key: cord-0924090-0nxa9767 authors: Scott, Kirstin Woody; Liu, Angela; Chen, Carina; Kaldjian, Alexander S.; Sabbatini, Amber K.; Duber, Herbert C.; Dieleman, Joseph L. title: Healthcare spending in U.S. emergency departments by health condition, 2006–2016 date: 2021-10-27 journal: PLoS One DOI: 10.1371/journal.pone.0258182 sha: 06c04c828bf87120978afcfe823e50e73d8fb43e doc_id: 924090 cord_uid: 0nxa9767 BACKGROUND: Healthcare spending in the emergency department (ED) setting has received intense focus from policymakers in the United States (U.S.). Relatively few studies have systematically evaluated ED spending over time or disaggregated ED spending by policy-relevant groups, including health condition, age, sex, and payer to inform these discussions. This study’s objective is to estimate ED spending trends in the U.S. from 2006 to 2016, by age, sex, payer, and across 154 health conditions and assess ED spending per visit over time. METHODS AND FINDINGS: This observational study utilized the National Emergency Department Sample, a nationally representative sample of hospital-based ED visits in the U.S. to measure healthcare spending for ED care. All spending estimates were adjusted for inflation and presented in 2016 U.S. Dollars. Overall ED spending was $79.2 billion (CI, $79.2 billion-$79.2 billion) in 2006 and grew to $136.6 billion (CI, $136.6 billion-$136.6 billion) in 2016, representing a population-adjusted annualized rate of change of 4.4% (CI, 4.4%-4.5%) as compared to total healthcare spending (1.4% [CI, 1.4%-1.4%]) during that same ten-year period. The percentage of U.S. health spending attributable to the ED has increased from 3.9% (CI, 3.9%-3.9%) in 2006 to 5.0% (CI, 5.0%-5.0%) in 2016. Nearly equal parts of ED spending in 2016 was paid by private payers (49.3% [CI, 49.3%-49.3%]) and public payers (46.9% [CI, 46.9%-46.9%]), with the remainder attributable to out-of-pocket spending (3.9% [CI, 3.9%-3.9%]). In terms of key groups, the majority of ED spending was allocated among females (versus males) and treat-and-release patients (versus those hospitalized); those between age 20–44 accounted for a plurality of ED spending. Road injuries, falls, and urinary diseases witnessed the highest levels of ED spending, accounting for 14.1% (CI, 13.1%-15.1%) of total ED spending in 2016. ED spending per visit also increased over time from $660.0 (CI, $655.1-$665.2) in 2006 to $943.2 (CI, $934.3-$951.6) in 2016, or at an annualized rate of 3.4% (CI, 3.3%-3.4%). CONCLUSIONS: Though ED spending accounts for a relatively small portion of total health system spending in the U.S., ED spending is sizable and growing. Understanding which diseases are driving this spending is helpful for informing value-based reforms that can impact overall health care costs. a1111111111 a1111111111 a1111111111 a1111111111 a1111111111 The emergency department (ED) fills a vital role in the health system, caring for patients with acute medical illness and injury 24 hours a day, 7 days a week, and serving as a critical safety net to millions of Americans each year [1, 2] . At the same time, ED visits can be expensive, particularly when compared to alternative sites of care [3] . As such, the ED has been subject to policymaker scrutiny as momentum has grown to curb healthcare spending and payers have moved towards delivery reforms and alternative payment models designed to improve the value of healthcare services more broadly [4] . Efforts to promote improved value around emergency care have tended to focus on preventing avoidable ED visits that can be treated in less costly settings, as well as those that reduce low-value testing and interventions [5] [6] [7] [8] . Beyond policymaker and payer interest in decreasing ED spending, patients also have concerns about the cost of ED care. Recent media coverage and ongoing legislative debates have brought greater attention to "surprise billing" practices and high ED charges, including during the current COVID-19 pandemic [9] [10] [11] [12] . Despite this heightened attention to ED costs, there are surprisingly few studies that provide a comprehensive assessment of ED spending over time, including how ED spending varies across health conditions and patient populations. Prior work has generally shown overall ED spending to be a relatively small contributor to national health spending as compared to other sectors, but has lacked detail on where these dollars have been allocated, has been limited to specific conditions, or focused only on a subset of ED patients [13] [14] [15] [16] [17] . These varying approaches make it difficult to assess ED spending trends over time and across key groups, which would be helpful as policymakers seek to improve its value. In this context, the current study aims to describe ED spending in the U.S. across a range of policy relevant variables from 2006 to 2016. First, the distribution of ED spending is summarized across age groups, patient sex, payer, and 154 health conditions from 2006 to 2016. Second, ED spending is delineated by disposition ("treat-and-release" ED visits versus those resulting in hospitalization). Third, ED spending per visit estimates are summarized over time and across health conditions. This paper complements a recent study published by the Disease Expenditure (DEX) project at the Institute for Health Metrics and Evaluation that provides health spending estimates across seven settings of care from 1996-2016, including the ED [18] . In this current study, a more detailed analysis of ED estimates is presented, including ED spending trends by age, sex, condition, payer, disposition, and per visit from 2006 to 2016. Spending estimates presented in this analysis rely on an existing dataset constructed for the broader DEX study, which leveraged 198 source-years of microdata to estimate health spending across all health care services, including the ED [18] . The DEX ED spending estimates from 2006 through 2016 rely primarily on ED visit data obtained from the Nationwide Emergency Department Sample (NEDS) [19] . As detailed in that methodology, DEX ED spending estimates are based on a random selection of 50% of the NEDS data (S1 and S2 Tables in S1 Appendix). Since 2014 NEDS data were not available to that research team at the time of the analysis, an average of 2013 and 2015 ED spending was used for 2014. Additional datasets used for generating the DEX ED estimates used in this analysis include the 2006-2016 Medical Expenditure Panel Survey, which captures information about ED payments and charges using a nationally representative household survey; Nationwide Inpatient Sample, which captures comorbidities and inpatient spending; and National Health Expenditure Accounts, which captures total national healthcare spending. The primary outcomes of interest were ED spending by health condition, age, sex, payer, and year (2006-2016), which come from a DEX dataset that has been described in greater detail elsewhere [18] . The following summarizes key portions in the development of the DEX spending estimates focused on the ED. First, the NEDS facility charge for ED services, as well as age, sex, and diagnosis codes were extracted for each visit. Each visit and charge (which accounted for inflation and transformed into 2016 U.S. Dollars ($) across all years) was assigned one of 38 unique age-sex groups as well as 154 health conditions, which map to 15 aggregated health categories (S3 and S4 Tables in S1 Appendix). All DEX spending estimates, including those in the ED, underwent a comorbidity adjustment (described in detail elsewhere [20] ), that accounts for how comorbidities (e.g., tobacco use) may affect spending associated with the primary diagnosis and reassigns charges accordingly [17, 18, 20] . Second, facility charges were used to estimate total spending after adjusting for each health condition, age, and year combination using data from the Medical Expenditure Panel Survey, which reports both charges and payments for facilities and physicians [21] . The final spending estimates shown in this analysis thus aim to reflect ED payments (and not charges) for both facility and physician services in the ED. Third, Medical Expenditure Panel Survey data were used to model a ratio that was applied to national payer distribution estimates as provided by the National Health Expenditure Accounts, and made it possible to disaggregate ED spending into three payer groups: public (Medicare, Medicaid, or other public insurance programs), private, or out-of-pocket (deductibles, copays, or other payments not covered by insurance) [22] . Fourth, a hierarchical model was used to ensure estimates are not driven by extreme outliers, drawing information across age and time as needed. Fifth, following prior work [18] , disaggregated spending estimates were scaled by proportionally adjusting spending by health condition, age, and sex, so that disaggregated ED spending summed by year was equal to the total ED spending determined by the National Health Expenditure Accounts (S1 Appendix). ED spending estimates were further disaggregated by disposition into two groups, which are exhaustive of all NEDS visits: (i) visits whose care was managed by the ED ("treat-and-release" visits), and (ii) visits which resulted in an inpatient admission. The fraction of total ED spending that was attributable to the "treat-and-release" group was calculated using NEDS visit-level data. This fraction was applied to the total ED spending estimates to yield estimates for the "treat-and-release" group by age, sex, health condition, payer, and year. Each NEDS visit from the processed dataset was counted, and information was captured to assign that visit to the appropriate age-sex group, health condition, and year. This study did not generate a volume estimate by payer. Finally, ED spending per visit was calculated by dividing the total spending by the total number of visits by year. A sub-analysis was conducted to illustrate how ED spending per visit varies by health condition. The estimates reported herein are the mean of the bootstrapped sample of 1000 draws from each NEDS visit used in the analytic sample and are provided with associated confidence intervals (CIs) at the 2.5th and 97.5th percentiles. Each of the 1000 draws is carried through the entirety of the estimation process. Spending changes are summarized in both absolute terms (difference between 2016 and 2006) and relative changes (creating a population-standardized annualized rate of change (AROC), which accounts for changes in the population (age, sex, and size) from 2006 and 2016). All estimates were adjusted for inflation and reported in 2016 U.S. dollars. All analyses were completed using Stata (StataCorp), version 13.1; R (R Foundation), version 3.5.1; and Python (Python Software Foundation), version 3.6. Research related to the DEX project underwent review and received approval from the Institutional Review Board at the University of Washington. rate for ED spending between 2006 and 2016 was 4.4% (CI, 4.4%-4.5%), compared to the whole healthcare sector, which grew at 1.4% (CI, 1.4%-1.4%) over that same time period (S5 Table in S1 Appendix). After adjusting for changes in inflation, population size, and age, ED spending by private payers witnessed the greatest relative increase in spending at 5.2% (CI, 5.2%-5.2%), followed by public payers at 3.8% (CI, 3.7%-3.8%), and out-of-pocket payments at 3.4% (CI, 3.4%-3.4%) (S6 Table in S1 Appendix). Table in S1 Appendix). Injuries-the aggregated health category accounting for the highest modeled ED spending-is made up of fourteen granular conditions, with four of these appearing in the 25 highest-ranking ED spending conditions as shown in Table 1 : road injuries (ranked 1 st ), falls (ranked 3 rd ), unintentional injuries due to mechanical forces (ranked 7 th ), and other unintentional injuries (ranked 13 th ). Note: Health conditions are sorted by those with the highest levels of ED spending as of 2016 (see S8 Table for (Fig 2) . ED spending by condition among these younger age-sex groups differ by magnitude and order. In 2016, the three conditions accounting for the most ED spending among females ages 20-44 were urinary diseases ($2. (Fig 4) . (CI, 4.2%-6.1%). Table 1 shows how ED spending per visit had a positive trajectory for all but one of the 25 conditions that had the highest levels of ED spending in 2016. The exception was treatment for hypertension, which was $1128.5 (CI, $1012.8-$1228.0) in 2006, increasing to $1301.9 (CI, $1169.6-$1449.9) by 2010, and then decreasing to $1238.2 (CI, $1063.4-$1399.5) by 2016 (S6 Fig in S1 Appendix) . This analysis demonstrates growth in both ED spending and visits between 2006 and 2016, totaling $136.6 billion (CI, $136.6 billion-$136.6 billion) and 144.8 million (CI, 143.6 million-146.2 million) visits in 2016. While ED care comprises only 5.0% (CI, 5.0%-5.0%) of the $2.71 trillion of national health spending in 2016 [18] , ED spending grew on average 4.4% (CI, 4.4%-4.4%) per year since 2006, outpacing the healthcare sector, which grew at an annualized rate of 1.4% (CI, 1.4%-1.4%). Prior evidence has consistently shown that the ED has historically accounted for a rather small proportion of overall national healthcare spending [13] [14] [15] 17] . However, the relative trajectory of spending and demand for ED care over the past decade has occurred in the setting of policymaker and payer enthusiasm to implement value-based reforms to reduce ED spending [3, 4] , divert low-acuity ED visits to lower-cost alternatives including urgent care centers [23] [24] [25] , emergence of high deductible health plans [26, 27] , and upstream innovations such as primary care innovations to reduce what some would describe as preventable ED visits [6] . This growth may have persisted in spite of these pressures due a variety of reasons, including patient preference to seek ED care [28] , outpatient provider reliance upon the ED for conducting intensive diagnostic workups for their patients [1, 29] , increasing provision of ED services [30] , and increasingly complex patient presentations [31, 32] . The majority of ED spending was paid in nearly equal parts between private and public payers between 2006 and 2016. However, growth was more prominent among private payers even despite major public insurance expansion efforts during this study period. Though prior work has also shown that private payers cover the majority of ED spending [33] , additional research is needed to explore why these payer trends exist and the adequacy of compensation. This study, which found an overall lower absolute level of out-of-pocket ED spending compared to others [34] , showed a relative decline in out-of-pocket ED spending over time. It will be important to monitor this trend in light of the recent slight uptick to the uninsured rate [35, 36] , growth of high-deductible health plans [26, 27] , and concern regarding out-of-network billing practices [11, 37] . Among the fifteen health categories that ED spending is delineated by in this study, injuries accounted for the highest ED spending over time. Four of the fourteen individual health conditions that make up this broader category of injuries ranked in the top twenty-five conditions in terms of modeled ED spending in 2016 (road injuries, falls, unintentional injuries due to mechanical forces, and other unintentional injuries). Among the 154 individual health conditions, road injuries, urinary diseases, and falls consistently accounted for the highest absolute levels of ED spending over time. Systematically studying and further refining value-based pathways for patients presenting with injuries and other high ED spending conditions as well as those conditions with increased relative ED spending over time (e.g., biliary diseases) may be a high yield mechanism for assessing if such pathways affect ED spending trajectories. Conditions such as low back and neck pain, which showed relative growth and had the fifth highest level of ED spending in 2016, suggests another potential area for intervention, especially since there is poor compliance with evidence-based guidelines for musculoskeletal complaints [38] [39] [40] . This study's disposition analysis suggests that important sources of ED spending are missed when studies focus only on the treat and release ED group, which are known to comprise the majority of ED visits in the U.S. [1, 41] . Exploring those conditions for which there is high ED spending among those who are ultimately admitted to the hospital, such as septicemia, can identify areas where intensive ED management can yield broader health system value (e.g., improved outcomes and lower overall hospitalization spending). The primary focus of this descriptive study is to contextualize ED spending over time across a range of variables. However, we also took into account the well-known increase in ED visits over time [41] by showing ED spending per visit. We show modest growth in ED spending per visit over time and variation in this metric by health condition. This is consistent with prior studies suggesting that service price and intensity-as opposed to utilization-may play a more sizable role in ED spending trends [30, 42] . Spending due to increasing prices and intensity may allow the ED to better care for an increasingly complex patient population. For instance, Burke et al. [43] recently demonstrated improved mortality rates among the most severely ill patients treated in the ED, including the non-hospitalized population. However, the change in trajectory for ED spending on hypertension, which had initially been increasing but then had a downward trajectory in recent years, suggests that efforts to improve adherence to evidencebased practice may hold promise for mitigating some ED spending [44] . In the setting of this general tendency towards growth, more research is needed to elucidate if and where inefficiencies in ED care exist in order to inform strategic reductions in low-value spending. This study provides a needed assessment of where ED spending has occurred over time, serving as a foundation for future work to explore the value of this spending, assessments of this growth, and whether it has been sufficient for supporting the unique role that the ED serves to millions of Americans. This is especially timely in the COVID-19 era where ED volumes have fluctuated dramatically [45, 46] , thereby making ED spending a dynamic trend to monitor. Though it utilizes a novel approach to provide a needed assessment of ED spending over time, this analysis and the study from which the estimates were drawn [18] are purely observational. This study is descriptive and aims to help guide future studies that may be able to assess underlying drivers of the observed spending trends (e.g., number of ED beds in a community, prices, intensity of services). While NEDS is the most comprehensive ED dataset available, its sampling strategy is limited to hospital-based EDs, thereby excluding freestanding EDs which may increase ED spending within healthcare markets [47] . Further, this analysis relies on a dataset that linked a randomly selected 50% sample of the available NEDS data to DEX health categories. Though efforts were made to account for this 50% sampling with survey weights in that prior analysis, and we demonstrate balance in observed characteristics and outcomes between the included versus excluded sample (see S1 Appendix), more data generally leads to more precise estimates. Because we were did not process the full NEDS dataset, we expect our estimates have larger uncertainty intervals. Additionally, NEDS is visit-based and not a patient-level analysis, thus we cannot isolate spending trends among high-utilizers, which have been the focus of many value-based initiatives [6] . Further, though established adjustments were made to accurately transform the facility-based charge variable to actual spending, these may be imperfect. For instance, NEDS data may not reliably attribute laboratory and radiology costs to certain ED codes, thereby biasing these ED estimates downward [48] . Also, the scope of this analysis was focused on ED spending, which fails to capture the downstream inpatient or ambulatory costs that are influenced heavily by ED providers [1] . Lastly, the disposition analysis showed that the majority of ED spending is attributable to what is known to be the majority population treated in the ED (those who are treated and released versus the relatively smaller proportion of patients that are admitted to the hospital through the ED). However, this analysis was limited in that it could not specifically account for volume due to how these data were processed. Future work that can isolate the specific ED costs generated per visit based on whether someone was discharged or admitted to the hospital through the ED is needed. ED spending is both sizable and growing in the U.S. in spite of policy interest to curb these trends. Though the ED accounts for only a fraction of national health spending, its growth relative to other sectors suggests the importance of delineating where these dollars have been allocated over time. Focusing on health conditions where the greatest absolute and relative changes in ED spending are occurring, even after accounting for increases in visits, can inform future value-based initiatives within the ED to ensure optimal care for the millions of patients it serves. Further, as ED volumes continue to fluctuate throughout the ongoing COVID-19 pandemic, it will be important for future work to assess this dynamic trend of ED spending. (DOCX) The Evolving Role of Emergency Departments in the United States Emergency Care: Then, Now, And Next Measuring the Value of the Emergency Department From the Patient's Perspective Setting Value-Based Payment Goals-HHS Efforts to Improve U.S. Health Care Time to Focus on Improving Emergency Department Value Rather Than Discouraging Emergency Department Visits Reducing High-Users' Visits to the Emergency Department by a Primary Care Intervention for the Uninsured: A Retrospective Study Potentially Avoidable Emergency Department Use: When Policy Expects Patients to be Physicians Emergency Physicians Should Put Choosing Wisely Recommendations Into Action Out-of-Network Emergency-Physician Bills-An Unwelcome Surprise Assessment of Out-of-Network Billing for Privately Insured Patients Receiving Care in In-Network Hospitals Surprise Medical Bills, the High Cost of Emergency Department Care, and the Effects on Patients Keeping Surprise Billing Out Of Coronavirus Treatment Owning the Cost of Emergency Medicine: Beyond 2% Emergency Care: Just 2%. In: American College of Emergency Physicians | News Room Costs of ED episodes of care in the United States National Health Care Expenses in the U.S. Civilian Noninstitutionalized Population US Spending on Personal Health Care and Public Health US Health Care Spending by Payer and Health Condition Healthcare Cost and Utilization Project (HCUP) Adjusting health spending for the presence of comorbidities: an application to United States national inpatient data Agency for Healthcare Research and Quality. Medical Expenditure Panel Survey National Health Expenditure Data Excess Cost of Emergency Department Visits for Nonurgent Care Urgent Care Centers and the Demand for Non-Emergent Emergency Department Visits Many Emergency Department Visits Could Be Managed At Urgent Care Centers And Retail Clinics Emergency department use and subsequent hospitalizations among members of a high-deductible health plan High-deductible insurance: two-year emergency department and hospital use Patient preference for emergency care: can and should it be changed? A National Study of Outpatient Health Care Providers' Effect on Emergency Department Visit Acuity and Likelihood of Hospitalization Are trends in billing for high-intensity emergency care explained by changes in services provided in the emergency department? An observational study among US Medicare beneficiaries Association Between Maternal Comorbidities and Emergency Department Use Among a National Sample of Commercially Insured Pregnant Women Understanding Frequent Emergency Department Use Among Primary Care Patients Emergency Room Services-Median and Mean Expenses per Person With Expense and Distribution of Expenses by Source of Payment: United States Emergency Department Out-of-Pocket Expenditures by Insurance The Uninsured and the ACA: A Primer-Key Facts about Health Insurance and the Uninsured amidst Changes to the Affordable Care Act One In Five Inpatient Emergency Department Cases May Lead To Surprise Bills Diagnosis and treatment of low back pain: a joint clinical practice guideline from the American College of Physicians and the American Pain Society Managing Nontraumatic Acute Back Pain Diagnostic testing and treatment of low back pain in United States emergency departments: a national perspective Trends in Hospital Emergency Department Visits by Age and Payer Factors Associated With Increases in US Health Care Spending Trends in Mortality for Medicare Beneficiaries Treated in the Emergency Department From American College of Emergency Physicians Impact of the COVID-19 Pandemic on Emergency Department Visits-United States Trends in Emergency Department Visits and Hospital Admissions in Health Care Systems in 5 States in the First Months of the COVID-19 Pandemic in the US Where Do Freestanding Emergency Departments Choose to Locate? A National Inventory and Geographic Analysis in Three States Emergency Department Profits Are Likely To Continue As The Affordable Care Act Expands Coverage The authors wish to thank all other members of the University of Washington's Institute for Health Metrics and Evaluation team who have provided technical support and guidance throughout the implementation of this project.