The science of early life toxic stress for pediatric practice and advocacy - PubMed (original) (raw)

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The science of early life toxic stress for pediatric practice and advocacy

Sara B Johnson et al. Pediatrics. 2013 Feb.

Abstract

Young children who experience toxic stress are at high risk for a number of health outcomes in adulthood, including cardiovascular disease, cancers, asthma, and depression. The American Academy of Pediatrics has recently called on pediatricians, informed by research from molecular biology, genomics, immunology, and neuroscience, to become leaders in science-based strategies to build strong foundations for children's life-long health. In this report, we provide an overview of the science of toxic stress. We summarize the development of the neuroendocrine-immune network, how its function is altered by early life adversity, and how these alterations then increase vulnerability to disease. The fact that early environments shape and calibrate the functioning of biological systems very early in life is both a cautionary tale about overlooking critical periods in development and reason for optimism about the promise of intervention. Even in the most extreme cases of adversity, well-timed changes to children's environments can improve outcomes. Pediatricians are in a unique position to contribute to the public discourse on health and social welfare by explaining how factors that seem distal to child health may be the key to some of the most intractable public health problems of our generation. We consider the challenges and opportunities for preventing toxic stress in the context of contemporary pediatric practice.

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Figures

FIGURE 1

Relationship between the HPA axis, immune systems, and other body systems. Glucocorticoids are indicated by dashed lines, corticotropin-releasing hormone (CRH) by dotted lines, and cytokines by solid lines. ACTH, adrenocorticotropic hormone (ie, corticotropin); CNS, central nervous system.

FIGURE 2

Mediating role of the NEI network in linking early life experiences to individual differences in health and functioning. SES, socioeconomic status.

FIGURE 3

Ratios of CD4 and CD8 cells for mother-raised (MR) and nursery-raised (NR) monkeys over 2 years. Mean (+SE) of 2 or 3 samples per subject portrayed at 6-month intervals. NR monkeys had significantly higher ratios than MR monkeys at all ages (*P < .05). Reprinted from Lubach et al67 with permission from Elsevier.

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