All issues > Volume 64(12); 2021
Environmental and dietary factors to be checked for treatment of atopic dermatitis in rural children
- Corresponding author: Jeongmin Lee, MD, PhD. Department of Pediatrics, Yonsei University Wonju College of Medicine, 20 Ilsan-ro, Wonju 26426, Korea Email: ejeongmin@yonsei.ac.kr
- Received May 6, 2021 Revised August 25, 2021 Accepted September 7, 2021
To the editor,
Atopic dermatitis (AD) is a chronic inflammatory skin disorder, and treatment guidelines for AD emphasize identifying and avoiding exacerbating factors and practicing proper skincare [1]. Gangwon is a representative rural region of South Korea and has a pollen distribution pattern different from those of other regions [2]. Therefore, different patterns of immunoglobulin E (IgE) sensitization to food and aeroallergens may be observed owing to cross-antigenicity [3]. However, no studies have identified the distinctive characteristics of children with AD in this region. Thus, this study was conducted to identify factors to be focused on while treating children with AD living in rural areas.
We developed a standardized form for outpatient medical charts for the children newly diagnosed with AD by a pediatric allergist, consisting of 6 factors: (1) feeding method and weaning diet; (2) comorbidities (patient-oriented, doctor-diagnosed); (3) familial allergic disease history; (4) indoor environmental management including history of direct (currently living with a pet) or indirect (intermittent exposure when visiting relatives) exposure to pets; (5) dietary restriction and reasons for these; and (6) skincare practices. Severity was assessed based on the percent body surface area affected by AD [4], and serologic testing was generally recommended for moderate to severe AD. Sensitization was defined as the detection of allergen-specific IgE at levels ≥0.7 kU/L by ImmunoCAP (Thermo Fisher Scientific, Phadia AB, Uppsala, Sweden) or a result of class ≥2 on the multiple allergen simultaneous test (MAST) (AdvanSure Allostation, LG Life Science, Seoul, Korea) [5].
The study population included 114 boys (59.7%) and 77 girls (40.3%) with a median age of 34 months (1 month to 18 years), and 105 (55.0%), 66 (34.6%), and 20 patients (10.5%) had mild, moderate, and severe AD, respectively. Among the 117 patients (61.3%) who underwent serological testing, ImmunoCAP was performed in 101 patients (86.3% vs. MAST 63.2% [74 of 117]), the IgE sensitization rate to aeroallergen was 65.7% (46 of 70 vs. MAST 56.1% [32 of 57]) and the highest sensitization rate was observed for Dermatophagoides farinae (Der. f, 76.1% [35 of 46]), followed by Dermatophagoides pteronyssinus (Der. p, 69.6% [32 of 46]), birch (32.6%, 15 of 46), dog dander (32.6%, 15 of 46), and cat dander (19.6%, 9 of 46). These results differed slightly from the MAST results: Der. f (65.6%, 21 of 32), Der. p (62.5%, 20 of 32), house dust (46.9%, 15 of 32), birch (31.3%, 10 of 32), dog dander (31.3%, 10 of 32), and cat dander (31.3%, 10 of 32). Among all subjects, 35.1% (67 of 191) have documented the way of pet exposure (dog: 85.6% [58 of 67], direct 36.2% [21 of 58]; cat: 20.9% [14 of 67], direct 57.1% [8 of 14]). Among them, sensitization rate to dog dander was 20.7% (12 of 58; direct 6 of 21 and indirect 6 of 37) and to cat was 7.1% (1 of 14; indirect 1). The IgE sensitization rate to food was 50.0% by ImmunoCAP (39 of 78; egg white 29, cow’s milk 16, peanut 14, wheat 13, soybean 9, walnut 6) and 58.6% by MAST (17 of 29; egg white 12, peanut 7, wheat 7, soybean 6, apple 6, peach 5, walnut 5, cow’s milk 3). The IgE sensitization (aeroallergen: mild 32.4% [34 of 105] vs. moderate 39.4% [26 of 66] vs. severe 45.0% [9 of 20], P=0.147, food: mild 21.0% [22 of 105] vs. moderate 30.3% [20 of 66], severe 45.0% [9 of 20], P=0.013) rate increased with disease severity. In total, 44.0% children (84 of 191) were exclusively breastfed for the first 4 months after birth, and 72.8% (139 of 191) had started the weaning process from 6 months after birth. Patient-oriented and doctor-diagnosed food allergy accounted for 43.5% (83 of 191) and 19.9% (38 of 191) of cases, respectively (Table 1). Sixty-eight patients (35.6%=68/191) were fed a restricted diet. A doctor’s recommendation was the most common reason for dietary restrictions (58.8% [40 of 68]; egg white 24, peanut 14, cow’s milk 11, walnut 9), followed by self-judgment (39.7% [27 of 68]) with subjective allergic symptoms without medical evaluation (55.6% [15 of 27]; egg white 6, cow’s milk 5, wheat 5, soybean 4) and self-judgment without any symptoms and without medical evaluation (44.4% [12 of 27]; egg white 3, peanut 2, wheat 2, cow’s milk 1). One patient has refused to try and been restricted peanut and other tree nuts. Serologic testing was performed in 91.2% of patients (62 of 68) with dietary restrictions, and more than half (58.1% [36 of 62]) tested positive for allergen-specific IgE (Fig. 1). IgE sensitization to egg white (65.6% [21 of 32]) or cow’s milk (64.7% [11 of 17]) was more common than that to peanuts (36.8% [7 of 19]) or walnuts (36.4% [4 of 11]), and a clinical correlation was frequently observed. When the cutoff for testing positive for allergen-specific IgE was readjusted (ImmunoCAP ≥0.35 kU/L or MAST ≥Class 1, showing lower specificity and positive predictive value [5]), the overall sensitization rate was 67.7% (42 of 62). Approximately half of the patients (59.2% [113 of 191]) moisturized more than 3 times daily, and showered every day (66.5% [127 of 191]), whereas 23.6% (45 of 191) took an approximately 10-minute soak bath.
With the increasing prevalence of pediatric AD, the importance of disease prevention, management, and identification of risk factors at an early age is being emphasized. Differences in comorbidities suspected by parents versus those diagnosed by a doctor were observed in this study, and in particular, food allergies were arbitrarily diagnosed by guardians. These results not only indicate that many subjects are unnecessarily prescribed dietary restrictions but also suggest the need for more active intervention as the frequency of this issue was higher than that in a previous studies [6]. Particularly, although many of our subjects had not eaten walnuts or peanuts at this young age, they tended to be prescribed to avoid these foods without supportive clinical evidence. The rate of exclusive breastfeeding until 4 months was similar to that in the entire Korean population [7], but the higher rate of late weaning, which is disadvantageous for AD prevention [8], demonstrated the need for evidence-based dietary intervention. The rate of sensitization to peanuts, birch, and dog dander were relatively higher than those reported in urban areas [9]. The Gangwon region has a higher tree pollen concentration than other regions [2] and is a major peaches producer [10], possible resulting in peach and birch sensitization in many patients, which is rarely seen in urban areas [9]. For children with intermittent exposure to pets are in the risk of sensitization, whether the exposure occurs via relatives or other public places should be checked. For proper management of AD in rural children, the effect of dense pollen concentrations and indirect exposure to animals must be understood and evaluated. Evidence-based dietary restrictions should be implemented, and active bathing, especially for the management of acute flares, and proper moisturization [1] need to be constantly educated.
The study protocol was approved by the Institutional Review Board (IRB) of the Wonju Severance Christian Hospital (IRB no. CR-320110).
- Key message
- Key message
Question: What are the distinctive features of rural children with atopic dermatitis?Finding: Birch and dog dander were the second most sensitized aeroallergens (32.6%), followed by house dust mites. Doctors and guardians reported food allergy comorbidities differently (19.9% and 43.5%, respectively). Dietary restrictions without medical evaluation were observed in 39.7% of patients.Meaning: Effects of pollen distribution and indirect animal exposure should be evaluated. Evidence-based dietary restrictions must be implemented.
- Footnotes
Conflicts of interest No potential conflict of interest relevant to this article was reported.
Table 1.
Characteristic | Value |
---|---|
Sex | |
Male | 114 (59.7) |
Female | 77 (40.3) |
Median age (mo) | 34 (1-225) |
Severity of atopic dermatitisa) according to age group | |
<2 yr | 76 (39.8) |
Mild | 46 (60.5) |
Moderate | 24 (31.6) |
Severe | 6 (7.9) |
2–6 yr | 65 (34.0) |
Mild | 36 (55.4) |
Moderate | 22 (33.8) |
Severe | 7 (10.8) |
6–12 yr | 36 (18.8) |
Mild | 19 (52.8) |
Moderate | 14 (38.9) |
Severe | 3 (8.3) |
>12 yr | 14 (7.3) |
Mild | 4 (28.6) |
Moderate | 6 (42.9) |
Severe | 4 (28.6) |
Feeding | |
Exclusive breastfeeding for 4 mo | 84 (44.0) |
Weaning diet after 6 mo | 139 (72.8) |
Comorbidity | |
Patient-oriented | |
Allergic respiratory diseaseb) | 86 (45.0) |
Food allergy | 83 (43.5) |
Anaphylaxis | 5 (2.6) |
Doctor-diagnosed | |
Allergic respiratory diseaseb) | 55 (28.8) |
Food allergy | 38 (19.9) |
Anaphylaxis | 5 (2.6) |
Familial history of allergic disease | |
Allergic respiratory diseaseb) | 112 (58.6) |
Atopic dermatitis | 68 (35.6) |
Food allergy | 37 (19.4) |
a) For assessment of severity of atopic dermatitis, the method estimating extent of body surface area affected was used [4].
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