Higher temps may increase overdose deaths in the US

A new study found that higher temperatures may increase overdose deaths in the US, regardless of drug type.
The researchers analyzed county-level mortality data across the continental US from 1999 to 2020 and found a significant association between heat exposure and increased drug overdose deaths.
Heat exposure was particularly associated with increased opioid overdose deaths, especially after 2013 when fentanyl began to dominate the illicit opioid supply.
The study also found that urban and suburban counties, as well as those with greater social vulnerability, saw the greatest impact of heat exposure on overdose death rates.
The authors recommend improving public health surveillance infrastructure, implementing heat exposure mitigation strategies, and targeted education to raise awareness about the risks of heat exposure in the context of drug use.

A close up of a thermometer hitting 100 degrees Fahrenheit.

A new study investigates the association between heat exposure and drug overdose deaths on a national scale.

Across the United States, rising temperatures due to climate change pose a growing threat to public health. Extreme heat exposure has been linked to increases in premature deaths, cardiovascular and respiratory diseases, suicide rates, and violent crime.

A growing body of research additionally points to a connection between heat and fatal drug overdoses.

People who use drugs may be especially vulnerable to the adverse health effects of heat exposure. Some drug use can directly increase body temperature. Drug use can also impair an individual’s ability to recognize and respond to overheating.

For example, respiratory depression associated with opioid use can disrupt the body’s compensatory efforts to cool down. Furthermore, drug use can compound adverse effects of overheating. Both heat exposure and stimulant use, for instance, are independently associated with cardiovascular problems. Stimulant use in combination with heat exposure can exacerbate cardiovascular risk.

In the new study in Addiction, Julia Dennett and colleagues examined county-level mortality data across the continental US in June through September of each year from 1999 to 2020. The researchers employed a novel strategy to compare counties against each other year-to-year and assess fluctuations in heat and effects on overdose.

Dennett, the study’s lead author, was a postdoctoral researcher with Yale School of Public Health (YSPH) when the study was conducted. She is currently a postdoctoral researcher with the Hasso Plattner institute in Potsdam, Germany. Other coauthors on the study were Gregg Gonsalves (senior author) and Daniel Carrión from YSPH, and David Fiellin from Yale School of Medicine (YSM) .

To appropriately measure heat exposure and account for associated health risks, the researchers employed the monthly average maximum heat index—which considers both temperatures and relative humidity—and considered other relevant variables in their analysis such as precipitation and air pollution levels.

The researchers found that heat exposure was associated with increased drug overdose deaths, regardless of drug type, during the study period. In the hottest months of each year, there were 150 excess deaths annually. The greatest number of deaths occurred in recent years as temperatures continue to rise. Consistent with the broader literature, heat exposure appeared to affect overdose deaths involving stimulants such as cocaine and methamphetamine. Heat exposure also was associated with increased opioid overdose deaths. Larger effects in overdose mortality were observed after 2013, when fentanyl began to dominate the illicit opioid supply.

“We observed an association between heat and all drug overdose deaths, including deaths related to opioids, cocaine, and methamphetamines. The time period we studied experienced both rising temperatures and an evolving drug supply, and the relationship between heat and drug overdose deaths reflects these ongoing forces,” says Dennett.

The increasing prevalence of polysubstance use, and co-use of opioids and stimulants in particular, further complicates overdose risk in the setting of extreme heat. Other factors such as income, housing status, urban environment, and use of certain psychiatric medications, can also shape individuals’ relative risk for heat exposure as well as their ability to thermoregulate. Dennett and colleagues ran additional analyses accounting for some of these factors, finding that urban and suburban counties and counties with greater levels of social vulnerability as measured by the Social Vulnerability Index, saw the greatest impact of heat exposure on overdose death rates.

“Effects were largest in counties with more social vulnerability and in urban and suburban areas. Social determinants of health—including income, housing, and the local environment— are critical to understanding and addressing the risks of heat exposure for people who use drugs,” says Dennett.

As extreme heat events become more frequent in the US, Dennett and colleagues call on policymakers to address the heightened risk people who use drugs face amidst the ongoing, intersecting climate and overdose crises.

“There are many factors that make individuals more susceptible to the impacts of heat. A wider recognition that drug use is involved in heat vulnerability may allow us to use data to tailor and target interventions,” says Daniel Carrión, assistant professor of epidemiology (environmental health) at YSPH and a coauthor of the study.

“This study puts two seemingly distinct public health crises —the overdose crisis and the climate crisis—in conversation. Recognizing that extreme weather can compound the risks of drug-related overdose is an important step towards effective public health efforts.”

The authors recommend improving public health surveillance infrastructure to track heat and overdose and, in so doing, empower data-driven interventions. They also encourage implementation of heat exposure mitigation strategies such as expansion of public vegetation and green spaces, provision of low-barrier housing, assistance with water and electricity utilities for low-income households, and installation of cooling stations.

They additionally highlight a need for targeted education to raise awareness of the risks of heat exposure, particularly in the context of drug use, and promote strategies that may reduce individual risk of overdose and other adverse health outcomes.

Support for this research came from the National Institute on Drug Abuse. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institute on Drug Abuse.

Source: Yale University

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Q. What is the main finding of the new study on heat exposure and drug overdose deaths?

A. The study found that heat exposure was associated with increased drug overdose deaths, regardless of drug type.

Q. How did the researchers measure heat exposure in their study?

A. They used the monthly average maximum heat index, which considers both temperatures and relative humidity.

Q. Which types of drugs were most affected by heat exposure in the study?

A. The study found that heat exposure was associated with increased opioid overdose deaths, as well as deaths related to stimulants such as cocaine and methamphetamine.

Q. What is the significance of the increasing prevalence of polysubstance use in the context of extreme heat?

A. Polysubstance use complicates overdose risk by increasing the potential for co-use of opioids and stimulants, which can exacerbate overdose deaths.

Q. Which factors were found to shape individuals’ relative risk for heat exposure as well as their ability to thermoregulate?

A. The study found that social determinants of health, including income, housing, and the local environment, play a critical role in understanding and addressing the risks of heat exposure.

Q. What is the call on policymakers from the authors of the study?

A. The authors recommend that policymakers address the heightened risk people who use drugs face amidst the ongoing climate and overdose crises by implementing data-driven interventions and heat exposure mitigation strategies.

Q. How did the researchers’ analysis account for other factors that may influence heat exposure and overdose deaths?

A. They ran additional analyses accounting for some of these factors, including income, housing status, urban environment, and use of certain psychiatric medications.

Q. What is the significance of the study’s findings in the context of the broader literature on heat and drug overdose deaths?

A. The study puts two seemingly distinct public health crises —the overdose crisis and the climate crisis—in conversation by recognizing that extreme weather can compound the risks of drug-related overdose.

Q. Who supported the research behind this study?

A. The study was supported by the National Institute on Drug Abuse.

Q. What is the recommended approach for addressing the heightened risk people who use drugs face amidst the ongoing climate and overdose crises?

A. The authors recommend improving public health surveillance infrastructure to track heat and overdose, as well as implementing targeted education and heat exposure mitigation strategies.