May 8, 2024

Children's food allergy: Effects of environmental influences and antibiotic use across critical developmental windows

Lu C, Jiang Y, Lan M, Wang L, Zhang W, Wang F.  J Hazard Mater. 2024 May 6;472:134506. doi: 10.1016/j.jhazmat.2024.134506.


Graphical Abstract


Highlights

  • Postnatal exposure to outdoor CO, O3, SO2, and PM10 was related with children’s food allergy (FA).
  • Renovation- and smoke-related indoor air pollution (IAP) elevated the risk of childhood FA.
  • Dampness- and plant- related indoor allergens exposure increased risk of childhood FA.
  • Life-time and early-life antibiotic use increased the risk of childhood FA.
  • Children without using antibiotic had higher FA risk of outdoor and indoor environment exposure.

Abstract

Background

Increasing studies linked outdoor air pollution (OAP), indoor environmental factors (IEFs), and antibiotics use (AU) with the first wave of allergies (i.e., asthma, allergic rhinitis, and eczema), yet the role of their exposures on children’s second wave of allergy (i.e., food allergy) are unknown.

Objectives

To investigate the association between exposure to OAP and IEFs and childhood doctor-diagnosed food allergy (DFA) during the pre-pregnancy, prenatal, early postnatal, and current periods, and to further explore the effect of OAP and IEFs on DFA in children co-exposed to antibiotics.

Methods

A retrospective cohort study involving 8689 preschoolers was carried out in Changsha, China. Data on the health outcomes, antibiotic use, and home environment of each child were collected through a questionnaire. Temperature and air pollutants data were obtained from 8 and 10 monitoring stations in Changsha, respectively. Exposure levels to temperature and air pollutants at individual home addresses were calculated by the inverse distance weighted (IDW) method. Multiple logistic regression models were employed to assess the associations of childhood DFA with exposure to OAP, IEF, and AU.

Results

Childhood ever doctor-diagnosed food allergy (DFA) was linked to postnatal PM10 exposure with OR (95% CI) of 1.18 (1.03–1.36), especially for CO and O3 exposure during the first year with ORs (95% CI) = 1.08 (1.00–1.16) and 1.07 (1.00–1.14), as well as SO2 exposure during the previous year with OR (95% CI) of 1.13 (1.02–1.25). The role of postnatal air pollution is more important for the risk of egg, milk and other food allergies. Renovation-related IAP (new furniture) and dampness-related indoor allergens exposures throughout all time windows significantly increased the risk of childhood DFA, with ORs ranging from 1.23 (1.03–1.46) to 1.54 (1.29–1.83). Furthermore, smoke-related IAP (environmental tobacco smoke [ETS], parental and grandparental smoking) exposure during pregnancy, first year, and previous year was related to DFA. Additionally, exposure to pet-related indoor allergens (cats) during first year and total plant-related allergens (particularly nonflowering plants) during previous year were associated with DFA. Moreover, exposure to plant-related allergy during first and previous year was specifically associated with milk allergy, while keeping cats during first year increased the risk of fruits/vegetables allergy. Life-time and early-life AU was associated with the increased risk of childhood DFA with ORs (95% CI) = 1.57 (1.32–1.87) and 1.46 (1.27–1.67), including different types food allergies except fruit/vegetable allergy.

Conclusions

Postnatal OAP, life-time and early-life IEFs and AU exposure played a vital role in the development of DFA, supporting the "fetal origin of childhood FA" hypothesis.

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