Weight-for-length, early weight-gain velocity and atopic dermatitis in infancy and at two years of age: a cohort study

Overweight and obesity are major health problems in most industrialised countries [1]. In some studies, overweight and obesity in children, adolescents and adults have been shown to be associated with atopic dermatitis (AD) [2], a chronic inflammatory skin disease, characterized by skin barrier and immunological dysfunction [3]. Also, overweight and obesity in children and adults without AD have been associated with skin barrier dysfunction [4, 5] and altered immunological responses [6]. The prevalence of AD has increased during the last 20–30 years, especially in young children [3], partly overlapping the increase in prevalence of obesity [7]. With the complex aetiology of AD, involving both genetic factors, such as filaggrin (FLG) mutations, and environmental factors [3, 8], the increased prevalence of obesity and overweight in early childhood could contribute to the AD epidemic seen in children [6].

Clinical and background characteristics are presented in Table 1. The children from the bronchiolitis group differed in some respects from the those from the general population (Table 1). Data on weight and length were obtained from 435 children at birth, 428 at enrolment and 473 at the two-year follow-up visit (Table 2). At enrolment, AD was diagnosed in 55 of 428 children (13%), of whom 41 (75%) fulfilled Hanifin & Rajka’s diagnostic criteria [13]. At the two-year follow-up visit, AD was diagnosed in 106 of 473 children (22%), of whom 72 (68%) fulfilled Hanifin & Rajka’s diagnostic criteria (Table 2).

In analyses adjusted for potential confounders, AD at enrolment was associated with concurrent excessive weight-for-length (OR 3.03; 95% CI 1.23–7.50) (Table 3) and with concurrent weight-for-length as a continuous variable (OR 1.06; 95% CI 1.04–1.09). Similarly, AD at the two-year follow-up visit was associated with excessive weight-for-length at enrolment (OR 2.40; 95% CI 1.11–5.17) (Table 3). However, AD at enrolment and at two-year follow-up visit was not associated with weight-for-length at birth nor with early weight- gain velocity.

In children without AD at enrolment and attending the two-year follow-up visit, weight-for-length as a continous variable at enrolment was associated with an increased risk of AD at the follow-up visit by an OR of 1.02 (95% CI 1.00–1.04) per increase in gram/cm. Atopic dermatitis at the follow-up visit, however, was not associated with concurrent weight-for-length.

In children without a FLG mutation (n = 522), weight-for-length at enrolment increased the risk of AD at the two-year follow-up visit by an OR of 1.03 (95% CI 1.02–1.05), whereas in children with a FLG mutation (n = 42), the association was statistically non-significant (OR 1.03; 95% CI 0.98–1.09).

Increased TEWL at enrolment, measured in 165 children from the general population only, was associated both with increased risk of concurrent AD (OR 1.07; 95% CI 1.02–1.11) as well as with weight-for-length (Beta 0.04; 95% CI 0.01–0.09).The associations between AD at enrolment and concurrent weight-for-length remained statistically significant when TEWL was included in the model.

In this cohort study with children assessed in infancy (mean age 5.1 months) and at two years of age, AD at both time points was associated with excessive weight-for-length in infancy, but not with excessive weigth-for-length at birth nor with weight-gain velocity from birth to time of examination in infancy.

This study is to our knowledge the first to investigate the role of overweight and weight-gain velocity for the development of AD in the first two years of life. The significant association between AD and excessive weight-for-length in infancy is supported by a study from the UK demonstrating increased wheeze, asthma and eczema in children with high BMI in early childhood [19], and a study from Norway showing association between BMI and atopic sensitization, AD and asthma in later childhood [20]. The lack of associations between AD and weight-for-length at birth is in line with a study in 4-year-old children in Sweden, in which eczema was not associated with weight, length or BMI at birth [21]. Also, in a study among 7-year-old children in Denmark, AD was not associated with increased neonatal size [22]. In contrast, two Danish studies reported that AD in 7-year-old children was associated with birth weight [23], and that AD in the first five years of life was inversely associated with low birth weight [24].

Results from cohort studies on the association between AD and BMI in older children are conflicting, with some studies reporting a positive association [19, 20], some studies reporting no association [25] and one study reporting a negative association [26]. A meta-analysis of studies in children, adolescents and adults concluded that overweight/obesity is associated with an increased prevalence of AD in North American and Asian countries, but not in European countries [2].

An association between AD and excessive weight-for-length (in infants) and overweight/obesity (in children) could be explained by endocrine, metabolic and inflammatory signals from excess adipose tissue affecting other organs, including the skin [27]. Overweight and obesity has been shown to be associated with skin barrier dysfunction and altered immunological responses in children [4, 5]. It has been suggested that obesity results in decreased immunological tolerance to antigens and skewing the immune system towards a Th2 cytokine profile increasing the risk of atopic disease [6]. Other factors, such as dietary, environmental, socio-economic and lifestyle factors, could also play a role [4, 5]. Since AD often starts during infancy and early childhood [3], increased adipose tissue in early life could contribute to the development of AD.

Weight-for-length is often applied for assessing size and weight growth in children younger than 2 years of age [15], while BMI is used as a measure for overweight and obesity in older children, adolescents and adults [8, 28, 29]. Weight-for-length and BMI varies with age, sex and ethnicity [15] and have been shown to be good predictors for obesity and chronic disease in later life [1]. In adults, overweight is defined as BMI >25 kg/m² and obesity as BMI >30 kg/m². The threshold for obesity is not well established for infants [29]. In children, the evaluation of weight, weight-for-length and BMI is often based on WHO-reported growth standards, with weight-for-length >85^th percentile and >95^th percentile representing larger infants and children [15]. The infants in our cohort were heavier and longer than indicated by these growth standards, which are based on children from several countries, both non-industrialized and industrialized countries, including Norway [15]. The deviation from the WHO growth standards confirms results from other studies showing that more Norwegian children are above the 97.7^th percentile (i.e. 2 SD) than expected [30].

In the present study, AD was associated with weight-for-length in infancy in both children with and without FLG mutation. FLG deficiency in the skin is known to be a main driver for AD in children with a FLG mutation [8]. FLG levels are influenced not only by FLG mutation, but also by exogenous stressors and inflammation [31]. In children without a FLG mutation, non-mutational mechanisms leading to reduced FLG in the skin must be involved in the development of AD, possibly including factors related to excess weight, as indicated by our findings. It has been shown that obesity is associated with pro-inflammatory cytokines, including tumor necrosis factor-α (TNF-α) [6], which is known to affect FLG levels in the skin [30], and with increased TEWL [4].

In subgroup analysis of the infants with TEWL measurements at enrolment, AD was associated with weight-for-length in infancy even when TEWL was retained in the final models. Although based on a limited number of infants and on TEWL measurements performed with a wider humidity range than in most other studies (11), this is in line with other studies showing skin barrier dysfunction to be associated with overweight and obesity in children [4] and adults [5].

The strengths of the present study include having a cohort of infants living in the same geographical area and recruited from a clinical trial on bronchiolitis and the general population, and a reasonable follow-up rate at 2 years. We find it unlikely that the difference in follow-up rates between the two groups have had any significant impact on the study’s ability to detect associations. Being recruited from the bronchiolitis trial or the general population (i.e. recruitment source) was included in all multiple regression analyses and did not reach the final model in Hosmer’s step down procedure. This indicates that there was no significant effect of recruitment source on the results, despite some heterogeneity between the two groups. All children were examined by experienced physicians, using well-established criteria for AD, as well as reliable measurements of weight and length at all time points. All analyses were adjusted for possible confounding variables. We did not have access to data on maternal health such as weight and/or BMI, which is known to have an impact on the infants’ weight-for-length. Power calculations were performed post hoc. For some subgroup analyses the power is low due to a low number of subjects. Also, multiple statistical analyses increase the risk for type 1 error.

Our results suggest that overweight may be a contributing factor for the development of AD in early life, highlighting the need for child health-care professionals to address potential overweight and atopic disease when advising infants’ caregivers.