sensitization.
Results
Of the 1247 subjects recruited into GUSTO, 849 completed skin prick testing at 18 months and comprised the first study population. Of the 849 subjects, 477 (56.2 %) were Chinese, 440 (51.8 %) were male and 505 (59.5 %) were born to mothers with at least 12 years of education. No significant differences in these characteristics were observed between subjects who completed the skin prick testing and those who did not (data not shown). A total of 649 children had a negative SPT at 18 months and completed a second SPT at 36 months. Of these, 367 (56.5 %) were Chinese, 335 (51.6 %) were male and 380 (58.6 %) were born to mothers with at least 12 years of education.
Table
1 compares the characteristics of children who remained unsensitized at both 18–36 months, those sensitized at 18 months and those with new sensitization at 36 months.
Table 1
Comparison of study groups
Sex |
Female | 270 (48.7) | 48 (41.7) | 43 (45.7) | 0.4 |
Male | 284 (51.3) | 67 (58.3) | 51 (54.3) | |
Ethnicity |
Chinese | 305 (55.1) | 66 (57.4) | 62 (65.3) | 0.049 |
Malay | 147 (26.5) | 38 (33.0) | 19 (20.0) | |
Indian | 102 (18.4) | 11 (9.6) | 14 (14.7) | |
No family history of allergy | 184 (51.1) | 35 (43.8) | 24 (40.7) | 0.2 |
Family history of allergy | 176 (48.9) | 45 (56.2) | 35 (59.3) | |
Vaginal delivery | 385 (69.5) | 77 (67.0) | 74 (79.6) | 0.1 |
Non-vaginal delivery | 169 (30.5) | 38 (33.0) | 19 (20.4) | |
Low breastfeeding | 242 (45.2) | 37 (33.9) | 26 (29.2) | <0.01 |
Intermediate breastfeeding | 227 (42.4) | 55 (50.5) | 55 (61.8) | |
High breastfeeding | 66 (12.3) | 17 (15.6) | 8 (9.0) | |
No antibiotic consumption in the first 6 months | 437 (84.2) | 98 (89.1) | 76 (88.4) | 0.3 |
Antibiotic consumption in the first 6 months | 82 (15.8) | 12 (10.9) | 10 (11.6) | |
No dog ownership at 12 months | 281 (92.7) | 55 (94.8) | 57 (98.3) | 0.3 |
Dog ownership at 12 months | 22 (7.3) | 3 (5.2) | 1 (1.7) | |
Not staying near an expressway at 12 months | 252 (83.4) | 43 (74.1) | 43 (74.1) | 0.1 |
Staying near an expressway at 12 months | 50 (16.6) | 15 (25.9) | 15 (25.9) | |
No exposure to smoke at 12 months | 196 (64.3) | 43 (72.9) | 42 (72.4) | 0.3 |
Exposure to smoke at 12 months | 109 (35.7) | 16 (27.1) | 16 (27.6) | |
Maternal education levels ≤12 years | 232 (42.2) | 43 (37.7) | 31 (33.3) | 0.2 |
Maternal education levels >12 years | 318 (57.8) | 71 (62.3) | 62 (66.7) | |
Prevalence of allergen sensitization at 18–36 months
The positive SPT rate increased from 115 (13.5 %) at 18 months to 200 (23.4 %) at 36 months. Similarly, the positive SPT rate to dust mites increased from 95 (11.2 %) at 18 months to 194 (22.6 %) at 36 months. In contrast, positive SPT to one or more food allergens decreased from 38 (4.5 %) at 18 months to 18 (2.1 %) at 36 months.
At 18 months, 95 subjects (11.2 %) showed a positive SPT to one or more house dust mite: 71 (8.4 %) to D. pteronyssinus, 57 (6.7 %) to D. farinae and 8 (0.9 %) to B. tropicalis; 38 (4.5 %) subjects had a positive SPT to food allergens: 6 (0.7 %) to cow’s milk, 11 (1.3 %) to peanut and 30 (3.5 %) to egg. Out of these 38 subjects, 11 had reported clinical food allergies: 1 to cow’s milk, 1 to egg and peanut, 8 to egg and 1 to peanut. These subjects with clinical food allergies also have supportive SPT data.
Ninety-six (14.7 %) children with negative SPTs at 18 months developed positive tests at 36 months: 92 subjects (14.2 %) to one or more dust mites, 76 (11.8 %) to D. pteronyssinus, 58 (8.9 %) to D. farinae and 9 (1.4 %) to B. tropicalis. New food allergen sensitization was observed to peanut in 3 (0.5 %) and to egg in 1 (0.2 %). However these subjects with new food sensitizations did not report clinical symptoms of food allergies.
Predictors of allergen sensitization at 18 months
We found a significant association between eczema reported before 18 months and a positive SPT at 18 months [aOR 4.5 (1.9–10.7), Table
2] after adjusting for sex, ethnicity, maternal education, family history of allergy, mode of delivery, breastfeeding, antibiotic consumption in the first 6 months of life, owning a dog, living near an expressway and exposure to tobacco smoke at 12 months of life. There was also a significant association between rhinitis reported before 18 months and a positive SPT [aOR 2.8 (1.1–7.3), Table
2] after adjusting for confounders. No significant associations were observed between wheeze reported before 18 months and allergen sensitization at 18 months. Further analysis showed that eczema reported before 18 months was significantly associated with both inhalant allergen sensitization [aOR 3.7 (1.5–9.4)] and food allergen sensitization [aOR 7.6 (1.9–30.7)] (data not shown). No significant associations were observed between wheeze or rhinitis reported before 18 months and inhalant or food allergen sensitization at 18 months.
Table 2
Findings in multivariable analyses of associations between reported early allergic conditions and positive SPT at 18 months among GUSTO children
Rhinitis reported before 18 months of life | 24 (25.5) |
2.8 (1.1–7.3)
|
Wheeze reported before 18 months of life | 29 (29.0) | 1.9 (0.8–4.5) |
Eczema reported before 18 months of life | 40 (41.7) |
4.5 (1.9–10.7)
|
Predictors of new cases of allergen sensitization at 36 months
Eczema reported before 18 months [aOR 3.4 (1.2–9.3)] was associated with an increased risk of new allergen sensitization at 36 months among children with negative SPTs at 18 months (Table
3). An association was also observed between wheeze reported before 18 months and new allergen sensitization at 36 months [aOR 3.2 (1.1–9.1)]. Although we found no significant association between rhinitis reported before 18 months and new allergen sensitization at 36 months, rhinitis first reported after 18 months increased the risk of development of allergen sensitization at 36 months [aOR 3.0 (1.05–8.3), Table
3]. For subjects with onset of rhinitis in the first 18 months, 25.7 % had positive SPT to house dust mites at 36 months. For subjects with onset of rhinitis after 18 months, 31.5 % had a positive SPT to house dust mites at 36 months. No significant associations were observed between onset of wheeze or eczema first reported after 18 months and allergen sensitization at 36 months. Separate analysis of inhalant allergen and food allergen sensitization showed a significant association between wheeze reported before 18 months and new inhalant sensitization at 36 months [aOR 3.2 (1.1–9.1)] and a borderline association between eczema reported before 18 months and new inhalant sensitization at 36 months [aOR 2.9 (1.0–8.3), p = 0.052] (data not shown). Rhinitis first reported after 18 months also increased the risk of developing new inhalant sensitization at 36 months [aOR 2.9 (1.05–8.3)] while no significant associations were seen between onset of wheeze and eczema first reported after 18 months and new inhalant allergen sensitization at 36 months. The number of subjects with new food allergen sensitization at 36 months was too small to analyze.
Table 3
Findings in multivariable analyses of associations between reported allergic conditions and positive SPT at 36 months among GUSTO children with negative SPT at 18 months
Rhinitis reported in the first 18 months | 8 (11.3) | 1.3 (0.3–5.5) |
Wheeze reported in the first 18 months
| 29 (36.7) |
3.2 (1.1–9.1)
|
Eczema reported in the first 18 months
| 17 (21.0) |
3.4 (1.2–9.3)
|
Rhinitis first reported after the first 18 months
| 23 (25.8) |
3.0 (1.05–8.3)
|
Wheeze first reported after the first 18 months | 10 (11.0) | 1.0 (0.2–3.9) |
Eczema first reported after the first18 months | 4 (4.8) | 0.5 (0.1–4.3) |
Discussion
Similar to the changes we observed in sensitization, other cohort studies have also noted a marked increase over the first 6 years of life in sensitization to inhalant allergens: from 1.5 to 26 % in Germany [
15] and 4–21 % in Korea [
16]. The Korean study also reported a decrease in food allergen sensitization from 10 to 2 % [
16]. These consistent and opposite changes in sensitization patterns with age for inhalant and food allergens suggest that they may be independent of genetic and environmental factors.
Our observation that eczema was a predictor for allergen sensitization at 18 months suggests that allergen sensitization may occur through an impaired skin barrier. Stronger support for this suggestion is the fact that eczema preceded later allergen sensitization among children not sensitized at 18 months. This combination of findings leads us to speculate that sensitization to allergens may have occurred through an impaired (eczematous) skin barrier in early life [
17]. Of note, however, eczema with onset after 18 months was not associated with new allergen sensitization at 36 months.
Although eczema being a risk factor for allergen sensitization has been reported, however knowledge on this in Asian countries is limited where genetic constitution differs from the European countries, hence we performed this analysis in an Asian prospective birth cohort study. In agreement with our observations, the Melbourne Atopy Cohort Study, which recruited 552 at-risk children, also showed that children with eczema in the first 6 months of life had elevated risk of developing new allergen sensitization at 1–2 years and proposed that sensitization may have occurred through a dysfunctional skin barrier [
17]. Further evidence of the contribution of early-onset eczema to later allergen sensitization was provided by the Childhood Asthma Prevention Study (CAPS) in Australia, which followed more than 500 high-risk children from birth to 5 years. That study found that eczema was an independent predictor of allergen sensitization by the age of 5 years among children who were not sensitized at 18 months [
18]. Another study from Sweden reported that 80 % of children with eczema developed later sensitization to inhalant allergens [
19]. Besides this, in another study of 373 high risk infants, persistent early onset eczema increased the risk of both aeroallergen and food allergen sensitization at 7 years [
20]. Another German cohort study (n = 1314) also found that atopic dermatitis in first 3 months of life was a risk factor for aeroallergen sensitisation at 5 years [
21].
Early eczema may also increase the risk of later food allergies. A study of 3-month-old infants from England and Wales reported that early onset of eczema was associated with subsequent sensitization to foods [
22]. Helen et al. [
23] found that exposure to environmental peanut antigen in dust was a risk factor for later positive peanut SPT; the odds increased in children with eczema and increased even further in children with severe eczema.
Other studies have reported similar results with other allergic outcomes. A study from Sweden that followed 3124 children to 5 years reported that onset of eczema in the first year of life was associated with increased risk of developing asthma and rhinitis, while later onset of eczema was not [
24]. De Benedetto [
25] reviewed data suggesting that several epidermal alarmins may lead to a Th2 immune response when the skin barrier is compromised. Moreover, transient defects in the skin barrier may provide signals that lead to movement of Langerhans dendritic cells through tight junctions and engulfment of antigens present on the skin surface. Animal work also suggests that allergens such as house dust mites and food allergens can activate antigen-presenting cells in the epidermis, leading to allergen sensitization and allergic diseases [
26]. Besides this, mutations in the filaggrin gene and filaggrin deficiency are known to increase the risk of development of eczema [
27,
28] as filaggrin, an epidermal protein plays an essential role in maintaining the integrity of the epidermis by forming the corneocyte and regulating the hydration and pH levels of the stratum corneum [
28]. Epidermal dysfunction allow entry of allergens, which can subsequently lead to allergen sensitisation [
29].
We also found a significant association between early wheeze and new inhalant allergen sensitization at 36 months. A possible mechanism is through the disruption of the airway epithelium that forms a physical barrier to entry of aeroallergens [
30]. Asthmatic children may have a defective airway epithelial barrier with reduced E-cadherin [
31]. E-cadherin contributes to the structural integrity of the airway epithelium. Disruption of E-cadherin may compromise the function of the epithelium in regulating the entry of aeroallergens, hence facilitating allergen sensitization [
31].
The strengths of this study are the prospective study design with regular follow up and collection of data at multiple time points. In addition, skin prick testing is carried out at both 18–36 months which allow us to establish the temporal sequence between clinical phenotypes and allergen sensitization by looking at non-sensitized children at 18 months. However the main limitation of the study is the parental report of allergic outcomes which may have resulted in some misclassifications. The study team tried to overcome this by calling up the subjects to ascertain if the parental reports are accurate.
In conclusion, we identified clinical phenotypes that may predispose a child to developing allergen sensitization. Future research should assess whether improved clinical management of early-onset eczema and wheeze can reduce the risk of subsequent allergen sensitization.
Authors’ contributions
LEX analysed the data and wrote the manuscript. SJZT contributed to writing of the manuscript. GA, TOH, VBHP, LBW contributed to the acquisition of data and writing of the manuscript. CYH provided statistical advice and contributed to the writing of the manuscript. KK, GPD, GKM, SSM and CYC contributed to the design and conceptualization of the study and to the writing of the manuscript. SLP and KMS supervised the research and revised the manuscript for intellectual content. All authors read and approved the final manuscript.
Acknowledgements
The co-authors acknowledge the contribution of Wei Wei Pang who classified the breastfeeding data and the the rest of the GUSTO study group which includes Lee Yung Seng, Pratibha Agarwal, Dennis Bier, Arijit Biswas, Shirong Cai, Jerry Kok Yen Chan, Cornelia Yin Ing Chee, Helen Y. H. Chen, Audrey Chia, Amutha Chinnadurai, Chai Kiat Chng, Mary Foong-Fong Chong, Shang Chee Chong, Mei Chien Chua, Chun Ming Ding, Eric Andrew Finkelstein, Doris Fok, Marielle Fortier, Yam Thiam Daniel Goh, Joshua J. Gooley, Wee Meng Han, Mark Hanson, Christiani Jeyakumar Henry, Joanna D. Holbrook, Chin-Ying Hsu, Hazel Inskip, Jeevesh Kapur, Birit Leutscher-Broekman, Sok Bee Lim, Seong Feei Loh, Yen-Ling Low, Iliana Magiati, Lourdes Mary Daniel, Michael Meaney, Susan Morton, Cheryl Ngo, Krishnamoorthy Niduvaje, Anqi Qiu, Boon Long Quah, Victor Samuel Rajadurai, Mary Rauff, Jenny L. Richmond, Anne Rifkin-Graboi, Allan Sheppard, Borys Shuter, Leher Singh, Wing Chee So, Walter Stunkel, Lin Lin Su, Kok Hian Tan, Soek Hui Tan, Rob M. van Dam, Sudhakar K. Venkatesh, Inez Bik Yun Wong, P. C. Wong, George Seow Heong Yeo.