The Opioid Epidemic: a Crisis Disproportionately Impacting Black Americans and Urban Communities

This paper documents a marked increase in the all-cause mortality of middle-aged white non-Hispanic men and women in the United States between 1999 and 2013. This change reversed decades of progress in mortality and was unique to the United States; no other rich country saw a similar turnaround. The midlife mortality reversal was confined to white non-Hispanics; black non-Hispanics and Hispanics at midlife, and those aged 65 and above in every racial and ethnic group, continued to see mortality rates fall. This increase for whites was largely accounted for by increasing death rates from drug and alcohol poisonings, suicide, and chronic liver diseases and cirrhosis. Although all education groups saw increases in mortality from suicide and poisonings, and an overall increase in external cause mortality, those with less education saw the most marked increases. Rising midlife mortality rates of white non-Hispanics were paralleled by increases in midlife morbidity. Self-reported declines in health, mental health, and ability to conduct activities of daily living, and increases in chronic pain and inability to work, as well as clinically measured deteriorations in liver function, all point to growing distress in this population. We comment on potential economic causes and consequences of this deterioration.

Deaths involving synthetic opioids other than methadone (synthetic opioids), which largely consist of illicitly manufactured fentanyl; psychostimulants with abuse potential (e.g., methamphetamine); and cocaine have increased in recent years, particularly since 2013 ( 1 , 2 ). In 2019, a total of 70,630 drug overdose deaths occurred, corresponding to an age-adjusted rate of 21.6 per 100,000 population and a 4.3% increase from the 2018 rate (20.7) ( 3 ). CDC analyzed trends in age-adjusted overdose death rates involving synthetic opioids, psychostimulants, cocaine, heroin, and prescription opioids during 2013–2019, as well as geographic patterns in synthetic opioid- and psychostimulant-involved deaths during 2018–2019. From 2013 to 2019, the synthetic opioid-involved death rate increased 1,040%, from 1.0 to 11.4 per 100,000 age-adjusted (3,105 to 36,359). The psychostimulant-involved death rate increased 317%, from 1.2 (3,627) in 2013 to 5.0 (16,167) in 2019. In the presence of synthetic opioid coinvolvement, death rates for prescription opioids, heroin, psychostimulants, and cocaine increased. In the absence of synthetic opioid coinvolvement, death rates increased only for psychostimulants and cocaine. From 2018 to 2019, the largest relative increase in the synthetic opioid-involved death rate occurred in the West (67.9%), and the largest relative increase in the psychostimulant-involved death rate occurred in the Northeast (43.8%); these increases represent important changes in the geographic distribution of drug overdose deaths. Evidence-based prevention and response strategies including substance use disorder treatment and overdose prevention and response efforts focused on polysubstance use must be adapted to address the evolving drug overdose epidemic. Drug overdose deaths were identified in the National Vital Statistics System multiple cause-of-death mortality files* by using International Classification of Diseases, Tenth Revision (ICD-10) underlying cause-of-death codes X40–44 (unintentional), X60–64 (suicide), X85 (homicide), or Y10–14 (undetermined intent). Drug categories were defined using the following ICD-10 multiple cause-of-death codes: synthetic opioids other than methadone (T40.4), psychostimulants with abuse potential (T43.6), cocaine (T40.5), prescription opioids (T40.2 or T40.3), and heroin (T40.1). Deaths involving more than one type of drug were included in the rates for each applicable drug category; categories are not mutually exclusive. † Annual age-adjusted death rates § were examined during 2013–2019 and stratified by drug category and synthetic opioid coinvolvement. The percentage of 2019 drug overdose deaths and change in 2018–2019 age-adjusted death rates involving synthetic opioids and psychostimulants were examined by U.S Census region ¶ and state. States with inadequate drug specificity, too few deaths to calculate stable estimates, or too few deaths to meet confidentiality requirements were excluded from state-level analyses.** ,†† Analyses of rate changes used z-tests when deaths were ≥100 and nonoverlapping confidence intervals based on a gamma distribution when deaths were 80% of drug overdose death certificates named at least one specific drug in 2019 and ≥10 deaths occurred in 2019 in the specific drug category. † Rate per 100,000 population age-adjusted to the 2000 U.S. standard population using the vintage year population of the data year. § Z-tests were used if the number of deaths was ≥100 in both 2018 and 2019, and p 80% of drug overdose death certificates named at least one specific drug in 2018 and 2019 and ≥20 deaths occurred during 2018 and 2019 in the drug category examined. †† Deaths were classified using the International Classification of Diseases, Tenth Revision. Drug overdoses are identified using underlying cause-of-death codes X40–X44 (unintentional), X60–X64 (suicide), X85 (homicide), and Y10–Y14 (undetermined). §§ Drug overdose deaths, as defined, that involve synthetic opioids other than methadone (T40.4). ¶¶ Drug overdose deaths, as defined, that involve psychostimulants with abuse potential (T43.6). *** Because deaths might involve more than one drug, some deaths are included in more than one category. In 2019, 6.3% of drug overdose deaths did not include information on the specific type of drug(s) involved. The figure is a series of maps showing percent and relative change in age-adjusted rates of drug overdose deaths involving synthetic opioids other than methadone and psychostimulants with abuse potential in the United States during 2013–2019. From 2018 to 2019, the age-adjusted synthetic opioid-involved death rate increased 15.2%, from 9.9 to 11.4. In 2019, the Northeast had the highest percentage and rate of deaths involving synthetic opioids, but the smallest relative (5.2%) and absolute (1.0) rate increases from the previous year (19.1 in 2018 to 20.1 in 2019). In contrast, the West experienced the largest relative (67.9%) and absolute (1.9) rate increases from 2.8 in 2018 to 4.7 in 2019. From 2018 to 2019, a total of 20 states experienced relative increases in their synthetic opioid-involved death rate, with the highest rate in 2019 in Delaware (38.4). The largest relative rate increase occurred in Colorado (95.5%), and the largest absolute rate increase occurred in the District of Columbia (7.6). No state experienced a significant decrease. The percentage of deaths involving psychostimulants was highest in the West (43.5%) and lowest in the Northeast (7.9%) in 2019. The same geographic pattern was observed with psychostimulant-involved deaths that did not coinvolve synthetic opioids. In all northeastern states, fewer than 20% of drug overdose deaths involved psychostimulants. In 12 states, mostly in the West and Midwest, ≥40% of overdose deaths involved psychostimulants. Among these, the percentage was highest in Hawaii (70.2%) and Oklahoma (50.7%). The percentage was lowest in Maryland (3.3%). From 2018 to 2019, the age-adjusted rate of psychostimulant-involved deaths increased 28.2%, from 3.9 to 5.0. The Northeast experienced the largest relative (43.8%), but smallest absolute (0.7), rate increase. The Midwest (36.1%) and South (32.4%) experienced similar relative but slightly larger absolute (1.3 and 1.2, respectively) rate increases. Although the percentage of 2019 drug overdose deaths involving psychostimulants was highest in the West, the relative rate increase (17.5%) was lowest there. Twenty-four states experienced an increase in the rate of psychostimulant-involved deaths. Kansas experienced the largest relative increase (107.1%) and third largest absolute rate increase (3.0). West Virginia had the highest 2019 rate (24.4) and the largest absolute rate increase (5.1); New York had the lowest 2019 rate (1.3). No state had a significant decrease (Supplementary Table, https://stacks.cdc.gov/view/cdc/101757). Discussion In 2019, a total of 70,630 drug overdose deaths occurred in the United States; approximately one half involved synthetic opioids. From 2013 to 2019, the age-adjusted synthetic opioid death rate increased sharply by 1,040%, from 1.0 to 11.4. Death rates involving prescription opioids and heroin increased in the presence of synthetic opioids (from 0.3 to 1.8 and from 0.1 to 2.7, respectively), but not in their absence. Death rates involving psychostimulants increased 317% overall, regardless of synthetic opioid coinvolvement. Synthetic opioid- and psychostimulant-involved deaths shifted geographically from 2018 to 2019. From 2015 to 2016, states in the East had the largest increases in deaths involving synthetic opioids, and from 2016 to 2017, the Midwest had the largest increases in deaths involving psychostimulants ( 2 , 4 ). In contrast, from 2018 to 2019, the largest relative increase in death rates involving synthetic opioids occurred in the West (67.9%); the largest relative increase in death rate involving psychostimulants occurred in the Northeast (43.8%). Sharp increases in synthetic opioid- and psychostimulant-involved overdose deaths in 2019 are consistent with recent trends indicating a worsening and expanding drug overdose epidemic ( 1 , 2 , 4 – 6 ). Synthetic opioids, particularly illicitly manufactured fentanyl and fentanyl analogs, are highly potent, increasingly available across the United States, and found in the supplies of other drugs ( 7 , 8 ). Co-use of synthetic opioids with other drugs can be deliberate or inadvertent (i.e., products might be adulterated with illicitly manufactured fentanyl or fentanyl analogs unbeknownst to the user). Similarly, psychostimulant-involved deaths are likely rising because of increases in potency, availability, and reduced cost of methamphetamine in recent years ( 9 ). The increase in synthetic-opioid involved deaths in the West and in psychostimulant-involved deaths in the Northeast signal broadened geographic use of these substances, consistent with increases in the number of drug submissions to forensic laboratories in those regions during 2018–2019 ( 8 ). The findings in this report are subject to at least two limitations. First, forensic toxicology testing protocols varied by time and jurisdiction, particularly for synthetic opioids. Therefore, some of the increases in overdose deaths reported by drug categories could be attributed to the increases in testing as well as the use of more comprehensive tests. Second, geographic analyses excluded states with inadequate drug specificity or too few deaths to calculate stable rates. The worsening and expanding drug overdose epidemic in the United States now involves potent synthetic drugs, often in combination with other substances, and requires urgent action. As involved substances and geographic trends in drug overdose deaths change, timely surveillance and evidence-based prevention and response strategies remain essential. CDC’s Overdose Data to Action ¶¶ cooperative agreement funds health departments in 47 states, the District of Columbia, two territories, and 16 cities and counties to obtain high-quality, comprehensive, and timely data on fatal and nonfatal drug overdoses to inform prevention and response efforts. To help curb this epidemic, Overdose Data to Action strategies focus on enhancing linkage to and retention in substance use disorder treatment, improving prescription drug monitoring programs, implementing postoverdose protocols in emergency departments, including naloxone provision to patients who use opioids or other illicit drugs, and strengthening public health and public safety partnerships, enabling data sharing to help inform comprehensive interventions.*** Other approaches ††† should include expanded naloxone distribution and education that potent opioids might require multiple doses of naloxone, improved access to substance use disorder treatment (including medications for opioid use disorder or programs addressing polysubstance use), expanded harm reduction services, and continued partnerships with public safety to monitor trends in the illicit drug supply, including educating the public that drug products might be adulterated with fentanyl or fentanyl analogs unbeknownst to users. A comprehensive and coordinated approach from clinicians, public health, public safety, community organizations, and the public must incorporate innovative and established prevention and response strategies, including those focused on polysubstance use. Summary What is already known about this topic? Deaths involving synthetic opioids other than methadone, cocaine, and psychostimulants have increased in recent years. What is added by this report? From 2013 to 2019, the age-adjusted rate of deaths involving synthetic opioids other than methadone increased 1,040%, and for psychostimulants increased 317%. During 2018–2019, the largest relative increase in synthetic opioid-involved death rates occurred in the West (67.9%), and the largest relative increase in psychostimulant-involved death rates occurred in the Northeast (43.8%). What are the implications for public health practice? Evidence-based prevention and response strategies, including substance use disorder treatment and overdose prevention and response efforts focused on polysubstance use, must be adapted to address the changing drug overdose epidemic.

The 63,632 drug overdose deaths in the United States in 2016 represented a 21.4% increase from 2015; two thirds of these deaths involved an opioid ( 1 ). From 2015 to 2016, drug overdose deaths increased in all drug categories examined; the largest increase occurred among deaths involving synthetic opioids other than methadone (synthetic opioids), which includes illicitly manufactured fentanyl (IMF) ( 1 ). Since 2013, driven largely by IMF, including fentanyl analogs ( 2 – 4 ), the current wave of the opioid overdose epidemic has been marked by increases in deaths involving synthetic opioids. IMF has contributed to increases in overdose deaths, with geographic differences reported ( 1 ). CDC examined state-level changes in death rates involving all drug overdoses in 50 states and the District of Columbia (DC) and those involving synthetic opioids in 20 states, during 2013–2017. In addition, changes in death rates from 2016 to 2017 involving all opioids and opioid subcategories,* were examined by demographics, county urbanization levels, and by 34 states and DC. Among 70,237 drug overdose deaths in 2017, 47,600 (67.8%) involved an opioid. † From 2013 to 2017, drug overdose death rates increased in 35 of 50 states and DC, and significant increases in death rates involving synthetic opioids occurred in 15 of 20 states, likely driven by IMF ( 2 , 3 ). From 2016 to 2017, overdose deaths involving all opioids and synthetic opioids increased, but deaths involving prescription opioids and heroin remained stable. The opioid overdose epidemic continues to worsen and evolve because of the continuing increase in deaths involving synthetic opioids. Provisional data from 2018 indicate potential improvements in some drug overdose indicators; § however, analysis of final data from 2018 is necessary for confirmation. More timely and comprehensive surveillance data are essential to inform efforts to prevent and respond to opioid overdoses; intensified prevention and response measures are urgently needed to curb deaths involving prescription and illicit opioids, specifically IMF. Drug overdose deaths were identified in the National Vital Statistics System multiple cause-of-death mortality files, ¶ with death certificate data coded using the International Classification of Diseases, Tenth Revision (ICD-10) codes X40–44 (unintentional), X60–64 (suicide), X85 (homicide), or Y10–Y14 (undetermined intent). Among deaths with drug overdose as the underlying cause, the type of drug or drug category is indicated by the following ICD-10 multiple cause-of-death codes: opioids (T40.0, T40.1, T40.2, T40.3, T40.4, or T40.6)**; natural/semisynthetic opioids (T40.2); methadone (T40.3); heroin (T40.1); synthetic opioids other than methadone (T40.4); cocaine (T40.5); and psychostimulants with abuse potential (T43.6). †† Some deaths involved more than one type of drug, and these were included in rates for each drug category; thus, categories are not mutually exclusive. §§ Annual percent change with statistically significant trends in age-adjusted drug overdose death rates ¶¶ for all 50 states and DC from 2013 to 2017 and in age-adjusted death rates involving synthetic opioids for 20 states that met drug specificity criteria*** were analyzed using Joinpoint regression. ††† Age-adjusted overdose death rates were examined from 2016 to 2017 for all opioids, prescription opioids ( 5 ), heroin, and synthetic opioids. Death rates were stratified by age, sex, racial/ethnic group, urbanization level, §§§ and state. State-level analyses included DC and 34 states with adequate drug specificity data for 2016 and 2017. ¶¶¶ Analyses comparing changes in death rates from 2016 to 2017 used z-tests when the number of deaths was ≥100 and nonoverlapping confidence intervals based on a gamma distribution when the number was 80% of drug overdose death certificates named at least one specific drug in 2013–2017; 2) change from 2013 to 2017 in the percentage of death certificates reporting at least one specific drug was <10 percentage points; and 3) ≥20 deaths involving synthetic opioids other than methadone occurred each year during 2013–2017. States whose reporting of any specific drug or drugs involved in an overdose changed by ≥10 percentage points from 2013 to 2017 were excluded because drug-specific overdose numbers and rates might have changed substantially from 2013 to 2017 as a result of changes in reporting. ¶ Left panel: Joinpoint regression examining changes in trends from 2013 to 2017 indicated that 35 states and the District of Columbia had significant increases in drug overdose death rates from 2013 to 2017 (Alabama, Alaska, Arizona, Arkansas, Connecticut, Delaware, District of Columbia, Florida, Georgia, Hawaii, Illinois, Indiana, Iowa, Kentucky, Louisiana, Maine, Maryland, Massachusetts, Michigan, Minnesota, Missouri, New Jersey, New York, North Carolina, Ohio, Pennsylvania, Rhode Island, South Carolina, South Dakota, Tennessee, Texas, Vermont, Virginia, Washington, West Virginia, and Wisconsin). All remaining states had nonsignificant trends during this period. Right panel: Joinpoint regression examining changes in trends from 2013 to 2017 indicated that 15 states had significant increases in death rates for overdoses involving synthetic opioids other than methadone from 2013 to 2017 (Connecticut, Illinois, Iowa, Maine, Maryland, Minnesota, Nevada, New York, North Carolina, Oregon, Rhode Island, Virginia, Washington, West Virginia, and Wisconsin). The five remaining states analyzed had nonsignificant trends during this period. Significant increases in trends were not detected in some states with large absolute increases in death rates from 2013 to 2017 because of limited power to detect significant effects. The figure shows age-adjusted rates of drug overdose deaths and deaths involving synthetic opioids other than methadone, by state in the United States during 2013 and 2017. From 2016 to 2017, opioid-involved overdose deaths increased among males and females and among persons aged ≥25 years, non-Hispanic whites (whites), non-Hispanic blacks (blacks), and Hispanics (Table 1). The largest relative change occurred among blacks (25.2%), and the largest absolute rate increase was among males aged 25–44 years (an increase of 4.6 per 100,000). The largest relative change among age groups was for persons aged ≥65 years (17.2%). Counties in medium metro areas experienced the largest absolute rate increase (an increase of 1.9 per 100,000), and the largest relative rate increase occurred in micropolitan counties (14.9%). Death rates increased significantly in 15 states, with the largest relative changes in North Carolina (28.6%), Ohio (19.1%), and Maine (18.7%). From 2016 to 2017, the prescription opioid-involved death rate decreased 13.2% among males aged 15–24 years but increased 10.5% among persons aged ≥65 years (Table 1). These death rates remained stable from 2016 to 2017 across all racial groups and urbanization levels and in most states, although five states (Maine, Maryland, Oklahoma, Tennessee, and Washington) experienced significant decreases, and one (Illinois) had a significant increase. The largest relative changes included a 29.7% increase in Illinois and a 39.2% decrease in Maine. The highest prescription opioid-involved death rates in 2017 were in West Virginia (17.2 per 100,000), Maryland (11.5), and Utah (10.8). Heroin-involved overdose death rates declined among many groups in 2017 compared with those in 2016 (Table 2). The largest declines occurred among persons aged 15–24 years (15.0%), particularly males (17.5%), as well as in medium metro counties (6.1%). Rates declined 3.2% among whites. However, heroin-involved overdose death rates did increase among some groups; the largest relative rate increase occurred among persons aged ≥65 years (16.7%) and 55–64 years (11.6%) and among blacks (8.9%). Rates remained stable in most states, with significant decreases in five states (Maryland, Massachusetts, Minnesota, Missouri, and Ohio), and increases in three (California, Illinois, and Virginia). The largest relative decrease (31.9%) was in Ohio, and the largest relative increase (21.8%) was in Virginia. The highest heroin-involved overdose death rates in 2017 were in DC (18.0 per 100,000), West Virginia (14.9), and Connecticut (12.4). Deaths involving synthetic opioids propelled increases from 2016 to 2017 across all demographic categories (Table 2). The highest death rate was in males aged 25–44 years (27.0 per 100,000), and the largest relative increases occurred among blacks (60.7%) and American Indian/Alaska Natives (58.5%). Deaths increased across all urbanization levels from 2016 to 2017. Twenty-three states and DC experienced significant increases in synthetic opioid-involved overdose death rates, including eight states west of the Mississippi River. The largest relative rate increase occurred in Arizona (122.2%), followed by North Carolina (112.9%) and Oregon (90.9%). The highest synthetic opioid-involved overdose death rates in 2017 were in West Virginia (37.4 per 100,000), Ohio (32.4), and New Hampshire (30.4). Discussion In the United States, drug overdoses resulted in 702,568 deaths during 1999–2017, with 399,230 (56.8%) involving opioids. †††† From 2016 to 2017, death rates from all opioids increased, with increases driven by synthetic opioids. Deaths involving IMF have been seen primarily east of the Mississippi River; §§§§ however, recent increases occurred in eight states west of the Mississippi River, including Arizona, California, Colorado, Minnesota, Missouri, Oregon, Texas, and Washington. Drug overdose death rates from 2013 to 2017 increased in most states; the influence of synthetic opioids on these rate increases was seen in approximately one quarter of all states during this same 5-year period. Overdose deaths involving cocaine and psychostimulants also have increased in recent years ( 1 , 6 ). Overall, the overdose epidemic continues to worsen, and it has grown increasingly complex by co-involvement of prescription and illicit drugs ( 7 , 8 ). ¶¶¶¶ For example, in 2016, synthetic opioids (primarily IMF) were involved in 23.7% of deaths involving prescription opioids, 37.4% involving heroin, and 40.3% involving cocaine ( 9 ). In addition, death rates are increasing across multiple demographic groups. For example, although death rates involving opioids remained highest among whites, relatively large increases across several drug categories were observed among blacks. The findings in this report are subject to at least five limitations. First, at autopsy, substances tested for vary by time and jurisdiction, and improvements in toxicologic testing might account for some reported increases. Second, the specific types of drugs involved were not included on 15% of drug overdose death certificates in 2016 and 12% in 2017, and the percentage of death certificates with at least one drug specified ranged among states from 54.7%–99.3% in 2017, limiting rate comparisons between states. Third, because heroin and morphine are metabolized similarly ( 10 ), some heroin deaths might have been misclassified as morphine deaths, resulting in underreporting of heroin deaths. Fourth, potential race misclassification might have led to underestimates for certain categories, primarily for American Indian/Alaska Natives and Asian/Pacific Islanders.***** Finally, most state-specific analyses were restricted to DC and a subset of states with adequate drug specificity, limiting generalizability. Through 2017, the drug overdose epidemic continues to worsen and evolve, and the involvement of many types of drugs (e.g., opioids, cocaine, and methamphetamine) underscores the urgency to obtain more timely and local data to inform public health and public safety action. Although prescription opioid- and heroin-involved death rates were stable from 2016 to 2017, they remained high. Some preliminary indicators in 2018 point to possible improvements based on provisional data; ††††† however, confirmation will depend on results of pending medical investigations and analysis of final data. Overall, deaths involving synthetic opioids continue to drive increases in overdose deaths. CDC funds 32 states and DC to collect more timely and comprehensive drug overdose data, including improved toxicologic testing in opioid-involved fatal overdoses. §§§§§ CDC is funding prevention activities in 42 states and DC. ¶¶¶¶¶ CDC also is leveraging emergency funding to support 49 states, DC, and four territories to broaden their surveillance and response capabilities and enable comprehensive community-level responses with implementation of novel, evidence-based interventions.****** Continued efforts to ensure safe prescribing practices by following the CDC Guideline for Prescribing Opioids for Chronic Pain †††††† are enhanced by access to nonopioid and nonpharmacologic treatments for pain. Other important activities include increasing naloxone availability, expanding access to medication-assisted treatment, enhancing public health and public safety partnerships, and maximizing the ability of health systems to link persons to treatment and harm-reduction services. Summary What is already known about this topic? The U.S. opioid overdose epidemic continues to evolve. In 2016, 66.4% of the 63,632 drug overdose deaths involved an opioid. What is added by this report? In 2017, among 70,237 drug overdose deaths, 47,600 (67.8%) involved opioids, with increases across age groups, racial/ethnic groups, county urbanization levels, and in multiple states. From 2013 to 2017, synthetic opioids contributed to increases in drug overdose death rates in several states. From 2016 to 2017, synthetic opioid-involved overdose death rates increased 45.2%. What are the implications for public health practice? Continued federal, state, and local surveillance efforts to inform evidence-based prevention, response, and treatment strategies and to strengthen public health and public safety partnerships are urgently needed.