The Case of Juliana v. U.S. — Children and the Health Burdens of Climate Change [NEJM.org]

Renee N. Salas, M.D., M.P.H., Wendy Jacobs, J.D., and Frederica Perera, Dr.P.H., Ph.D.

On June 4, 2019, the Ninth Circuit Court of Appeals will hear oral arguments in Juliana v. United States to determine whether the case will proceed to trial in district court in Oregon. Nearly 4 years ago, 21 children and adolescents between 8 and 19 years of age, including Kelsey Juliana from Oregon, filed suit against the federal government, charging that the government’s inaction on addressing climate change violated their constitutional right to life, liberty, and property.¹ To date, no such lawsuit against the federal government has succeeded in the United States, despite a sharp increase in the number of similar suits filed by young people, municipalities, and state governments. Indeed, none of these lawsuits has gone to trial.

As the Juliana plaintiffs argue — and we agree — climate change is the greatest public health emergency of our time and is particularly harmful to fetuses, infants, children, and adolescents.^2,3 The adverse effects of continued emissions of carbon dioxide and fossil-fuel–related pollutants threaten children’s right to a healthy existence in a safe, stable environment. It is for this reason that we, together with nearly 80 scientists and physicians and 15 health organizations including the American Academy of Pediatrics, submitted an amicus brief to help educate the Ninth Circuit about this extraordinary threat.⁴ More frequent and longer heat waves, increasing intensity of extreme weather events such as droughts and wildfires, worsening infectious-disease exposures, food and water insecurity, and air pollution from fossil-fuel burning all threaten to destabilize our public health and health care infrastructure.³

Developing fetuses, infants, and children are more biologically and psychologically vulnerable than adults to the effects of climate change and to exposure to particulate matter and air pollutants that are emitted during the production and combustion of fossil fuels.⁴ Their increased susceptibility is a product of their ongoing developmental processes and growth; underdeveloped systems for temperature regulation, immune responses, and detoxification; and inability to care for themselves. The World Health Organization has estimated that 88% of the global health burden of climate change now falls on children less than 5 years of age.⁴

Exposure to extreme heat in utero is associated with an increased risk of pregnancy complications and birth defects.⁴ Climate-sensitive infections are on the rise because of the spread of vectors, such as the Aedes aegypti mosquito that transmits Zika virus. The 2015–2016 Zika outbreak in the United States was linked to a 21% increase in birth defects in affected regions.⁴ The combustion of coal at power plants produces mercury, a known potent neurotoxin for fetuses that can lead to reduced cognitive ability and motor function even at low levels of exposure.⁴ Infants are especially vulnerable to the effects of heat in the first week of life, and one study found that infant mortality increased by 25% on extremely hot days.⁴

As children grow into toddlers and begin school, their developing organs remain vulnerable to insults.⁴ Their higher respiratory rates and increased outdoor exposure as compared with adults make children especially susceptible to air pollution, including particulate matter from fossil-fuel combustion and ozone, which forms more rapidly at higher temperatures. Exposure to air pollutants has been linked to increased mortality, school absenteeism, asthma-related emergency department (ED) visits and admissions, and cognitive and behavioral effects.⁴ Early-life exposure to such pollutants increases a child’s likelihood of developing asthma and of having diminished lung function as a teenager.

Some health risks associated with climate change vary depending on geographic region or socioeconomic status. For example, children in the western United States are facing more days of wildfire smoke exposure, which increases rates of hospitalizations for asthma exacerbations.⁴ Children between 5 and 9 years of age have the highest incidence of Lyme disease, the most common tickborne disease, and exposures are being documented in an increasing number of regions.⁴ Children of lower socioeconomic status are more likely to be heavily exposed to air pollution and are anticipated to be more affected by the reduced nutritional content of crops and by water insecurity than children from wealthier families.⁴ As for older children, heat-related exertional injuries disproportionally affect teenage athletes, and ED visits for such injuries increased by 134% between 1997 and 2006.⁴

Today’s children are expected to have poorer health as they age than today’s adults do, because of the worsening and intensifying effects of climate change. We have only scratched the surface in terms of our understanding of the range of health harms associated with climate change and related increases in air pollution over the lifetime of a child born in the past decade or two. For example, recent studies revealed early associations between extreme heat and increasing antibiotic resistance, worsening mental health, and impaired cognitive function.⁴ These adverse health effects may be further exacerbated by climate-change–related destabilization of U.S. health care infrastructure, as illustrated by the intravenous saline shortage that occurred after Hurricane Maria.

Finally, there is evidence that the mental health effects experienced by children today may have a long-lasting impact that extends to future generations. Among the 200,000 children who were displaced because of Hurricane Katrina, 50% of preschool-aged children and 71% of middle school–aged children met the criteria for post-traumatic stress disorder.⁴ Severe storms and other extreme weather events related to climate change will substantially increase toxic stress, which not only impairs children’s healthy development but can alter gene expression and therefore result in changes that are passed on to future generations.⁵

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Read the entire article here: https://www.nejm.org/doi/full/...JMp1905504?query=TOC