Skip directly to search Skip directly to A to Z list Skip directly to page options Skip directly to site content

Increases in Drug and Opioid-Involved Overdose Deaths — United States, 2010–2015


Article Metrics

Views equals page views plus PDF downloads

Views:

Citations:

On December 16, 2016, this report was posted online as an MMWR Early Release.

Please note: An erratum has been published for this report. To view the erratum, please click here.

Rose A. Rudd, MSPH1; Puja Seth, PhD1; Felicita David, MS1; Lawrence Scholl, PhD1,2 (View author affiliations)

View suggested citation

Summary

What is already known about this topic?

The U.S. opioid epidemic is continuing. Drug overdose deaths nearly tripled during 1999–2014. In 2014, among 47,055 drug overdose deaths, 61% involved an opioid. During 2013–2014, deaths associated with the most commonly prescribed opioids (natural/semisynthetic opioids) continued to increase slightly; however, the rapid increase in deaths appears to be driven by heroin and synthetic opioids other than methadone.

What is added by this report?

From 2014 to 2015, the death rate from synthetic opioids other than methadone, which includes fentanyl, increased by 72.2%, and heroin death rates increased by 20.6%. Rates of death involving heroin and synthetic opioids other than methadone increased across all demographic groups, regions, and in numerous states. Natural/semisynthetic opioid death rates increased by 2.6%, whereas, methadone death rates decreased by 9.1%.

What are the implications for public health practice?

There is an urgent need for a multifaceted, collaborative public health and law enforcement approach to the opioid epidemic, including implementing the CDC Guideline for Prescribing Opioids for Chronic Pain; improving access to and use of prescription drug monitoring programs; expanding naloxone distribution; enhancing opioid use disorder treatment capacity and linkage into treatment, including medication-assisted treatment; implementing harm reduction approaches, such as syringe services program; and supporting law enforcement strategies to reduce the illicit opioid supply.

The U.S. opioid epidemic is continuing, and drug overdose deaths nearly tripled during 1999–2014. Among 47,055 drug overdose deaths that occurred in 2014 in the United States, 28,647 (60.9%) involved an opioid (1). Illicit opioids are contributing to the increase in opioid overdose deaths (2,3). In an effort to target prevention strategies to address the rapidly changing epidemic, CDC examined overall drug overdose death rates during 2010–2015 and opioid overdose death rates during 2014–2015 by subcategories (natural/semisynthetic opioids, methadone, heroin, and synthetic opioids other than methadone).* Rates were stratified by demographics, region, and by 28 states with high quality reporting on death certificates of specific drugs involved in overdose deaths. During 2015, drug overdoses accounted for 52,404 U.S. deaths, including 33,091 (63.1%) that involved an opioid. There has been progress in preventing methadone deaths, and death rates declined by 9.1%. However, rates of deaths involving other opioids, specifically heroin and synthetic opioids other than methadone (likely driven primarily by illicitly manufactured fentanyl) (2,3), increased sharply overall and across many states. A multifaceted, collaborative public health and law enforcement approach is urgently needed. Response efforts include implementing the CDC Guideline for Prescribing Opioids for Chronic Pain (4), improving access to and use of prescription drug monitoring programs, enhancing naloxone distribution and other harm reduction approaches, increasing opioid use disorder treatment capacity, improving linkage into treatment, and supporting law enforcement strategies to reduce the illicit opioid supply.

The National Vital Statistics System multiple cause-of-death mortality files were used to record drug overdose deaths. Drug overdose deaths were identified using the International Classification of Disease, Tenth Revision (ICD-10), based on the ICD-10 underlying cause-of-death 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 opioid 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); synthetic opioids other than methadone (T40.4); and heroin (T40.1). Some deaths involved more than one type of opioid; these deaths were included in the rates for each subcategory. Therefore, categories of deaths presented are not mutually exclusive.§

Changes in drug overdose death rates were analyzed for all 50 states and the District of Columbia (DC) from 2010 to 2015 using joinpoint regression. Opioid overdose death rates were examined for the period 2014–2015 by subcategories (natural/semisynthetic opioids, methadone, heroin, and synthetic opioids other than methadone) and by demographics, region, and across states. State-level analyses were conducted for 28 states meeting the following criteria: 1) >80% of drug overdose death certificates named at least one specific drug in 2014; 2) change from 2014 to 2015 in the percentage of death certificates reporting at least one specific drug was <10 percentage points**; and 3) ≥20 deaths occurred during 2014 and 2015 in at least two opioid subcategories examined. Analyses comparing changes in age-adjusted death rates from 2014 to 2015 used z-tests when deaths were ≥100 and nonoverlapping confidence intervals based on a gamma distribution when deaths were <100.††

The drug overdose death rate increased significantly from 12.3 per 100,000 population in 2010 to 16.3 in 2015. Death rates increased in 30 states and DC and remained stable in 19 states (Figure). Two states had changing trends during this period of decreasing rates followed by increases.§§ During 2015, a total of 52,404 persons in the United States died from a drug overdose, an increase from 47,055 in 2014; among these deaths, 33,091 (63.1%) involved an opioid, an increase from 28,647 in 2014. The age-adjusted opioid-involved death rate increased by 15.6%, from 9.0 per 100,000 in 2014 to 10.4 in 2015, driven largely by increases in deaths involving heroin and synthetic opioids other than methadone. Death rates for natural/semisynthetic opioids, heroin, and synthetic opioids other than methadone increased by 2.6%, 20.6%, and 72.2%, respectively (Table 1) (Table 2). Methadone death rates decreased by 9.1% (Table 1).

During 2014–2015, rates of natural/semisynthetic opioid deaths increased among males overall, both sexes aged 25–44 years, and non-Hispanic whites. Methadone death rates decreased among males and females overall, but increased among persons aged ≥65 years (Table 1). Death rates involving heroin and synthetic opioids other than methadone increased in both males and females, persons aged ≥15 years, and all racial/ethnic populations; however, heroin death rates among males aged 15–24 years remained stable. In 2015, death rates involving synthetic opioids other than methadone were highest among males aged 25–44 years (8.9 per 100,000), increasing 102.3% from 2014 to 2015 (Table 2). Heroin death rates also were highest in this demographic group (13.2), increasing 22.2% from 2014 to 2015. Natural/semisynthetic opioid death rates increased in the Northeast and South U.S. Census regions, and methadone death rates decreased in the South (Table 1). Death rates involving synthetic opioids other than methadone and heroin increased in all regions from 2014 to 2015 (Table 2).

Among the 28 states meeting inclusion criteria for state-level analyses, 16 (57.1%) experienced increases in death rates involving synthetic opioids other than methadone, and 11 (39.3%) experienced increases in heroin death rates from 2014 to 2015. The largest absolute rate change in deaths from synthetic opioids other than methadone occurred in Massachusetts, New Hampshire, Ohio, Rhode Island and West Virginia. The largest percentage increases in rates occurred in New York (135.7%), Connecticut (125.9%) and Illinois (120%) (Table 2). Connecticut, Massachusetts, Ohio, and West Virginia experienced the largest absolute rate changes in heroin deaths, while the largest percentage increases in rates occurred in South Carolina (57.1%), North Carolina (46.4%), and Tennessee (43.5) (Table 2). Three states (New Mexico, Oklahoma, and Virginia) experienced decreases in natural/semi-synthetic opioid death rates, while increases occurred in five states (Massachusetts, New York, North Carolina, Ohio, and Tennessee) (Table 1).

Discussion

During 2010–2015, the rate of drug overdose deaths in the United States increased in 30 states and DC, remained stable in 19 states, and showed decreasing trends followed by increases in two states.§§,¶¶ From 2014 to 2015, drug overdose deaths increased by 5,349 (11.4%), signifying a continuing trend observed since 1999 (1). Opioid death rates increased by 15.6% from 2014 to 2015. These significant increases in death rates were driven by synthetic opioids other than methadone (72.2%), most likely illicitly-manufactured fentanyl (2,3), and heroin (20.6%). Increases in these opioid subcategories occurred overall and across all demographics and regions. Natural/semisynthetic opioid death rates increased by 2.6%, whereas methadone death rates decreased by 9.1%.

These findings are consistent with recent reports highlighting the increasing trend in deaths involving heroin and synthetic opioids other than methadone (13,5). The number of deaths involving synthetic opioids other than methadone have been associated with the number of drug products obtained by law enforcement testing positive for fentanyl, but not with fentanyl prescribing rates (2,3). A recent report found that these increases, likely attributable to illicitly manufactured fentanyl, were concentrated in eight of 27 states examined (2).

The decline in methadone death rates, a trend observed since 2008, followed efforts to reduce methadone use for pain, including Food and Drug Administration warnings, limits on high dose formulations, and clinical guidelines (6). The small increase in natural/semisynthetic opioid death rates illustrates an ongoing problem with prescription opioids; however, the increase has slowed from 2013–2014, potentially because of policy and health system changes, required prescription drug monitoring program review, legislative changes in naloxone distribution, and prescribing guidelines (7,8).***

The findings in this report are subject to at least five limitations. First, factors related to death investigation might affect rate estimates involving specific drugs. At autopsy, the substances tested for, and circumstances under which tests are performed to determine which drugs are present, might vary by jurisdiction and over time. Second, the percentage of deaths with specific drugs identified on the death certificate varies by jurisdiction and over time. Nationally, 19% (in 2014) and 17% (in 2015) of drug overdose death certificates did not include the specific types of drugs involved. Additionally, the percentage of drug overdose deaths with specific drugs identified on the death certificate varies widely by state, ranging from 47.4% to 99%. Variations in reporting across states prevent comparison of rates between states. Third, improvements in testing and reporting of specific drugs might have contributed to some observed increases in opioid-involved death rates. Fourth, because heroin and morphine are metabolized similarly (9), some heroin deaths might have been misclassified as morphine deaths, resulting in underreporting of heroin deaths. Finally, the state-specific analyses of opioid deaths are restricted to 28 states, limiting generalizability.

The ongoing epidemic of opioid deaths requires intense attention and action. In a November 2016 report, the Drug Enforcement Administration referred to prescription drugs, heroin, and fentanyl as the most significant drug-related threats to the United States.††† The misuse of prescription opioids is intertwined with that of illicit opioids; data have demonstrated that nonmedical use of prescription opioids is a significant risk factor for heroin use (10), underscoring the need for continued prevention efforts around prescription opioids. Intensifying efforts to distribute naloxone (an antidote to reverse an opioid overdose), enhancing access to treatment, including medication-assisted treatment, and implementing harm reduction services are urgently needed. It is important to focus efforts on expanding opioid disorder treatment capacity, including medication-assisted treatment and improving linkage into treatment.§§§ Implementing harm reduction approaches, such as the scaling up comprehensive syringe services programs can reach persons with opioid use disorders and provide them with access to naloxone and medication-assisted treatment, reduce transmission risk for human immunodeficiency virus or hepatitis C, and reduce other harms from drug use. Law enforcement strategies to reduce the illicit opioid supply must also be supported. A recent report did not find evidence that efforts to reduce opioid prescribing were leading to heroin overdoses; rather, such policies could help reduce the number of persons who are exposed to opioids (7). Continued improvements in guideline-recommended opioid prescribing practices for chronic pain (4), increased improving access to and use of prescription drug monitoring programs, and increased utilization of nonopioid pain treatments are needed. A multifaceted, coordinated approach between public health and public safety is also necessary to address the U.S. opioid epidemic.


Corresponding authors: Rose A. Rudd, rvr2@cdc.gov, 770-488-3712; Puja Seth, pseth@cdc.gov, 404-639-6334.

1Division of Unintentional Injury Prevention, National Center for Injury Prevention and Control, CDC, 2Epidemic Intelligence Service, CDC.


* Natural opioids include morphine and codeine, and semisynthetic opioids include drugs such as oxycodone, hydrocodone, hydromorphone, and oxymorphone. Methadone is a synthetic opioid. Synthetic opioids, other than methadone, include drugs such as tramadol and fentanyl. Heroin is an illicit opioid synthesized from morphine that can be a white or brown powder, or a black sticky substance.

https://www.cdc.gov/nchs/nvss/mortality_public_use_data.htm.

§ For example, a death involving both a synthetic opioid other than methadone and heroin would be included in both the “synthetic other than methadone” and heroin death rates.

For all analyses, a p-value of <0.05 was considered to be statistically significant. https://surveillance.cancer.gov/joinpoint/.

** States whose reporting of any specific drug or drugs involved in an overdose changed by ≥10 percentage points from 2014 to 2015 were excluded, because drug-specific overdose numbers and rates might change substantially from 2014 to 2015 because of changes in reporting.

†† Age-adjusted death rates were calculated by applying age-specific death rates to the 2000 U.S. Census standard population age distribution https://www.cdc.gov/nchs/data/nvsr/nvsr61/nvsr61_04.pdf. For z-tests, a p-value of <0.05 was considered to be statistically significant.

§§ Florida and South Carolina, had both decreasing and increasing trends during this period. In Florida, rates decreased from 2010 to 2013, then increased to 2015; in South Carolina, rates decreased from 2010 to 2012, then increased to 2015.

¶¶https://www.cdc.gov/drugoverdose/data/statedeaths.html.

*** Some state examples are available. New Mexico: https://nmhealth.org/news/information/2016/6/?view=429; https://nmhealth.org/news/information/2016/9/?view=484; and http://hscnews.unm.edu/news/education-program-successful-in-reducing-opioid-abuse010715; Oklahoma: https://www.ok.gov/health2/documents/UP_Oklahoma_Office_Based_Guidelines.pdf; Oregon: http://www.orpdmp.com. Washington: https://ajph.aphapublications.org/doi/abs/10.2105/AJPH.2014.302367?journalCode=ajph.

†††https://www.dea.gov/resource-center/2016%20NDTA%20Summary.pdf.

§§§http://aspe.hhs.gov/sites/default/files/pdf/107956/ib_OpioidInitiative.pdf.

References

  1. Rudd RA, Aleshire N, Zibbell JE, Gladden RM. Increases in drug and opioid overdose deaths—United States, 2000–2014. MMWR Morb Mortal Wkly Rep 2016;64:1378–82. CrossRef PubMed
  2. Gladden RM, Martinez P, Seth P. Fentanyl law enforcement submissions and increases in synthetic opioid-involved overdose deaths—27 states, 2013–2014. MMWR Morb Mortal Wkly Rep 2016;65:837–43. CrossRef PubMed
  3. Peterson AB, Gladden RM, Delcher C, et al. Increases in fentanyl-related overdose deaths—Florida and Ohio, 2013–2015. MMWR Morb Mortal Wkly Rep 2016;65:844–9. CrossRef PubMed
  4. Dowell D, Haegerich TM, Chou R. CDC guideline for prescribing opioids for chronic pain—United States, 2016. MMWR Recomm Rep 2016;65(No. RR-1). CrossRef
  5. Jones CM, Logan J, Gladden RM, Bohm MK. Vital signs: demographic and substance use trends among heroin users—United States, 2002–2013. MMWR Morb Mortal Wkly Rep 2015;64:719–25. PubMed
  6. Jones CM, Baldwin GT, Manocchio T, White JO, Mack KA. Trends in methadone distribution for pain treatment, methadone diversion, and overdose deaths—United States, 2002–2014. MMWR Morb Mortal Wkly Rep 2016;65:667–71. CrossRef PubMed
  7. Dowell D, Zhang K, Noonan RK, Hockenberry JM. Mandatory provider review and pain clinic laws reduce the amounts of opioids prescribed and overdose death rates. Health Aff (Millwood) 2016;35:1876–83. CrossRef PubMed
  8. Haegerich TM, Paulozzi LJ, Manns BJ, Jones CM. What we know, and don’t know, about the impact of state policy and systems-level interventions on prescription drug overdose. Drug Alcohol Depend 2014;145:34–47. CrossRef PubMed
  9. Davis GG; National Association of Medical Examiners and American College of Medical Toxicology Expert Panel on Evaluating and Reporting Opioid Deaths. Complete republication: National Association of Medical Examiners position paper: Recommendations for the investigation, diagnosis, and certification of deaths related to opioid drugs. J Med Toxicol 2014;10:100–6. CrossRef PubMed
  10. Compton WM, Jones CM, Baldwin GT. Relationship between nonmedical prescription-opioid use and heroin use. N Engl J Med 2016;374:154–63. CrossRef PubMed
Return to your place in the textFIGURE. Age-adjusted rate* of drug overdose deaths, by state — 2010 and 2015§

Source: CDC. National Vital Statistics System, Mortality. CDC WONDER. Atlanta, GA: US Department of Health and Human Services, CDC; 2016. https://wonder.cdc.gov/.

* Rates shown are the number of deaths per 100,000 population. Age-adjusted death rates were calculated by applying age-specific death rates to the 2000 U.S standard population age distribution.

Deaths were classified using the International Classification of Diseases, Tenth Revision (ICD–10). Drug overdose deaths were identified using underlying cause-of-death codes X40–X44, X60–X64, X85, and Y10–Y14.

§ Joinpoint regression examining changes in trends from 2010 to 2015 indicated that 30 states had significant increases from 2010 to 2015 (Alabama, Arizona, Connecticut, Delaware, District of Columbia, Georgia, Idaho, Illinois, Indiana, Iowa, Kansas, Louisiana, Maine, Maryland, Massachusetts, Michigan, Minnesota, New Hampshire, New Jersey, New York, North Carolina, North Dakota, Ohio, Pennsylvania, Rhode Island, Tennessee, Utah, Vermont, Virginia, Wisconsin). In two states, Florida and South Carolina, decreases were followed by increases during this period. In Florida, there was a decrease from 2010 to 2013, followed by an increase to 2015. In South Carolina, there was a decrease from 2010 to 2012, followed by an increase to 2015. All remaining states had nonsignificant trends during this period.

Return to your place in the textTABLE 1. Number and age-adjusted rate of drug overdose deaths* involving natural and semisynthetic opioids and methadone,§,¶ by sex, age group, race/ethnicity,** U.S. Census region, and selected states†† — United States, 2014 and 2015
Characteristic Natural and semisynthetic opioids Methadone
2014 2015 % change in rate, 2014 to 2015 2014 2015 % change in rate, 2014 to 2015
No. (Rate) No. (Rate) No. (Rate) No. (Rate)
Overall 12,159 (3.8) 12,727 (3.9) 2.6§§ 3,400 (1.1) 3,301 (1.0) -9.1§§
Sex
Male 6,732 (4.2) 7,117 (4.4) 4.8§§ 2,009 (1.3) 1,939 (1.2) -7.7§§
Female 5,427 (3.3) 5,610 (3.4) 3.0 1,391 (0.9) 1,362 (0.8) -11.1§§
Age group (yrs)
0–14 42 (0.1) 48 (0.1) 0.0 14 –¶¶ 13 –¶¶ ¶¶
15–24 726 (1.7) 715 (1.6) -5.9 241 (0.5) 201 (0.5) 0.0
25–34 2,115 (4.9) 2,327 (5.3) 8.2§§ 796 (1.8) 735 (1.7) -5.6
35–44 2,644 (6.5) 2,819 (6.9) 6.2§§ 768 (1.9) 739 (1.8) -5.3
45–54 3,488 (8.0) 3,479 (8.1) 1.3 854 (2.0) 843 (2.0) 0.0
55–64 2,437 (6.1) 2,602 (6.4) 4.9 629 (1.6) 642 (1.6) 0.0
≥65 706 (1.5) 736 (1.5) 0.0 98 (0.2) 127 (0.3) 50.0§§
Sex/Age group (yrs)
Male
15–24 529 (2.3) 493 (2.2) -4.3 173 (0.8) 149 (0.7) -12.5
25–44 2,869 (6.8) 3,139 (7.4) 8.8§§ 969 (2.3) 926 (2.2) -4.3
45–64 3,015 (7.4) 3,095 (7.5) 1.4 808 (2.0) 777 (1.9) -5.0
Female
15–24 197 (0.9) 222 (1.0) 11.1 68 (0.3) 52 (0.2) -33.3
25–44 1,890 (4.5) 2,007 (4.8) 6.7§§ 595 (1.4) 548 (1.3) -7.1
45–64 2,910 (6.8) 2,986 (6.9) 1.5 675 (1.6) 708 (1.6) 0.0
Race/Ethnicity**
White, non-Hispanic 10,308 (5.0) 10,774 (5.3) 6.0§§ 2,845 (1.4) 2,725 (1.4) 0.0
Black, non-Hispanic 814 (2.0) 878 (2.1) 5.0 256 (0.6) 247 (0.6) 0.0
Hispanic 727 (1.4) 780 (1.5) 7.1 228 (0.5) 235 (0.5) 0.0
U.S. Census region of residence
Northeast 1,851 (3.3) 2,095 (3.6) 9.1§§ 587 (1.0) 643 (1.1) 10.0
Midwest 2,205 (3.3) 2,302 (3.4) 3.0 675 (1.0) 673 (1.0) 0.0
South 5,101 (4.2) 5,374 (4.4) 4.8§§ 1,298 (1.1) 1,228 (1.0) -9.1§§
West 3,002 (3.9) 2,956 (3.8) -2.6 840 (1.1) 757 (1.0) -9.1
Selected states††
States with very good or excellent reporting (n = 21)
Alaska 40 (5.6) 51 (6.5) 16.1 12 –¶¶ 10 –¶¶ ¶¶
Connecticut 157 (4.3) 183 (4.8) 11.6 50 (1.4) 72 (1.9) 35.7
Iowa 81 (2.7) 75 (2.5) -7.4 16 –¶¶ 24 (0.8) ¶¶
Maine 80 (6.1) 102 (7.7) 26.2 29 (2.2) 36 (2.8) 27.3
Maryland 388 (6.2) 398 (6.5) 4.8 153 (2.4) 182 (2.9) 20.8
Massachusetts 178 (2.6) 225 (3.3) 26.9§§ 88 (1.3) 82 (1.2) -7.7
Nevada 224 (7.4) 259 (8.6) 16.2 64 (2.2) 57 (1.9) -13.6
New Hampshire 81 (5.8) 63 (4.4) -24.1 29 (2.3) 25 (1.9) -17.4
New Mexico 223 (10.9) 160 (8.1) -25.7§§ 45 (2.3) 33 (1.6) -30.4
New York 608 (3.0) 705 (3.4) 13.3§§ 231 (1.1) 246 (1.2) 9.1
North Carolina 462 (4.7) 554 (5.5) 17.0§§ 131 (1.4) 108 (1.1) -21.4
Oklahoma 370 (9.6) 277 (7.2) -25.0§§ 67 (1.7) 62 (1.7) 0.0
Oregon 137 (3.2) 150 (3.6) 12.5 59 (1.4) 70 (1.7) 21.4
Rhode Island 70 (6.7) 95 (8.3) 23.9 24 (2.2) 30 (2.4) 9.1
South Carolina 319 (6.5) 322 (6.5) 0.0 77 (1.6) 57 (1.2) -25.0
Utah 367 (13.6) 357 (12.7) -6.6 47 (1.7) 45 (1.6) -5.9
Vermont 21 (3.4) 25 (3.9) 14.7 ¶¶¶¶ ¶¶¶¶ ¶¶
Virginia 323 (3.9) 276 (3.3) -15.4§§ 105 (1.2) 67 (0.8) -33.3§§
Washington 288 (3.8) 261 (3.5) -7.9 115 (1.5) 111 (1.4) -6.7
West Virginia 363 (20.2) 356 (19.8) -2.0 35 (2.0) 29 (1.7) -15.0
Wisconsin 279 (4.8) 249 (4.3) -10.4 78 (1.4) 73 (1.3) -7.1
States with good reporting (n = 7)
Colorado 259 (4.6) 259 (4.5) -2.2 51 (0.9) 34 (0.6) -33.3
Georgia 388 (3.8) 435 (4.2) 10.5 124 (1.2) 115 (1.1) -8.3
Illinois 253 (1.9) 271 (2.0) 5.3 106 (0.9) 99 (0.8) -11.1
Minnesota 102 (1.9) 125 (2.2) 15.8 81 (1.6) 55 (1.0) -37.5
Missouri 237 (4.0) 237 (3.9) -2.5 53 (0.9) 62 (1.0) 11.1
Ohio 618 (5.4) 690 (6.1) 13.0§§ 107 (0.9) 109 (1.0) 11.1
Tennessee 554 (8.6) 643 (9.7) 12.8§§ 71 (1.1) 67 (1.0) -9.1

Source: CDC. National Vital Statistics System, Mortality. CDC WONDER. Atlanta, GA: US Department of Health and Human Services, CDC; 2016. https://wonder.cdc.gov/.
* Rates are for the number of deaths per 100,000 population. Age-adjusted death rates were calculated using the direct method and the 2000 standard population. Deaths were classified using the International Classification of Diseases, Tenth Revision (ICD–10). Drug overdose deaths were identified using underlying cause-of-death codes X40–X44, X60–X64, X85, and Y10–Y14.
Drug overdose deaths, as defined, that have natural and semisynthetic opioids (T40.2) as contributing causes.
§ Drug overdose deaths, as defined, that have methadone (T40.3) as a contributing cause.
Categories of deaths are not exclusive because deaths might involve more than one drug. Summing categories will result in a number greater than the total number of deaths in a year.
** Data for Hispanic ethnicity should be interpreted with caution; studies comparing Hispanic ethnicity on death certificates and on census surveys have shown inconsistent reporting.
†† Analyses were limited to states meeting the following criteria. For states with very good to excellent reporting, ≥90% of drug overdose death certificates mention at least one specific drug in 2014, with the change in percentage of drug overdose deaths mentioning at least one specific drug differing by <10 percentage points from 2014 to 2015. States with good reporting had 80% to <90% of drug overdose death certificates mention at least one specific drug in 2014, with the change in the percentage of drug overdose deaths mentioning at least one specific drug differing by <10 percentage points from 2014 to 2015. Rate comparisons between states should not be made because of variations in reporting across states.
§§ Statistically significant at p<0.05 level. Gamma tests were used if the number of deaths was <100 in 2014 or 2015, and z-tests were used if the number of deaths was ≥100 in both 2014 and 2015.
¶¶ Cells with nine or fewer deaths are not reported, and rates based on <20 deaths are not considered reliable and not reported.

Return to your place in the textTABLE 2. Number and age-adjusted rate of drug overdose deaths* involving synthetic opioids other than methadone and heroin,§,¶ by sex, age group, race/ethnicity,** U.S. Census region, and selected states†† — United States, 2014 and 2015
Characteristic Synthetic opioids other than methadone Heroin
2014 2015 % change in rate, 2014 to 2015 2014 2015 % change in rate, 2014 to 2015
No. (Rate) No. (Rate) No. (Rate) No. (Rate)
Overall 5,544 (1.8) 9,580 (3.1) 72.2§§ 10,574 (3.4) 12,989 (4.1) 20.6§§
Sex
Male 3,465 (2.2) 6,560 (4.2) 90.9§§ 8,160 (5.2) 9,881 (6.3) 21.2§§
Female 2,079 (1.3) 3,020 (1.9) 46.2§§ 2,414 (1.6) 3,108 (2.0) 25.0§§
Age group (yrs)
0–14 10 –¶¶ 14 –¶¶ ¶¶ ¶¶¶¶ ¶¶¶¶ ¶¶
15–24 514 (1.2) 999 (2.3) 91.7§§ 1452 (3.3) 1,649 (3.8) 15.2§§
25–34 1474 (3.4) 2,896 (6.6) 94.1§§ 3493 (8.0) 4,292 (9.7) 21.3§§
35–44 1264 (3.1) 2,289 (5.6) 80.6§§ 2398 (5.9) 3,012 (7.4) 25.4§§
45–54 1359 (3.1) 1,982 (4.6) 48.4§§ 2030 (4.7) 2,439 (5.6) 19.1§§
55–64 742 (1.9) 1,167 (2.9) 52.6§§ 1064 (2.7) 1,407 (3.4) 25.9§§
≥65 181 (0.4) 232 (0.5) 25.0§§ 136 (0.3) 184 (0.4) 33.3§§
Sex/Age group (yrs)
Male
15–24 376 (1.7) 718 (3.2) 88.2§§ 1,079 (4.8) 1,172 (5.2) 8.3
25–44 1,845 (4.4) 3,764 (8.9) 102.3§§ 4,566 (10.8) 5,602 (13.2) 22.2§§
45–64 1,176 (2.9) 1,948 (4.7) 65.5§§ 2,397 (5.9) 2,953 (7.2) 22.0§§
Female
15–24 138 (0.6) 281 (1.3) 116.7§§ 373 (1.7) 477 (2.2) 29.4§§
25–44 893 (2.1) 1,421 (3.4) 61.9§§ 1,325 (3.2) 1,702 (4.0) 25.0§§
45–64 925 (2.2) 1,201 (2.8) 27.3§§ 697 (1.6) 893 (2.1) 31.3§§
Race/Ethnicity**
White, non-Hispanic 4,685 (2.4) 7,995 (4.2) 75.0§§ 8,253 (4.4) 10,050 (5.4) 22.7§§
Black, non-Hispanic 449 (1.1) 883 (2.1) 90.9§§ 1,044 (2.5) 1,310 (3.1) 24.0§§
Hispanic 302 (0.6) 524 (0.9) 50.0§§ 1,049 (1.9) 1,299 (2.3) 21.1§§
U.S. Census region of residence
Northeast 1,485 (2.7) 3,071 (5.6) 107.4§§ 2,755 (5.1) 3,461 (6.3) 23.5§§
Midwest 1,319 (2.0) 2,548 (3.9) 95.0§§ 3,385 (5.2) 3,959 (6.1) 17.3§§
South 2,087 (1.8) 3,303 (2.8) 55.6§§ 2,733 (2.4) 3,722 (3.2) 33.3§§
West 653 (0.8) 658 (0.9) 12.5§§ 1,701 (2.2) 1,847 (2.4) 9.1§§
Selected states††
States with very good or excellent reporting (n = 21)
Alaska 14 –¶¶ 14 –¶¶ ¶¶ 25 (3.3) 37 (4.7) 42.4
Connecticut 94 (2.7) 211 (6.1) 125.9§§ 299 (8.9) 390 (11.3) 27.0§§
Iowa 29 (1.0) 44 (1.5) 50.0 37 (1.3) 45 (1.6) 23.1
Maine 62 (5.2) 116 (9.9) 90.4§§ 38 (3.1) 52 (4.5) 45.2
Maryland 230 (3.8) 357 (5.8) 52.6§§ 313 (5.2) 405 (6.6) 26.9§§
Massachusetts 453 (6.9) 949 (14.4) 108.7§§ 469 (7.2) 634 (9.6) 33.3§§
Nevada 32 (1.0) 32 (1.1) 10.0 64 (2.2) 82 (2.7) 22.7
New Hampshire 151 (12.4) 285 (24.1) 94.4§§ 98 (8.1) 78 (6.5) -19.8
New Mexico 66 (3.3) 42 (2.1) -36.4 139 (7.2) 156 (8.1) 12.5
New York 294 (1.4) 668 (3.3) 135.7§§ 825 (4.2) 1,058 (5.4) 28.6§§
North Carolina 217 (2.2) 300 (3.1) 40.9§§ 266 (2.8) 393 (4.1) 46.4§§
Oklahoma 73 (1.9) 93 (2.4) 26.3 26 (0.7) 36 (1.0) 42.9
Oregon 33 (0.8) 34 (0.9) 12.5 124 (3.2) 102 (2.5) -21.9
Rhode Island 82 (7.9) 137 (13.2) 67.1§§ 66 (6.8) 45 (4.3) -36.8
South Carolina 110 (2.3) 161 (3.3) 43.5§§ 64 (1.4) 100 (2.2) 57.1§§
Utah 68 (2.5) 62 (2.3) -8.0 110 (3.8) 127 (4.3) 13.2
Vermont 21 (3.6) 33 (5.6) 55.6 33 (5.8) 33 (5.8) 0.0
Virginia 176 (2.1) 270 (3.3) 57.1§§ 253 (3.1) 353 (4.3) 38.7§§
Washington 62 (0.8) 65 (0.9) 12.5 289 (4.1) 303 (4.2) 2.4
West Virginia 122 (7.2) 217 (12.7) 76.4§§ 163 (9.8) 194 (11.8) 20.4
Wisconsin 90 (1.6) 112 (2.1) 31.3 270 (4.9) 287 (5.3) 8.2
States with good reporting (n = 7)
Colorado 80 (1.5) 64 (1.2) -20.0 156 (2.9) 159 (2.8) -3.4
Georgia 174 (1.7) 284 (2.8) 64.7§§ 153 (1.6) 222 (2.2) 37.5§§
Illinois 127 (1.0) 278 (2.2) 120.0§§ 711 (5.6) 844 (6.7) 19.6§§
Minnesota 44 (0.8) 55 (1.0) 25.0 100 (1.9) 115 (2.2) 15.8
Missouri 109 (1.9) 183 (3.1) 63.2§§ 334 (5.8) 303 (5.3) -8.6
Ohio 590 (5.5) 1,234 (11.4) 107.3§§ 1,208 (11.1) 1,444 (13.3) 19.8§§
Tennessee 132 (2.1) 251 (4.0) 90.5§§ 148 (2.3) 205 (3.3) 43.5§§

Source: CDC. National Vital Statistics System, Mortality. CDC WONDER. Atlanta, GA: US Department of Health and Human Services, CDC; 2016. https://wonder.cdc.gov/.
* Rates are for the number of deaths per 100,000 population. Age-adjusted death rates were calculated using the direct method and the 2000 standard population. Deaths were classified using the International Classification of Diseases, Tenth Revision (ICD–10). Drug overdose deaths were identified using underlying cause-of-death codes X40–X44, X60–X64, X85, and Y10–Y14.
Drug overdose deaths, as defined, that have synthetic opioids other than methadone (T40.4) as contributing causes.
§ Drug overdose deaths, as defined, that have heroin (T40.1) as a contributing cause.
Categories of deaths are not exclusive because deaths might involve more than one drug. Summing categories will result in a number greater than the total number of deaths in a year.
** Data for Hispanic ethnicity should be interpreted with caution; studies comparing Hispanic ethnicity on death certificates and on census surveys have shown inconsistent reporting.
†† Analyses were limited to states meeting the following criteria. For states with very good to excellent reporting, ≥90% of drug overdose death certificates mention at least one specific drug in 2014, with the change in percentage of drug overdose deaths mentioning at least one specific drug differing by <10 percentage points from 2014 to 2015. States with good reporting had 80% to <90% of drug overdose death certificates mention at least one specific drug in 2014, with the change in the percentage of drug overdose deaths mentioning at least one specific drug differing by <10 percentage points from 2014 to 2015. Rate comparisons between states should not be made because of variations in reporting across states.
§§ Statistically significant at p<0.05 level. Gamma tests were used if the number of deaths was <100 in 2014 or 2015, and z-tests were used if the number of deaths was ≥100 in both 2014 and 2015.
¶¶ Cells with nine or fewer deaths are not reported, and rates based on <20 deaths are not considered reliable and not reported.

Suggested citation for this article: Rudd RA, Seth P, David F, Scholl L. Increases in Drug and Opioid-Involved Overdose Deaths — United States, 2010–2015. MMWR Morb Mortal Wkly Rep 2016;65:1445–1452. DOI: http://dx.doi.org/10.15585/mmwr.mm655051e1.

Use of trade names and commercial sources is for identification only and does not imply endorsement by the U.S. Department of Health and Human Services.
References to non-CDC sites on the Internet are provided as a service to MMWR readers and do not constitute or imply endorsement of these organizations or their programs by CDC or the U.S. Department of Health and Human Services. CDC is not responsible for the content of pages found at these sites. URL addresses listed in MMWR were current as of the date of publication.

All HTML versions of MMWR articles are generated from final proofs through an automated process. This conversion might result in character translation or format errors in the HTML version. Users are referred to the electronic PDF version (https://www.cdc.gov/mmwr) and/or the original MMWR paper copy for printable versions of official text, figures, and tables.

Questions or messages regarding errors in formatting should be addressed to mmwrq@cdc.gov.

TOP
window.CDC.Policy.External.init();