viernes, 3 de octubre de 2014

Increases in Heroin Overdose Deaths — 28 States, 2010 to 2012

full-text ►

Increases in Heroin Overdose Deaths — 28 States, 2010 to 2012



MMWR Logo
 
MMWR Weekly
Vol. 63, No. 39
October 3, 2014
 
PDF of this issue


Increases in Heroin Overdose Deaths — 28 States, 2010 to 2012

Weekly

October 3, 2014 / 63(39);849-854


Rose A. Rudd, MSPH1Len J. Paulozzi, MD1Michael J. Bauer, MS2Richard W. Burleson, MBA, MPH3Rick E. Carlson, MPH, MA4Dan Dao, MPH5James W. Davis, MA6Jennifer Dudek, MPH7Beth Ann Eichler, MS8Jessie C. Fernandes, MPH9Anna Fondario, MPH10Barbara Gabella, MSPH11Beth Hume, MPH12,Theron Huntamer13Mbabazi Kariisa, PhD14Thomas W. Largo, MPH15JoAnne Miles, MPH16Ashley Newmyer, MPH17Daniela Nitcheva, PhD18Beatriz E. Perez, MPH19Scott K. Proescholdbell, MPH20Jennifer C. Sabel, PhD21Jessica Skiba, MPH22Svetla Slavova, PhD23Kathy Stone, MBA24John M. Tharp, MPH25Tracy Wendling, DrPH26Dagan Wright, PhD27Anne M. Zehner, MPH28 (Author affiliations at end of text)
Nationally, death rates from prescription opioid pain reliever (OPR) overdoses quadrupled during 1999–2010, whereas rates from heroin overdoses increased by <50%.* Individual states and cities have reported substantial increases in deaths from heroin overdose since 2010. CDC analyzed recent mortality data from 28 states to determine the scope of the heroin overdose death increase and to determine whether increases were associated with changes in OPR overdose death rates since 2010. This report summarizes the results of that analysis, which found that, from 2010 to 2012, the death rate from heroin overdose for the 28 states increased from 1.0 to 2.1 per 100,000, whereas the death rate from OPR overdose declined from 6.0 per 100,000 in 2010 to 5.6 per 100,000 in 2012. Heroin overdose death rates increased significantly for both sexes, all age groups, all census regions, and all racial/ethnic groups other than American Indians/Alaska Natives. OPR overdose mortality declined significantly among males, persons aged <45 years, persons in the South, and non-Hispanic whites. Five states had increases in the OPR death rate, seven states had decreases, and 16 states had no change. Of the 18 states with statistically reliable heroin overdose death rates (i.e., rates based on at least 20 deaths), 15 states reported increases. Decreases in OPR death rates were not associated with increases in heroin death rates. The findings indicate a need for intensified prevention efforts aimed at reducing overdose deaths from all types of opioids while recognizing the demographic differences between the heroin and OPR-using populations. Efforts to prevent expansion of the number of OPR users who might use heroin when it is available should continue.
In February, 2014, CDC invited state health departments to submit data from their mortality files for the period 2008–2012 if they judged those files to be substantially complete and if the causes of death had been coded by the International Classification of Diseases, 10th Revision. Participating states had the option of submitting resident deaths or deaths that occurred in the state. States submitted annual counts of deaths with an underlying cause of drug overdose of any intent (codes X40–X44, X60–X64, X85, Y10–Y14). They also submitted counts of subsets of the overdose deaths, those involving heroin (T40.1) and those involving OPR (T40.2–T40.4). States also provided the demographic distributions of these types of overdoses.
CDC calculated annual heroin and OPR death rates per 100,000 using bridged-race population estimates for each state and for the combined 28 participatingstates.§ Because examination of state rates revealed pronounced increases in heroin death rates for most states in the study after 2010, CDC calculated changes in rates by demographic characteristics for the period of increasing rates only from 2010 to 2012. The correlation of change in state heroin overdose death rates with change in state OPR overdose death rates was examined both overall and for specific demographic subgroups. Statistical significance of changes in rates was tested using z-tests when rates were based on 100 or more deaths and examination of confidence intervals from gamma distributions when rates were based on fewer than 100 deaths. A weighted Pearson's correlation coefficient was used to examine the correlation between state level heroin and OPR death rate changes, with weights proportional to the state's 2012 population. Test results with p≤0.05 were considered statistically significant.
The death rate from heroin overdose doubled in the 28 states from 2010 to 2012, increasing from 1.0 to 2.1 per 100,000 population, reflecting an increase in the number of deaths from 1,779 to 3,635 (Table). Comparing the same years, the death rate from OPR overdose declined 6.6%, from 6.0 to 5.6 per 100,000, a decline from 10,427 to 9,869 deaths. The overall drug overdose death rate increased 4.3%, from 13.0 to 13.6. Heroin death rates increased after 2010 in every subgroup examined. Heroin death rates doubled for males and females, whereas OPR death rates declined 12.4% in males and were unchanged in females. Heroin death rates increased for all age groups, whereas OPR death rates declined for age groups <45 years. OPR death rates increased for persons aged 55–64 years. Heroin death rates doubled in non-Hispanic whites and Hispanic whites, and nearly doubled in blacks. OPR death rates decreased 8% in non-Hispanic whites and remained level in all other races/ethnicities. The Northeast and South had much larger heroin overdose death increases (211.2% and 180.9%, respectively), than the Midwest and West (62.1% and 90.7%, respectively). OPR death rates declined only in the South.
Comparing 2010 to 2012, trends in heroin and OPR overdose death rates varied widely by state. Of the 28 states, five states had increases in OPR death rates, seven states had decreases, and 16 states had no change in the OPR death rate. Of the 18 states with heroin overdose death rates based on at least 20 deaths, none had a decline (Figure 1). Increases in heroin overdose death rates were significantly associated with increases in OPR death rates (r = 0.47, p = 0.05). Similar patterns in the death rates for males and non-Hispanic whites, the two populations with the largest numbers of heroin deaths, also were observed, but the associations were not significant.
In 2012, the age group with the highest heroin overdose death rate was aged 25–34 years, and the age group with the highest OPR overdose death rate was aged 45–54 years. The racial/ethnic population with the highest death rate for both heroin and OPR was non-Hispanic whites (Figure 2). The death rate for heroin among males in 2012 was almost four times that among females, whereas the death rate for OPR among males was 1.4 times that among females.

Discussion

Combined mortality data from 28 states, encompassing 56% of the U.S. population, indicate an increasing problem with fatal overdoses from heroin from 2010 to 2012. Death rates from OPR declined overall but remained more than twice as high as heroin overdose death rates. Changes in heroin death rates were positively correlated with changes in OPR death rates. Mortality from overdoses of any type of drug rose slightly.
The increase in heroin deaths parallels increases seen in individual states reported previously (1–3). Kentucky reported a 279% increase in heroin deaths from 2010 to 2012 (1). In Ohio, the number of heroin deaths increased approximately 300% from 2007 to 2012, with men aged 25–34 years at highest risk for fatal heroin overdoses (3). Mortality data for the United States show a 45% increase in heroin deaths from 2010 to 2011, the largest annual percentage increase since 1999. The increasing death rate from heroin also is consistent with the 74% increase in the number of current heroin users among persons aged ≥12 years in the United States during 2009–2012 (4). Nationally, OPR death rates from 2010 to 2011 were stable (5.4 per 100,000), although there was a slight increase in the number of OPR deaths.
The rapid rise in heroin overdose deaths follows nearly 2 decades of increasing drug overdose deaths in the United States, primarily driven by OPR drug overdoses (5). The number of persons using OPR nonmedically on a frequent basis also has grown (6). From 2002–2004 to 2008–2010, past year heroin use increased among persons reporting frequent nonmedical use of OPR, from 62.0 to 94.7 per 1,000. Moreover, the only increases in past year heroin use were observed among persons who reported past year nonmedical use of OPR (7). In a sample of heroin users in a treatment program, 75% of those who began opioid abuse after 2000 reported that their first regular opioid was a prescription drug. In contrast, among those who began use in the 1960s, more than 80% indicated that they initiated their abuse with heroin (8). Persons who initiated heroin use after 2000 have reported that heroin often is more readily accessible, less expensive, and offers a more potent high than prescription opioids (8). Although some persons might be discontinuing prescription opioids and initiating heroin use as a replacement, results from this study indicate that recent heroin death rate increases were not significantly associated with decreases in OPR overdose mortality. Numerous risk factors contribute to drug-specific use and overdose death rates (3,8). For example, an increase in overall heroin supply and greater availability of heroin in some parts of the country might contribute to the trend and variation observed in heroin mortality.
The findings in this report are subject to at least five limitations. First, death certificates from these states fail to specify the drugs involved in 22% of overdose deaths, so drug-specific overdose rates are underestimated (9). Second, death certificate data might misclassify heroin deaths as OPR deaths if the heroin metabolite morphine is listed on the certificate rather than heroin itself (10). Misclassifications of this type have been demonstrated in several states. However, for this report, this problem is more likely to affect the rates than the percentage changes in those rates. Third, for the 2012 data, six states reported provisional data, and five states reported only deaths that occurred within the state, so the actual rates might vary slightly from those shown. Fourth, the data might reflect fewer than the actual number of deaths for certain racial/ethnic populations because of misclassified, unspecified, or unclassifiable races or ethnicities. In particular, rates by American Indian/Alaska Native populations should be interpreted with caution because of underreporting of these populations. Finally, the data are not necessarily representative of the United States as a whole. Although the distribution of the study population by age, race/ethnicity, and sex closely matched the distribution of the U.S. population, the study population was overrepresented in the Midwest and underrepresented in the West. Because drug overdose death rates vary geographically, trends in this report might differ slightly from overall U.S. trends. Analysis of U.S. trends can be made when mortality files from all 50 states become available.
The findings in this report indicate a growing problem with heroin overdoses superimposed on a continuing problem with OPR overdoses. Increasing use of heroin is especially concerning because it might represent increasing injection drug use. The small decline in OPR overdose mortality is encouraging given its steep increase during 1999–2010 (5), but efforts to address opioid abuse need to continue to further reduce overdose mortality and avoid further enlarging the number of OPR users who might use heroin when it is available. Clinical interventions that might address abuse of both OPR and heroin include screening for substance abuse, urine testing for drug use, and referral to substance abuse treatment. The use of prescription drug monitoring programs can address inappropriate opioid prescribing and further prevent OPR abuse. State policies that increase access to naloxone, a drug that can reverse potentially fatal respiratory depression in persons who have overdosed from either OPRs or heroin, or policies that reduce or eliminate penalties when someone reports an overdose, are potentially useful strategies.** Given the rapid changes in drug overdose epidemiology, timely, drug-specific fatal and nonfatal surveillance data at the local, state, and regional level will be necessary to target prevention efforts.

Acknowledgments

Craig Ward, Bryan Angell, Missouri Department of Health and Senior Services.


1Division of Unintentional Injury Prevention, National Center for Injury Prevention and Control, CDC; 2New York State Department of Health; 3Alabama Department of Public Health; 4Minnesota Department of Health; 5Kansas Department of Health and Environment; 6New Mexico Department of Health; 7Arizona Department of Health Services; 8Florida Department of Health; 9Montana Department of Public Health and Health Services; 10Utah Department of Health; 11Colorado Department of Public Health and Environment;12Massachusetts Department of Public Health; 13Nevada Division of Public and Behavioral Health; 14Ohio Department of Health; 15Michigan Department of Community Health;16New Hampshire Department of Health and Human Services; 17Nebraska Department of Health and Human Services; 18South Carolina Department of Health and Environmental Control; 19Rhode Island Department of Health; 20North Carolina Department of Health and Human Services; 21Washington State Department of Health; 22Indiana State Department of Health; 23Kentucky Injury Prevention and Research Center; University of Kentucky; 24Iowa Department of Public Health; 25Illinois Department of Public Health;26Oklahoma State Department of Health; 27Oregon Health Authority; 28Virginia Department of Health (Corresponding author: Len J. Paulozzi, lpaulozzi@cdc.gov, 770-365-7616)

References

  1. Slavova S, Bunn T, Lambert J. Drug overdose deaths, hospitalizations, and emergency department visits in Kentucky, 2000–2012. Lexington, KY: Kentucky Injury Prevention and Research Center; 2014. Available at http://www.mc.uky.edu/kiprc/pdf/drug-overdose-report-released.pdf Adobe PDF fileExternal Web Site Icon.
  2. Banta-Green C. Heroin trends across Washington state (ADAI Info Brief). Seattle, WA: University of Washington Alcohol and Drug Abuse Institute; 2013. Available at http://adai.uw.edu/pubs/infobriefs/adai-ib-2013-02.pdf Adobe PDF fileExternal Web Site Icon.
  3. Massatti R, Beeghly C, Hall O, Kariisa M, Potts L. Increasing heroin overdoses in Ohio: understanding the issue. Columbus, OH: Ohio Department of Mental Health and Addiction Services; 2014. Available at http://mha.ohio.gov/portals/0/assets/research/reports/heroinoverdosereportfin43014.pdf Adobe PDF fileExternal Web Site Icon.
  4. Substance Abuse and Mental Health Services Administration. Results from the 2012 National Survey on Drug Use and Health: summary of national findings. NSDUH Series H-46, HHS Publication No. (SMA) 13-4795. Rockville, MD: Substance Abuse and Mental Health Services Administration; 2013.
  5. Paulozzi L. Prescription drug overdoses: a review. J Safety Res 2012;43:283–9.
  6. Jones CM. Frequency of prescription pain reliever nonmedical use: 2002–2003 and 2009–2010. Arch Intern Med 2012;172:1265–7.
  7. Jones CM. Heroin use and heroin use risk behaviors among nonmedical users of prescription opioid pain relievers—United States, 2002–2004 and 2008–2010. Drug Alcohol Depend 2013;132:95–100.
  8. Cicero TJ, Ellis MS, Surratt HL, Kurtz SP. The changing face of heroin use in the United States: a retrospective analysis of the past 50 years. JAMA Psychiatry 2014;71:821–6.
  9. Warner M, Paulozzi L, Nolte K, Davis G, Nelson L. State variation in certifying manner of death and drugs involved in drug intoxication deaths. Acad Forensic Pathol 2013;3:231–7.
  10. Davis GG; National Association of Medical Examiners and American College of Medical Toxicology Expert Panel on Evaluating and Reporting Opioid Deaths. National Association of Medical Examiners position paper: recommendations for the investigation, diagnosis, and certification of deaths related to opioid drugs. Acad Forensic Pathol 2013;3:77–83.


* Additional information available at http://wonder.cdc.gov/mcd.html.
Additional information available at http://wonder.cdc.gov/bridged-race-v2012.html.
§ Alabama, Arizona, Colorado, Florida, Illinois, Indiana, Iowa, Kansas, Kentucky, Massachusetts, Michigan, Minnesota, Missouri, Montana, Nebraska, Nevada, New Hampshire, New Mexico, New York, North Carolina, Ohio, Oklahoma, Oregon, Rhode Island, South Carolina, Utah, Virginia, Washington.

No hay comentarios:

Publicar un comentario