PURPOSE OF REVIEW: There is increasing evidence that the prenatal window represents a critical period in which the developing immune system may be primed toward an allergic phenotype. Studies have investigated the role of a number of maternal environmental exposures on subsequent allergic disorders in the offspring. We summarize findings from recent studies on prenatal environmental factors influencing IgE levels, atopy, and early asthma. RECENT FINDINGS: A building literature supports the influence of maternal exposure to environmental pollutants, such as allergens, traffic-related air pollution, tobacco smoke, and organochlorine compounds and social factors on allergic outcomes. More novel associations have been investigated, such as the effect of prenatal exposures to phthalates, bisphenol A, and magnetic fields. There is also rising interest in epigenetics as a pathway of action by which maternal exposure affect immune health. SUMMARY: Emerging research highlights the challenges of investigating in-utero exposures and of relating exposures to such a heterogeneous and complex outcome as allergic disease. Further research is needed on the mechanisms by which prenatal exposure influences allergic response in childhood and how postnatal, familial and social factors, and sex can modify disease outcomes. Epigenetics is a promising new frontier, and likely one of several explanatory factors.
PURPOSE OF REVIEW: There is increasing evidence that the prenatal window represents a critical period in which the developing immune system may be primed toward an allergic phenotype. Studies have investigated the role of a number of maternal environmental exposures on subsequent allergic disorders in the offspring. We summarize findings from recent studies on prenatal environmental factors influencing IgE levels, atopy, and early asthma. RECENT FINDINGS: A building literature supports the influence of maternal exposure to environmental pollutants, such as allergens, traffic-related air pollution, tobacco smoke, and organochlorine compounds and social factors on allergic outcomes. More novel associations have been investigated, such as the effect of prenatal exposures to phthalates, bisphenol A, and magnetic fields. There is also rising interest in epigenetics as a pathway of action by which maternal exposure affect immune health. SUMMARY: Emerging research highlights the challenges of investigating in-utero exposures and of relating exposures to such a heterogeneous and complex outcome as allergic disease. Further research is needed on the mechanisms by which prenatal exposure influences allergic response in childhood and how postnatal, familial and social factors, and sex can modify disease outcomes. Epigenetics is a promising new frontier, and likely one of several explanatory factors.
Authors: Anna P Westberg; Minna K Salonen; Mikaela von Bonsdorff; Clive Osmond; Eero Kajantie; Johan G Eriksson Journal: Eur Respir J Date: 2018-08-30 Impact factor: 16.671
Authors: Joanne E Sordillo; Sheryl L Rifas-Shiman; Karen Switkowski; Brent Coull; Heike Gibson; Mary Rice; Thomas A E Platts-Mills; Itai Kloog; Augusto A Litonjua; Diane R Gold; Emily Oken Journal: J Allergy Clin Immunol Date: 2019-08-19 Impact factor: 10.793
Authors: Simon M Collin; Raquel Granell; Carri Westgarth; Jane Murray; Elizabeth S Paul; Jonathan A C Sterne; A John Henderson Journal: PLoS One Date: 2015-06-10 Impact factor: 3.240
Authors: S M Collin; R Granell; C Westgarth; J Murray; E Paul; J A C Sterne; A John Henderson Journal: Clin Exp Allergy Date: 2015-01 Impact factor: 5.018