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Figure 1.  Opioid Use and Voting Patterns by County
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Opioid Use and Voting Patterns by County

A, The percentage of Medicare Part D enrollees who received prescriptions for at least a 90-day supply of an opioid in 2015. B, The percentage of the vote for the Republican presidential candidate in 2016. The opioid map includes 3118 of 3142 US counties (99.2%), and the voting map includes 3101 counties (98.7%). In each map, the rates are color coded by quintile of counties. The rates are not adjusted for any individual or county characteristics.

Figure 2.  Variation Among US Counties in Adjusted Rates of Chronic Opioid Prescription in 2015
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Variation Among US Counties in Adjusted Rates of Chronic Opioid Prescription in 2015

Counties were ranked based on rates from a multilevel model adjusted for patient characteristics included in Table 1. The black horizontal line represents the overall average adjusted rate. Counties with 95% confidence intervals for rates entirely above or below the average adjusted rate are indicated in black. Results are presented for 3100 counties and 3 759 186 enrollees, a 20% national sample of Medicare Part D files.

Table 1.  Characteristics Associated With Chronic Opioid Use Among Medicare Part D Enrollees in 2015a
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Characteristics Associated With Chronic Opioid Use Among Medicare Part D Enrollees in 2015a
Table 2.  Characteristics Associated With Chronic Opioid Prescriptions for Counties With Significantly Higher Rates Than Average vs Counties With Significantly Lower Rates Than Average
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Characteristics Associated With Chronic Opioid Prescriptions for Counties With Significantly Higher Rates Than Average vs Counties With Significantly Lower Rates Than Average
Table 3.  Socioeconomic and Regulatory Factors Contributing to the Association of the Vote for the Republican Presidential Candidate in 2016 With Rates of Chronic Opioid Prescriptions
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Socioeconomic and Regulatory Factors Contributing to the Association of the Vote for the Republican Presidential Candidate in 2016 With Rates of Chronic Opioid Prescriptions
Video
The Top JAMA Network Articles of 2018

A countdown of the most-viewed articles from each of the JAMA Network journals in 2018. They include articles on US trends in suicide attempts, health care spending in the US and high-income countries, the carbohydrate-insulin model of obesity, and more.

1.
King  NB, Fraser  V, Boikos  C, Richardson  R, Harper  S.  Determinants of increased opioid-related mortality in the United States and Canada, 1990-2013: a systematic review.  Am J Public Health. 2014;104(8):e32-e42. doi:10.2105/AJPH.2014.301966PubMedGoogle ScholarCrossref
2.
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(5051):1445-1452. doi:10.15585/mmwr.mm655051e1PubMedGoogle ScholarCrossref
3.
Paulozzi  LJ, Mack  KA, Hockenberry  JM.  Variation among states in prescribing of opioid pain relievers and benzodiazepines—United States, 2012.  J Safety Res. 2014;51:125-129. doi:10.1016/j.jsr.2014.09.001PubMedGoogle ScholarCrossref
4.
Morden  NE, Munson  JC, Colla  CH,  et al.  Prescription opioid use among disabled Medicare beneficiaries: intensity, trends, and regional variation.  Med Care. 2014;52(9):852-859. doi:10.1097/MLR.0000000000000183PubMedGoogle ScholarCrossref
5.
Mundkur  ML, Rough  K, Huybrechts  KF,  et al.  Patterns of opioid initiation at first visits for pain in United States primary care settings.  Pharmacoepidemiol Drug Saf. 2018;27(5):495-503. doi:10.1002/pds.4322PubMedGoogle ScholarCrossref
6.
Guy  GP  Jr, Zhang  K, Bohm  MK,  et al.  Vital signs: changes in opioid prescribing in the United States, 2006-2015.  MMWR Morb Mortal Wkly Rep. 2017;66(26):697-704. doi:10.15585/mmwr.mm6626a4PubMedGoogle ScholarCrossref
7.
Painter  JT, Crofford  LJ, Talbert  J.  Geographic variation of chronic opioid use in fibromyalgia.  Clin Ther. 2013;35(3):303-311. doi:10.1016/j.clinthera.2013.02.003PubMedGoogle ScholarCrossref
8.
Kuo  YF, Raji  MA, Chen  NW, Hasan  H, Goodwin  JS.  Trends in opioid prescriptions among Part D Medicare recipients from 2007 to 2012.  Am J Med. 2016;129(2):221.e21-221.e30. doi:10.1016/j.amjmed.2015.10.002PubMedGoogle ScholarCrossref
9.
McDonald  DC, Carlson  KE.  The ecology of prescription opioid abuse in the USA: geographic variation in patients’ use of multiple prescribers (“doctor shopping”).  Pharmacoepidemiol Drug Saf. 2014;23(12):1258-1267. doi:10.1002/pds.3690PubMedGoogle ScholarCrossref
10.
Keyes  KM, Cerdá  M, Brady  JE, Havens  JR, Galea  S.  Understanding the rural-urban differences in nonmedical prescription opioid use and abuse in the United States.  Am J Public Health. 2014;104(2):e52-e59. doi:10.2105/AJPH.2013.301709PubMedGoogle ScholarCrossref
11.
McDonald  DC, Carlson  K, Izrael  D.  Geographic variation in opioid prescribing in the U.S.  J Pain. 2012;13(10):988-996. doi:10.1016/j.jpain.2012.07.007PubMedGoogle ScholarCrossref
12.
Webster  BS, Cifuentes  M, Verma  S, Pransky  G.  Geographic variation in opioid prescribing for acute, work-related, low back pain and associated factors: a multilevel analysis.  Am J Ind Med. 2009;52(2):162-171. doi:10.1002/ajim.20655PubMedGoogle ScholarCrossref
13.
Monnat  SM. Deaths of despair and support for Trump in the 2016 presidential election. Pennsylvania State University research brief. http://aese.psu.edu/directory/smm67/Election16.pdf. Published December 4, 2016. Accessed January 8 2018.
14.
Frydl  K. The oxy electorate: a scourge of addiction and death siloed in fly-over country. Medium. https://medium.com/@kfrydl/the-oxy-electorate-3fa62765f837. Published November 16, 2016. Accessed January 8, 2018.
15.
Jacobs  H. The revenge of the “Oxy electorate” helped fuel Trump’s election upset. Business Insider. http://www.businessinsider.com/trump-vote-results-drug-overdose-deaths-2016-11. Published November 23, 2016. Accessed January 8, 2018.
16.
Lopez  G. Most Ohio and Pennsylvania counties that flipped from Obama to Trump are wracked by heroin: another potential explanation for Trump’s surprising win. Vox. https://www.vox.com/policy-and-politics/2016/11/22/13698476/trump-opioid-heroin-epidemic. Published November 22, 2016. Accessed January 8, 2018.
17.
Enke B. Moral values and voting: Trump and beyond. Social Studies Research Network. National Bureau of Economic Research working paper 24268. https://ssrn.com/abstract=2979591. Published June 4, 2017. Accessed January 22, 2018.
18.
Goetz  S, Partridge  M, Stephens  H. The economic status of rural America in the Trump era. Munich Personal RePEc Archive. https://mpra.ub.uni-muenchen.de/77830/. Published March 23, 2017. Accessed January 8, 2018.
19.
von Elm  E, Altman  DG, Egger  M, Pocock  SJ, Gøtzsche  PC, Vandenbroucke  JP; STROBE Initiative.  The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement: guidelines for reporting observational studies.  Ann Intern Med. 2007;147(8):573-577. doi:10.7326/0003-4819-147-8-200710160-00010PubMedGoogle ScholarCrossref
20.
Hoadley  J, Cubanski  J, Neuman  T. Medicare Part D at ten years: the 2015 marketplace and key trends. Kaiser Family Foundation. https://www.kff.org/report-section/medicare-part-d-at-ten-years-appendix/. Published October 5, 2015. Accessed March 16, 2018.
21.
US Department of Agriculture. Rural-Urban Continuum Codes. https://www.ers.usda.gov/data-products/rural-urban-continuum-codes/. Updated October 12, 2016. Accessed July 14, 2017.
22.
Centers for Disease Control and Prevention. State prescription drug laws. https://www.cdc.gov/drugoverdose/policy/laws.html. Updated March 23, 2016. Accessed January 8, 2018.
23.
Raji  M, Kuo  YF, Chen  NW, Hasan  H, Wilkes  D, Goodwin  JS.  Impact of laws regulating pain clinics on opioid prescribing and opioid-related toxicity among Texas Medicare Part D beneficiaries.  J Pharm Tech. 2017;33(2):60-65. doi:10.1177/8755122516686226Google ScholarCrossref
24.
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(10):1876-1883. doi:10.1377/hlthaff.2016.0448PubMedGoogle ScholarCrossref
25.
Wasfy  JH, Stewart  C  III, Bhambhani  V.  County community health associations of net voting shift in the 2016 U.S. presidential election.  PLoS One. 2017;12(10):e0185051. doi:10.1371/journal.pone.0185051PubMedGoogle ScholarCrossref
26.
Bor  J.  Diverging life expectancies and voting patterns in the 2016 US presidential election.  Am J Public Health. 2017;107(10):1560-1562. doi:10.2105/AJPH.2017.303945PubMedGoogle ScholarCrossref
27.
Rothwell  J. Economic hardship and favorable views of Trump. Gallup News Blog. http://news.gallup.com/opinion/polling-matters/193898/economic-hardship-favorable-views-trump.aspx. Updated July 22, 2016. Accessed January 8, 2018.
28.
Mayhew  A.  Trump through a Polanyi lens: considering community well-being.  Real-World Econ Rev. 2017;78:28-35. http://www.paecon.net/PAEReview/issue78/Mayhew78.pdf. Accessed January 14, 2018.Google Scholar
29.
Dalton  JE, Perzynski  AT, Zidar  DA,  et al.  Accuracy of cardiovascular risk prediction varies by neighborhood socioeconomic position.  Ann Intern Med. 2017;167(7):456-464. doi:10.7326/M16-2543PubMedGoogle ScholarCrossref
30.
Schroeder  SA.  Shattuck Lecture. We can do better—improving the health of the American people.  N Engl J Med. 2007;357(12):1221-1228. doi:10.1056/NEJMsa073350PubMedGoogle ScholarCrossref
31.
Brown  D. Opioids and paternalism. Am Scholar. Autumn 2017. https://theamericanscholar.org/opioids-and-paternalism/#.WlP6YNKnHX4. Published September 5, 2017. Accessed January 8, 2018.
9 Comments for this article
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June 22, 2018
What does this mean?
Frederick Rivara, MD, MPH | University of Washington
This study is not siding with one political party of another. It is examining the correlation of vote for one party in November 2016 and one marker for the various factors that have been associated with the rise in opioid use in the US.
CONFLICT OF INTEREST: Editor in Chief, JAMA Network Open
June 27, 2018
Questionable Utility of This Analysis
Lynn Shaffer | Mount Carmel Health System
The scientific merit and/or the clinical or public health implications of this analysis are obscure. The importance of the paper is described as, "The causes of the opioid epidemic are incompletely understood," and their conclusion states, "Experts have struggled to explain both the root causes of the opioid epidemic and the results of the 2016 election." This paper sheds no light on the causes of the opioid epidemic and little, if any, on the reasons for the 2016 presidential election outcome.

Why was the adjusted county opioid rate the dependent variable in the generalized linear mixed model? The 2016 voting occurred after the opioid prescriptions were written (or the claim for the prescriptions were submitted)? Conceptually this is somewhat contorted, since the effect of the "voting predictor" is being adjusted for by the other pre-existing county-level sociodemographic variables. It seems just as sensible to have the analysis adjust for the association of opioid prescriptions with the 2016 vote as the outcome since you can't make a case that the 2016 vote "caused" the opioid crisis (the stated focus of the paper). Could the authors clarify the use of a generalized linear mixed model? It sounds like the outcome was "adjusted county opioid rate." What link function was used?

In their discussion the authors state that "Republican support explained 18% of the variance in county rates of opioid use in 3100 counties in the United States," however, they should clarify that this was in Model 1 which only included the percent Republican presidential vote. That statement isn't correct since when the other county-level variables were added to models 2 and 3, the percent of variance attributable to the 2016 vote dropped to 6% (the last sentence in the paragraph doesn't mention this decrease).

The authors refer to the opioid crisis and rates of drug overdose, but the actual measurement was an opioid prescription for 90+ days. Finally, how exactly should the information surrounding the percentage of people voting for Mr. Trump be used to attack the opioid crisis? Public health practitioners are already aware that societal-level factors and socioeconomic status play a role in one's health. I doubt the authors are suggesting that physicians ask patients who they voted for before writing an opioid prescription. What further research studies are suggested based on the results of the present analysis? Even if favorable views of Mr. Trump add to the ability to measure poor health or economic hardship, it's a transient variable given that he won't be president beyond 2024. My remarks are made in the context of a medical journal offering. This information could be useful to political strategists.
CONFLICT OF INTEREST: None Reported
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June 28, 2018
Ecologic Association of Medical Illness and Drug Use with Presidential Voting Pattern
Marc Hochberg, MD, MPH | University of Maryland School of Medicine
The article by Goodwin and colleagues on the association of county-level opioid prescriptions for >90 day supply with the county Presidential voting patterns among Medicare recipients reminded me of an article that noted an ecologic association between the state-specific incidence rates of Lyme disease and Presidential voting patterns in the 2004 election (1). In that study, Nadelman and Wormser noted a "remarkably similar" pattern between the Lyme disease incidence rates and Presidential voting; those states with the highest rates, >10 cases per 100,000 persons, voted Democratic (so-called "Blue" states), while those with low Lyme disease incidence rates, <10 per 100,000 persons, voted Republican (so-called "Red" states). Indeed, "the 19 states won by Kerry accounted for over 95% of the total number of cases of Lyme disease." Those authors did not perform the detailed analyses of the role of individual and county-level socioeconomic and demographic factors as reported by Goodwin and colleagues.
When I presented these results during a "Year in Review" presentation at the 2005 annual American College of Rheumatology meeting, one of the audience members wondered whether the Kerry voters were suffering from central nervous system Lyme disease.

1. Nadelman RB, Wormser GP: Poly-ticks: Red state versus Blue state for Lyme disease. Lancet 2005;365:280.
CONFLICT OF INTEREST: None Reported
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July 3, 2018
Another Interpretation of the Study
Carol Schlismann |
I took this correlation as representing that people who believed themselves as disenfranchised would vote to rock the boat. The highest rates of opioid use and abuse in the US are in the Appalachians, areas from which people traditionally poor have been struggling mightily in the past 10-12 years.
Even former President Obama expressed a desire that a major form of employment, coal mining, would be diminished and stopped by regulations enacted by the federal government.
Take away the people's hope for long-term employment, reduce their access to health care, and it isn't difficult to picture voting patterns. Voting for Trump was a cry for help.
CONFLICT OF INTEREST: None Reported
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July 4, 2018
"Political Science"
Kurtis Elward, MD, MPH | None
The JAMA Network Open article does not meet the standards and rigor of academic evaluation. The article seems to be a poorly veiled attempt to portray Trump voters as somehow impaired and convey a subtle message that one has to be on chronic narcotics or otherwise out of touch to vote for Trump.

Within the article, however, we see less than subtle bias: "After controlling for those county characteristics, the presidential vote explained 7% of the variation in opioid use" - therefore, 93% of the variation is due to other things. Nowhere else would such conclusions see publication in this manner in a JAMA journal.

It also states under its Methods section:

"Chronic opioid use was defined as receiving a prescription for a 90-day or greater supply in 1 year." So, if someone had surgery or any level of chronic pain, they would be classified as "chronic opioid users." It's also not saying that these people voted for Trump - just that patterns of voting happened to correlate with a prescription pattern. The R values were mediocre at best.

Moreover, under the "limitations" one reads,
"The county presidential vote is from 2016 and includes all voters, while the information on prolonged opioid prescriptions was from 2015 and was generated only from Medicare Part D enrollees, approximately 72% of the entire Medicare population." 

So the population was drawn from Medicare enrollees, many of whom have chronic conditions, and have any use of any opioid for any reason at any dose. The authors only superficially portray these limitations and restrictions, which limits the results and conclusions they advance.

Kurt Elward, MD, MPH
CONFLICT OF INTEREST: None Reported
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July 12, 2018
Thank you Dr. Goodwin and collegues,
Nancy English, Ph.D. APRN, CHPN | University
I appreciate the courage to publish and allow for comments on this very interesting relationship. This is indeed a crisis and one which will have consequences from the grief and often guilt of families for years and possibly generations to come. Possibly out of this there will be an increased attention to the mental health needs of communities and individuals. Nancy English
CONFLICT OF INTEREST: None Reported
July 13, 2018
Interesting But Skewed Premise of Opioid Use Amongst Trump Voters
Anish Korula, M.P.A '03 | USC Public Administration Alum
It was an interesting read, but I feel the study has an inherently biased hypothesis that poor, white voters who voted for Trump were most affected by opioid use. It supposes that political beliefs determine the type of addiction of a specific drug. A similar premise could be made with cocaine, in that wealthy Americans (mostly white) use the refined powder, while poorer Americans (mostly African-American and other minorities) have a heavier use of crack cocaine. While this poses an interesting theory, it is primarily relating to the ability to purchase the more expensive type of cocaine, which is a socio-economic one, rather than a racial one. Similarly, in the Goodwin et al study, the addiction type is prefaced as a political one.

Goodwin, Kuo, and Brown avoided a broader study to steer their hypothesis on the fact that opioid use is a national problem and that wealthy, Democratic-heavy counties and Democratic-leaning states (West Virginia) also suffer from this crisis. Wealthy liberals and independents also get prescriptions that they abuse, but the study's authors wanted to focus more on Trump voters, rather than a larger sample involving voters across the United States. They made some interesting points, but this kind of study needs to be repeated but broadened to include a much larger sample size of opioid use across socio-economic, ethnic, gender and sexual orientation groups.
CONFLICT OF INTEREST: None Reported
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July 13, 2018
Interesting Relationship
William Richardson, MD | Private Practice, previous NIH T-32 researcher
Let me say how brave the JAMA network was in publishing such an enlightening piece of research! As a previous NIH-sponsored researcher, some issues remain.

Correlation is not causation--not that causation is expressed.  But it IS implied.  It is SO easy to throw all kinds of factors into a multivariate analysis, even to invent some novel ones (called "transgenerated" variables, mathematical constructs from the observed data), stir them up, and get what you want out of it. We see it all the time in complex sociological research.

The choice of "support for Trump" as one of the factors is prima facie evidence of bias.  SURELY there are politically-neutral cultural, economic or environmental factors for which Trump support is a surrogate.

The "Trump support" factor was the county-wide percent of Trump voters.  That's an aggregate measure, and how can you relate that to individual drug use?

The study asks a very interesting question, but leaves a lot of questions in terms of intent, bias and confounding variables.
CONFLICT OF INTEREST: None Reported
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July 26, 2018
False Characterization of Chronic Opioid users
Elizabeth Payne |
Caught in the fray of the *opioid Crisis* is the chronic pain patient. We are demonized for our pain. The CDC guidelines for dosing opioids did not study chronic pain patients. Most of us are responsible with our medications and do not abuse them. We cannot afford to run out. It is becoming harder for doctors to prescribe what we need due to state oversight.

I am disabled from Chiari Malformation. I have been using opioids for pain for 10 years. I have been on the same dose for 8 years. My husband, an engineer, was laid off and was unable to find a job in his field. He had to take his social security at 62 and is working part-time stocking groceries. Out of our $3100 month income, we pay $1100 for my meds. We do not qualify for assistance. We are concerned about GOP policies towards Medicare and Social Security. We are not the only Americans in this situation, struggling to pay bills, and deal with the spectre of being in chronic pain and what it means to need opioids.

My demographics: I live in rural Indiana. College graduate. Artist. Active Democrat. Voted for HRC.
CONFLICT OF INTEREST: None Reported
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Citations 41
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Original Investigation
Public Health
June 22, 2018

Association of Chronic Opioid Use With Presidential Voting Patterns in US Counties in 2016

James S. Goodwin, MD1,2,3; Yong-Fang Kuo, PhD1,2,3; David Brown, MD4; et al David Juurlink, MD, PhD5,6,7; Mukaila Raji, MD2,3
Author Affiliations Article Information
  • 1Department of Preventive Medicine and Community Health, University of Texas Medical Branch, Galveston
  • 2Departments of Medicine, University of Texas Medical Branch, Galveston
  • 3Sealy Center on Aging, University of Texas Medical Branch, Galveston
  • 4University of Texas Medical Branch, Galveston
  • 5Department of Medicine, University of Toronto, Toronto, Ontario, Canada
  • 6Department of Pediatrics, University of Toronto, Toronto, Ontario, Canada
  • 7Institute of Health Policy, Management and Evaluation, University of Toronto, Toronto, Ontario, Canada
JAMA Netw Open. 2018;1(2):e180450. doi:10.1001/jamanetworkopen.2018.0450
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Key Points español 中文 (chinese)

Question  To what extent do socioeconomic measurements explain the county-level association of the 2016 US Republican presidential vote with opioid use?

Findings  This cross-sectional analysis of a national sample of Medicare claims data found that chronic use of prescription opioid drugs was correlated with support for the Republican candidate in the 2016 US presidential election. Individual and county-level socioeconomic measures explained much of the association between the presidential vote and opioid use.

Meaning  The association of the presidential vote with chronic opioid use underscores the importance of cultural, economic, and environmental factors associated with the opioid epidemic.

Abstract

Importance  The causes of the opioid epidemic are incompletely understood.

Objective  To explore the overlap between the geographic distribution of US counties with high opioid use and the vote for the Republican candidate in the 2016 presidential election.

Design, Setting, and Participants  A cross-sectional analysis to explore the extent to which individual- and county-level demographic and economic measures explain the association of opioid use with the 2016 presidential vote at the county level, using rate of prescriptions for at least a 90-day supply of opioids in 2015. Medicare Part D enrollees (N = 3 764 361) constituting a 20% national sample were included.

Main Outcomes and Measures  Chronic opioid use was measured by county rate of receiving a 90-day or greater supply of opioids prescribed in 2015.

Results  Of the 3 764 361 Medicare Part D enrollees in the 20% sample, 679 314 (18.0%) were younger than 65 years, 2 283 007 (60.6%) were female, 3 053 688 (81.1%) were non-Hispanic white, 351 985 (9.3%) were non-Hispanic black, and 198 778 (5.3%) were Hispanic. In a multilevel analysis including county and enrollee, the county of residence explained 9.2% of an enrollee’s odds of receiving prolonged opioids after adjusting for individual enrollee characteristics. The correlation between a county’s Republican presidential vote and the adjusted rate of Medicare Part D recipients receiving prescriptions for prolonged opioid use was 0.42 (P < .001). In the 693 counties with adjusted rates of opioid prescription significantly higher than the mean county rate, the mean (SE) Republican presidential vote was 59.96% (1.73%), vs 38.67% (1.15%) in the 638 counties with significantly lower rates. Adjusting for county-level socioeconomic measures in linear regression models explained approximately two-thirds of the association of opioid rates and presidential voting rates.

Conclusions and Relevance  Support for the Republican candidate in the 2016 election is a marker for physical conditions, economic circumstances, and cultural forces associated with opioid use. The commonly used socioeconomic indicators do not totally capture all of those forces.

Introduction

The epidemic of opioid use is a public health crisis in the United States and other countries.1,2 Much of the use is fueled by physician prescribing habits, with about half of opioid-related deaths caused by prescription opioids.2

One notable finding is the marked geographic variation in opioid prescribing,3-8 which is closely mirrored by similar variations in deaths from opioids.1 Geographic variation persists after controlling for individual-level risk factors.5 A number of studies have described state and county characteristics associated with high opioid use. These include education, racial/ethnic composition, health care utilization, physician supply, percentage uninsured, percentage on Medicaid, poverty, income inequality, and rural vs urban setting.6,9-12 In general, these characteristics explain about one-third of the geographic variation.

In examining the maps showing the geographic distribution of the opioid epidemic, several observers have noted the similarity to the results of the 2016 presidential election.13-16 Counties and states with the highest opioid use were often areas carried by the Republican candidate in the election. This is not surprising, because aspects of the narrative analyzing the presidential vote echoed themes that occur in explanations for high opioid use.17,18 In particular, both sets of explanations emphasized economic stressors and the sense of being left out. This study examines the association at the county level between the rate of Medicare Part D enrollees receiving prescriptions for prolonged opioid use and the percentage of votes for the Republican candidate in the 2016 election. Of particular interest was the extent to which county-level indicators of socioeconomic status explained this association. Economic stressors are only partially captured by standard measures such as poverty rate or income inequality.9 Thus, we hypothesized that controlling for available demographic and economic indicators at the individual and county level would only partly explain the associations of chronic opioid use and the presidential vote.

Methods

This study followed the Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) reporting guideline for reporting cross-sectional studies.19 The sources of data included Medicare files, the American Community Survey (ACS) from the US Census Bureau, and presidential voting data from uselectionatlas.org. Medicare claims included enrollment and claims data for a 20% national sample of Medicare beneficiaries enrolled in 2015. Medicare beneficiaries who had complete Parts A, B, and D coverage and who were not enrolled in a health maintenance organization in 2014 were selected; beneficiaries who survived through April 1, 2015, were included in the analyses. Part D provides prescription drug coverage, and in 2015 approximately 72% of Medicare beneficiaries were enrolled.20 The National Drug Code, product name, therapeutic class description, and US Drug Enforcement Administration class code from the 2015 Red Book Select database were used to identify prescriptions for any opioid and for any insulin (used as a control). Chronic opioid use was defined as receiving a prescription for a 90-day or greater supply in 1 year.8 The University of Texas Medical Branch Institutional Review Board approved the study and waived any informed consent requirement because the research used deidentified data.

Medicare enrollment files provided information on patient age, sex, race/ethnicity, and original entitlement. A Medicaid indicator in the enrollment file was a proxy for low income. The Elixhauser Comorbidity Index was used to generate comorbidity measures for each enrollee from all claims in 2014 and categorized enrollees by number of comorbidities: 0, 1, 2, and 3 or more.

County levels of education, household income, unemployment, single household, and marital status were from the 2011 to 2015 ACS 5-year estimates. Rurality was measured by Rural-Urban Continuum Codes.21 Religious attendance information came from the 2010 US Religion Census. The 2016 presidential and congressional voting data came from uselectionatlas.org. The 2015 20% sample of Medicare member data was used to estimate the percentage of individuals in each county who were white, male, eligible for Medicaid, covered by a health maintenance organization, covered by Medicare Part D, and whose original entitlement resulted from a disability. There are 3142 counties or county equivalents according to the 2011 to 2015 ACS 5-year estimates. In Medicare sample data, there were 3128 counties or county equivalents with any Medicare enrollees. After excluding counties with fewer than 12 enrollees, there were 3118 counties. The 2016 voting data from uselectionatalas.org included data from 3101 counties. It did not include data from Alaska. The analyses include between 3100 and 3118 counties, depending on the analysis. State laws regulating opioid prescribing have been categorized into 7 groups by the Centers for Disease Control and Prevention22: (1) requires evaluation for substance use disorder and physician examination before prescribing; (2) requires continuing education in prescribing controlled substances, pain management, and identifying substance use disorders for all practitioners; (3) requires the use of a prescription drug monitoring program when prescribing opioids; (4) sets certain prescription drug limits for schedule III opioids; (5) regulates and imposes strict oversight of pain management clinics and pain treatment facilities; (6) requires written consent or treatment plan for treatment of chronic pain; and (7) requires or recommends consultation with a specialist (pain, psychiatry, addiction, or mental health) in certain circumstances.22

Maps were first created showing unadjusted county rates of receiving prescriptions for a 90-day or greater supply of opioids in 2015 among Medicare Part D enrollees and also the 2016 county presidential vote using ArcGIS geographic information system version 9.3 (Esri). Pearson correlations were generated between county rates of opioid use and county presidential vote. Then county rates of Medicare Part D enrollees who received prescriptions for a 90-day or greater supply of opioids in 2015 were generated, adjusted for age, original reason for Medicare enrollment (age 65 years, disability, or end-stage renal disease), sex, race/ethnicity, Medicaid eligibility, and number of comorbidities in a hierarchical generalized linear mixed model with county as a random effect. The intraclass correlation coefficient was estimated from a null model with no enrollee characteristics and also from the full model. The adjusted county rates and corresponding 95% confidence intervals were calculated, ranked, and plotted. To assess how much the association of presidential voting with opioid use was explained by other county characteristics, 3 regression models were built with the adjusted county opioid rate as the dependent variable. The first model included only the percentage of the county vote for the Republican presidential candidate. The second model adjusted for county demographic characteristics and the third model added whether the state had any of 7 categories of laws regulating opioid prescribing.22-24 The parameter estimate and partial R2 for each characteristic were reported. All tests of statistical significance were 2-sided with significance set at P < .05, and analyses were performed with SAS Enterprise statistical software version 7.12 at the CMS Virtual Research Data Center (SAS Institute Inc).

Results

The characteristics of the 20% sample of Medicare Part D enrollees are presented in Table 1. Of the 3 764 361 enrollees, 679 314 (18.0%) were younger than 65 years, 2 283 007 (60.6%) were female, 3 053 688 (81.1%) were non-Hispanic white, 351 985 (9.3%) were non-Hispanic black, and 198 778 (5.3%) were Hispanic; 999 912 enrollees (26.5%) received their original Medicare entitlement because of disability and 2 735 152 (72.7%) because they had reached age 65 years.

Figure 1 presents 2 maps illustrating opioid use in 3118 of 3142 US counties (99.2%) and 2016 presidential voting patterns in 3101 counties (98.7%). The first map shows the percentage of older Medicare beneficiaries who had an opioid supply covering more than 90 days in 2015, ordered by quintile at the county level. Approximately 1 in 5 counties had long-term opioid prescribing rates greater than 20.10%, while a similar proportion had rates of less than 10.85%. Counties with the highest rates were predominately concentrated in the South and Appalachian areas, as well as Michigan and some western states. The second map shows the percentage of the presidential vote for the Republican candidate for each county, also ordered by quintile. The 2 maps share some similar patterns. The correlation coefficient between the 2 rates at the county level was 0.32 (P < .001). Counties in the Great Plains states and also in the Deep South were more likely to be discordant in the 2 measures. The correlation of county-level presidential voting with the percentage of Medicare enrollees who were prescribed insulin was also measured to assess the specificity of the correlation with opioid prescriptions. The correlation was 0.02 (P = .17).

Next we examined county-level characteristics associated with chronic opioid use by Medicare enrollees. First, a multilevel analysis was conducted to examine variation in opioid use among counties after controlling for person-level characteristics, including age, sex, race/ethnicity, Medicaid eligibility, number of comorbidities, and whether the Medicare enrollees initially became eligible for Medicare because of disability (Table 1). Female sex, non-Hispanic white race/ethnicity, Medicare coverage for disability or end-stage renal disease, Medicaid eligibility, and increasing number of diagnoses were all associated with increased odds of chronic opioid prescriptions.

Figure 2 illustrates the county-level variation in adjusted rates of chronic opioid use. After controlling for individual characteristics, there was still considerable variation in county rates, with 693 of 3100 counties (22.4%) with adjusted rates significantly greater than the mean rate and 638 of 3100 counties (20.6%) with significantly lower rates. The intraclass correlation coefficient for the adjusted model was 0.092, implying that county of residence explained 9.2% of the variation in whether a Medicare recipient received prescriptions for chronic opioid use, independent of the characteristics of the individuals. The correlation between the adjusted county rates of opioid use and the presidential vote was 0.42 (P < .001).

Table 2 presents the characteristics of the counties with significantly higher or lower adjusted Republican presidential votes than the average. Most of the socioeconomic variables differed significantly between the 2 sets of counties. The presidential vote was one of the largest differences between counties with high and low rates of opioid use, with the former voting for the Republican candidate at a mean (SE) rate of 59.96% (1.73%) and the latter voting for the Republican candidate at a mean (SE) rate of 38.67% (1.15%). There were also substantial differences in household income, education, racial composition, and the percentage of Medicare enrollees who originally became eligible because of disability. This last difference was unexpected, because Medicare eligibility for disability had been controlled for at the individual level in estimating the adjusted county rates.

Next we examined whether the presidential vote was associated with opioid use independent of the demographic and socioeconomic measures. Table 3 presents an analysis showing the percentage of the variation in adjusted county opioid use rates explained by the Republican presidential vote, before and after the addition of other county characteristics. The county opioid use rates were adjusted for differences in individual characteristics among the Medicare recipients. Model 1 includes only the percentage vote for the Republican candidate, which explains 18% of the county-level variation in opioid use. In model 2, all the variables included in Table 2 were added. After controlling for those county characteristics, the presidential vote explained 7% of the variation in opioid use. Model 3 adds variables describing the degree of state regulations on opioid prescribing22-24; in this model the presidential vote still explains 6% of the county-level variation. The model R2 was 0.44 for model 2 and 0.46 for model 3, indicating that the variables included explained 44% and 46% of the variance in county opioid rates, respectively. In both models 2 and 3, the presidential vote has the largest explanatory power among county characteristics. Thus, adjusting for county-level socioeconomic measures explained approximately two-thirds of the association between opioid rates and presidential voting rates.

The analyses were repeated, using the percentage of county vote for Republican congressional candidates instead of the presidential vote. The correlation with the unadjusted opioid use rates was 0.27 (P < .001), and with the adjusted rates it was 0.36 (P < .001). The correlation of the county Republican congressional vote with the county presidential vote was high (r = 0.82; P < .001). The analyses were repeated in Table 3, substituting county Republican congressional vote for the Republican presidential vote. The partial R2 values for the congressional vote in models 1, 2, and 3 were 0.13, 0.05, and 0.04, respectively, somewhat lower than the values for the presidential Republican vote in Table 3.

Discussion

In this retrospective study using a national sample of Medicare claims data, chronic use of prescription opioid drugs was correlated with support for the Republican candidate in the 2016 presidential election. Republican support explained 18% of the variance in county rates of opioid use in 3100 counties in the United States, with counties whose opioid prescription rates were above average having a higher mean (SE) Republican vote (59.96% [1.73%]) than counties with prescription rates below average (38.67% [1.15%]). This association is related to underlying county socioeconomic characteristics that are common to both chronic opioid use and voting patterns, particularly characteristics pertaining to income, disability, insurance coverage, and unemployment.

The findings of this study add to the emerging literature on the relationship between health status and support of Donald Trump in the 2016 election. Wasfy and colleagues25 examined the difference in support for Trump in 2016 and for Mitt Romney, the Republican candidate in 2012, among 3009 counties. Eighty-eight percent of counties had a net voting shift toward the Republican candidate in 2016. They then examined the relationship between voting shift and a 7-item measure of unhealthfulness. The unhealthfulness score accounted for 68% of the variance in the magnitude of the voting shift. Similarly, Bor26 reported that a 2016 Republican presidential vote at the county level was strongly and negatively correlated with change in life expectancy between 2008 and 2016, and Monnat13 reported that counties with drug, alcohol, and suicide mortality rates above the median showed heavier support for Trump in 2016 than for Romney in 2012. In many areas with high rates of drug overdose, voter turnout in 2016 exceeded that in 2012, with Donald Trump overwhelmingly favored.14

The current study and the other studies discussed were ecological, measuring associations at a county level between the presidential vote and health indicators. There is some evidence that the association is indeed contextual. An analysis of interviews with supporters of President Trump conducted by Gallup concluded that they came from areas where residents have high rates of poor health and lack of upward mobility, even if the health and economic status of the individual respondents were good.27 The community context seemed at least as strong an influence as individual economic factors.27,28 An analogous finding of contextual effects on opioid prescriptions was shown in the current analysis. In both Table 2 and Table 3, the county rate of Medicare recipients originally enrolled for disability was associated with adjusted county opioid use rate, even though the county opioid use rates were adjusted for disability at the individual level.

Limitations

There are several limitations to our analysis. The county presidential vote is from 2016 and includes all voters, while the information on prolonged opioid prescriptions was from 2015 and was generated only from Medicare Part D enrollees, approximately 72% of the entire Medicare population.20 In addition, prescription opioids are only part of the opioid epidemic, accounting for approximately half of opioid-related deaths.2 The characteristics of the prescribers of the opioids were not examined, although prescriber behavior clearly plays an important role. As noted previously, the analyses are ecological, linking opioid use and voting at the county, and not the individual, level. Approximately two-thirds of the association between opioid rates and presidential voting was explained by socioeconomic variables. The socioeconomic variables were limited to the available data. Our assumption is that all of the association between opioid use and voting patterns is explainable by socioeconomic, legal, environmental, and cultural factors, but that assumption cannot be tested with the current data.

Conclusions

Experts have struggled to explain both the root causes of the opioid epidemic and the results of the 2016 election. As noted by Mayhew, “in…periods of populist anger the causes of that anger are hard to explain using standard measures of economic well-being.”28

Many studies have shown that the relationship between health and social variables (such as employment status, income, and neighborhood) is at least as strong as the relationship between health and biological variables.29,30 Public health policy directed at stemming the opioid epidemic must go beyond the medical model and incorporate socioenvironmental disadvantage factors and health behaviors into policy planning and implementation.30,31

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Article Information

Accepted for Publication: April 3, 2018.

Open Access: This is an open access article distributed under the terms of the CC-BY License. © 2018 Goodwin JS et al. JAMA Network Open.

Corresponding Author: James S. Goodwin, MD, University of Texas Medical Branch Sealy Center on Aging, 301 University Blvd, Galveston, TX 77555 (jsgoodwi@utmb.edu).

Author Contributions: Drs Goodwin and Kuo had full access to all of the data in the study and take responsibility for the integrity of the data and the accuracy of the data analysis.

Concept and design: Goodwin, Kuo, Raji.

Acquisition, analysis, or interpretation of data: Goodwin, Kuo, Brown, Juurlink.

Drafting of the manuscript: Goodwin, Brown.

Critical revision of the manuscript for important intellectual content: Kuo, Juurlink, Raji.

Statistical analysis: Kuo, Juurlink.

Obtained funding: Goodwin, Kuo, Raji.

Administrative, technical, or material support: Raji.

Supervision: Goodwin, Raji.

Conflict of Interest Disclosures: Dr Kuo reported grants from the National Institute on Drug Abuse during the conduct of the study and grants from the Agency for Healthcare Research and Quality outside the submitted work. Dr Juurlink reported unpaid membership in Physicians for Responsible Opioid Prescribing and membership in the American College of Medical Toxicology. Both groups have publicly available positions on this issue.

Funding/Support: This work was supported by the National Institutes of Health (grants R01 DA039192-2 and K05 CA134923-8).

Role of the Funder/Sponsor: The National Institutes of Health had no role in the design and conduct of the study; collection, management, analysis, and interpretation of the data; preparation, review, or approval of the manuscript; or decision to submit the manuscript for publication.

References
1.
King  NB, Fraser  V, Boikos  C, Richardson  R, Harper  S.  Determinants of increased opioid-related mortality in the United States and Canada, 1990-2013: a systematic review.  Am J Public Health. 2014;104(8):e32-e42. doi:10.2105/AJPH.2014.301966PubMedGoogle ScholarCrossref
2.
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(5051):1445-1452. doi:10.15585/mmwr.mm655051e1PubMedGoogle ScholarCrossref
3.
Paulozzi  LJ, Mack  KA, Hockenberry  JM.  Variation among states in prescribing of opioid pain relievers and benzodiazepines—United States, 2012.  J Safety Res. 2014;51:125-129. doi:10.1016/j.jsr.2014.09.001PubMedGoogle ScholarCrossref
4.
Morden  NE, Munson  JC, Colla  CH,  et al.  Prescription opioid use among disabled Medicare beneficiaries: intensity, trends, and regional variation.  Med Care. 2014;52(9):852-859. doi:10.1097/MLR.0000000000000183PubMedGoogle ScholarCrossref
5.
Mundkur  ML, Rough  K, Huybrechts  KF,  et al.  Patterns of opioid initiation at first visits for pain in United States primary care settings.  Pharmacoepidemiol Drug Saf. 2018;27(5):495-503. doi:10.1002/pds.4322PubMedGoogle ScholarCrossref
6.
Guy  GP  Jr, Zhang  K, Bohm  MK,  et al.  Vital signs: changes in opioid prescribing in the United States, 2006-2015.  MMWR Morb Mortal Wkly Rep. 2017;66(26):697-704. doi:10.15585/mmwr.mm6626a4PubMedGoogle ScholarCrossref
7.
Painter  JT, Crofford  LJ, Talbert  J.  Geographic variation of chronic opioid use in fibromyalgia.  Clin Ther. 2013;35(3):303-311. doi:10.1016/j.clinthera.2013.02.003PubMedGoogle ScholarCrossref
8.
Kuo  YF, Raji  MA, Chen  NW, Hasan  H, Goodwin  JS.  Trends in opioid prescriptions among Part D Medicare recipients from 2007 to 2012.  Am J Med. 2016;129(2):221.e21-221.e30. doi:10.1016/j.amjmed.2015.10.002PubMedGoogle ScholarCrossref
9.
McDonald  DC, Carlson  KE.  The ecology of prescription opioid abuse in the USA: geographic variation in patients’ use of multiple prescribers (“doctor shopping”).  Pharmacoepidemiol Drug Saf. 2014;23(12):1258-1267. doi:10.1002/pds.3690PubMedGoogle ScholarCrossref
10.
Keyes  KM, Cerdá  M, Brady  JE, Havens  JR, Galea  S.  Understanding the rural-urban differences in nonmedical prescription opioid use and abuse in the United States.  Am J Public Health. 2014;104(2):e52-e59. doi:10.2105/AJPH.2013.301709PubMedGoogle ScholarCrossref
11.
McDonald  DC, Carlson  K, Izrael  D.  Geographic variation in opioid prescribing in the U.S.  J Pain. 2012;13(10):988-996. doi:10.1016/j.jpain.2012.07.007PubMedGoogle ScholarCrossref
12.
Webster  BS, Cifuentes  M, Verma  S, Pransky  G.  Geographic variation in opioid prescribing for acute, work-related, low back pain and associated factors: a multilevel analysis.  Am J Ind Med. 2009;52(2):162-171. doi:10.1002/ajim.20655PubMedGoogle ScholarCrossref
13.
Monnat  SM. Deaths of despair and support for Trump in the 2016 presidential election. Pennsylvania State University research brief. http://aese.psu.edu/directory/smm67/Election16.pdf. Published December 4, 2016. Accessed January 8 2018.
14.
Frydl  K. The oxy electorate: a scourge of addiction and death siloed in fly-over country. Medium. https://medium.com/@kfrydl/the-oxy-electorate-3fa62765f837. Published November 16, 2016. Accessed January 8, 2018.
15.
Jacobs  H. The revenge of the “Oxy electorate” helped fuel Trump’s election upset. Business Insider. http://www.businessinsider.com/trump-vote-results-drug-overdose-deaths-2016-11. Published November 23, 2016. Accessed January 8, 2018.
16.
Lopez  G. Most Ohio and Pennsylvania counties that flipped from Obama to Trump are wracked by heroin: another potential explanation for Trump’s surprising win. Vox. https://www.vox.com/policy-and-politics/2016/11/22/13698476/trump-opioid-heroin-epidemic. Published November 22, 2016. Accessed January 8, 2018.
17.
Enke B. Moral values and voting: Trump and beyond. Social Studies Research Network. National Bureau of Economic Research working paper 24268. https://ssrn.com/abstract=2979591. Published June 4, 2017. Accessed January 22, 2018.
18.
Goetz  S, Partridge  M, Stephens  H. The economic status of rural America in the Trump era. Munich Personal RePEc Archive. https://mpra.ub.uni-muenchen.de/77830/. Published March 23, 2017. Accessed January 8, 2018.
19.
von Elm  E, Altman  DG, Egger  M, Pocock  SJ, Gøtzsche  PC, Vandenbroucke  JP; STROBE Initiative.  The Strengthening the Reporting of Observational Studies in Epidemiology (STROBE) statement: guidelines for reporting observational studies.  Ann Intern Med. 2007;147(8):573-577. doi:10.7326/0003-4819-147-8-200710160-00010PubMedGoogle ScholarCrossref
20.
Hoadley  J, Cubanski  J, Neuman  T. Medicare Part D at ten years: the 2015 marketplace and key trends. Kaiser Family Foundation. https://www.kff.org/report-section/medicare-part-d-at-ten-years-appendix/. Published October 5, 2015. Accessed March 16, 2018.
21.
US Department of Agriculture. Rural-Urban Continuum Codes. https://www.ers.usda.gov/data-products/rural-urban-continuum-codes/. Updated October 12, 2016. Accessed July 14, 2017.
22.
Centers for Disease Control and Prevention. State prescription drug laws. https://www.cdc.gov/drugoverdose/policy/laws.html. Updated March 23, 2016. Accessed January 8, 2018.
23.
Raji  M, Kuo  YF, Chen  NW, Hasan  H, Wilkes  D, Goodwin  JS.  Impact of laws regulating pain clinics on opioid prescribing and opioid-related toxicity among Texas Medicare Part D beneficiaries.  J Pharm Tech. 2017;33(2):60-65. doi:10.1177/8755122516686226Google ScholarCrossref
24.
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(10):1876-1883. doi:10.1377/hlthaff.2016.0448PubMedGoogle ScholarCrossref
25.
Wasfy  JH, Stewart  C  III, Bhambhani  V.  County community health associations of net voting shift in the 2016 U.S. presidential election.  PLoS One. 2017;12(10):e0185051. doi:10.1371/journal.pone.0185051PubMedGoogle ScholarCrossref
26.
Bor  J.  Diverging life expectancies and voting patterns in the 2016 US presidential election.  Am J Public Health. 2017;107(10):1560-1562. doi:10.2105/AJPH.2017.303945PubMedGoogle ScholarCrossref
27.
Rothwell  J. Economic hardship and favorable views of Trump. Gallup News Blog. http://news.gallup.com/opinion/polling-matters/193898/economic-hardship-favorable-views-trump.aspx. Updated July 22, 2016. Accessed January 8, 2018.
28.
Mayhew  A.  Trump through a Polanyi lens: considering community well-being.  Real-World Econ Rev. 2017;78:28-35. http://www.paecon.net/PAEReview/issue78/Mayhew78.pdf. Accessed January 14, 2018.Google Scholar
29.
Dalton  JE, Perzynski  AT, Zidar  DA,  et al.  Accuracy of cardiovascular risk prediction varies by neighborhood socioeconomic position.  Ann Intern Med. 2017;167(7):456-464. doi:10.7326/M16-2543PubMedGoogle ScholarCrossref
30.
Schroeder  SA.  Shattuck Lecture. We can do better—improving the health of the American people.  N Engl J Med. 2007;357(12):1221-1228. doi:10.1056/NEJMsa073350PubMedGoogle ScholarCrossref
31.
Brown  D. Opioids and paternalism. Am Scholar. Autumn 2017. https://theamericanscholar.org/opioids-and-paternalism/#.WlP6YNKnHX4. Published September 5, 2017. Accessed January 8, 2018.
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