Abstract
Background: Unplanned visits to the emergency department after total joint arthroplasty are far more common than unplanned readmissions. Our objectives were to characterize the prevalence of presentation to an emergency department for any reason after total joint arthroplasty and to identify risk factors for such visits.
Methods: Using health administrative databases, we conducted a population-based retrospective cohort study of adults (19–89 yr of age) who received their first primary elective total hip arthroplasty (THA) or total knee arthroplasty (TKA) procedure for arthritis between April 2011 and March 2016 in Ontario. We made univariate comparisons between patients who presented to the emergency department within 30 days of surgery and those who did not in. We determined differences in use of health care services between groups by comparing the change in use in the year before and after surgery between patients who presented to the emergency department and those who did not. We developed logistic regression models for the occurrence of an emergency department visit using backward variable elimination.
Results: We identified 42 273 total hip recipients and 70 725 total knee recipients, of whom 5640 (13.3%) and 11 224 (15.9%), respectively, presented to the emergency department within 30 days of surgery. Fewer than 1% of these patients required admission, and nearly half (45%) went to a different institution from where they had their surgery. Among both THA and TKA recipients, patients who presented to the emergency department had a net increase in their median annual health care costs (THA: $501, TKA: $682), compared to a net decrease for the cohort as a whole. Factors associated with increased risk of an emergency visit included increased patient age, male sex, rural residence and various comorbidities. Predictive regression models showed poor discriminative ability for both THA (C-statistic 0.57) and TKA (C-statistic 0.58) recipients.
Interpretation: One in 7 patients presented to the emergency department within 30 days of THA or TKA. Some may conceivably have been managed remotely, and very few required readmission. There is a crucial need for strategies to minimize these events.
The recent shift toward a bundled payment for total joint arthroplasty has provided incentives for hospitals to reduce costs and minimize complications. A large priority has been on limiting hospital readmissions, which is one way that payers can also monitor the quality of care.1 However, hospital readmission after total joint arthroplasty is rare.2 A far less discussed but potentially more frequent event is an unplanned visit to an emergency department.
Recent studies suggest that the number of unplanned visits to the emergency department within 30 days of total joint arthroplasty is substantial and that such visits are expensive.3,4 However, these studies are mainly based on US data and did not identify emergency department visits to other centres, thereby potentially underestimating the problem. Each emergency department visit in Ontario costs about $400, excluding physician costs.5 However, despite being costly and resource intensive, emergency department visits may not result in readmission. Preventable emergency department visits, therefore, are an important target for potential cost savings.
A better understanding of factors associated with postoperative emergency department presentation may help identify patients who may benefit from special intervention. To this end, we examined a large diverse cohort of patients from Ontario undergoing primary total hip arthroplasty (THA) or total knee arthroplasty (TKA). Our objectives were to characterize the prevalence of 30-day emergency department presentation following joint replacement surgery and to identify characteristics associated with increased risk of presentation to the emergency department.
Methods
Setting and study sample
We defined a cohort of adults (19–89 yr of age) who received their first primary unilateral elective THA or TKA procedure for arthritis (degenerative or inflammatory) in Ontario between Apr. 1, 2011, and Mar. 31, 2016.6 We excluded patients with an acute length of stay greater than 7 days, as this was greater than the 95th percentile for length of stay for our cohort and likely represents a complex condition. We also excluded patients whose primary address was outside the province at the time of surgery (i.e., an out-of-province claim) and those who emigrated out of the province within a year of surgery. We identified every procedure included in the study through a combination of physician billing claims for a joint replacement and hospital admission records for the same procedure.
Data sources
We used hospital discharge abstracts from the Canadian Institute for Health Information Discharge Abstract Database and physician claims from the Ontario Health Insurance Plan. We identified patients using specific procedure and diagnostic codes from the International Statistical Classification of Diseases and Related Health Problems, 10th Revision, enhanced Canadian version and the Canadian Classification of Health Interventions (THA: 1VA53LAPN/1VA53LLPN/1VA53PNPN and R440/R553; TKA: 1VG53LAPN/1VG53LAPP and R441/R248).6 We accessed patient demographic characteristics via the Ontario Health Insurance Plan Registered Persons Database. 7–9 We identified emergency department visits for any reason from the National Ambulatory Care Reporting System database. Each record in the administrative databases was linked by a unique individual identification number to identify the totality of a patient’s interactions throughout the single-payer health care system during the study.
Outcomes
Our primary outcome was a visit to any emergency department in Ontario for any reason within 30 days following surgery. Secondary outcomes included determining whether the emergency department was affiliated with the institution that provided the surgery and the reason for the visit. We identified the latter using the diagnoses recorded by the emergency physician. We categorized the most responsible diagnosis into the following categories: wound issues, concerns about infection, acute pain, cardiovascular diagnoses (e.g., possible congestive heart failure), gastrointestinal diagnoses (e.g., constipation), possible thrombophlebitis, family-practice–sensitive conditions (e.g., lichen planus, urticaria), genitourinary disorders (e.g., painful micturition), preexisting medical issues (e.g., exacerbation of type 2 diabetes mellitus), reaction to medications (e.g., opioid overdose) and miscellaneous. 10 Family-practice–sensitive conditions are previously identified conditions for which visits to emergency departments are unnecessary because they have less than 1% chance of resulting in hospital admission and can be appropriately managed at a family physician’s office.10
Covariates
We considered several factors that potentially influence the risk of complications following joint replacement, including patient age, sex, socioeconomic status and comorbidities. Using preexisting algorithms that use physician billing codes and hospital admission codes, we identified patients with a history of asthma,11 coronary artery disease,12 congestive heart failure, diabetes,13 hypertension14 or chronic obstructive pulmonary disease15 (Appendix 1, available at www.cmajopen.ca/content/8/1/E26/suppl/DC1). We used physician billing codes to identify patients who had previously received counselling regarding smoking cessation (E079, K039, Q042A).
We categorized comorbidities listed on hospital discharge abstracts in the 3 years before the index total joint arthroplasty admission according to an adaptation of the Charlson Comorbidity Index.16,17 We used Adjusted Clinical Groups (ACGs) based on diagnosis codes from hospital admissions and physician visits in the 2 years before surgery to define “frail” patients (Johns Hopkins ACG System Version 10.0).18 Among THA recipients, we used physician billing codes to identify patients with a body mass index greater than 40; these codes are not available for TKA recipients.19
We included 2 validated measures of socioeconomic status: the neighbourhood income quintile and the Ontario Marginalization Index. Neighbourhood income quintiles categorize small geographic areas into 5 roughly equal population groups, with the lowest quintile being the least affluent neighbourhoods. 20,21 The Ontario Marginalization Index is an Ontario-specific version of the Canadian Marginalization Index. It has been shown to be stable across time periods and across different geographic areas.22 It comprises 4 elements: ethnic concentration, residential instability, dependency and deprivation.23 Each element is sorted into quintiles, arranged from least (first quintile) to most (fifth quintile) marginalized.
For each patient, we defined the corresponding surgeon volume as the number of joint-specific (hip or knee) arthroplasty procedures (both primary and revision) performed by the primary surgeon in the 365 days before the index procedure. We similarly defined hospital volume at the institutional level. We identified use of general anesthesia from the hospital record. We determined direct health care costs in the year before and after surgery using previously established methods for case costing in Ontario’s administrative databases.24
Statistical analysis
All analyses were stratified by the joint being replaced (hip or knee). We made univariate comparisons between patients who presented to the emergency department and those who did not. We then developed logistic regression models for the occurrence of an emergency department visit within 30 days of discharge. We used backward variable elimination to create a parsimonious regression model using the following candidate predictor variables: patient demographic characteristics (age, sex, income quintile, Ontario Marginalization Index, living in a rural area), comorbidities (Charlson Comorbidity Index score, frailty, asthma, chronic obstructive pulmonary disease, coronary artery disease, congestive heart failure, receiving counselling about smoking cessation, diabetes, hypertension, morbid obesity [THA only]) and provider characteristics (hospital volume, surgeon volume).25 The type I error probability was set to 0.05 for all analyses.
Cost analysis
Arthroplasty has previously been established to result in an almost immediate reduction in annual use of health care services. 26,27 However, this potential saving may be offset by the costs of visiting the emergency department after surgery. To assess medical costs incurred by our cohort, we used data from the Ontario Ministry of Health and Long-Term Care28–34 to determine public medical costs in the year before and after admission for arthroplasty. We assigned costs to each patient based on the year when they were incurred and then standardized them to 2013 Canadian dollars using the health care component of the Ontario Consumer Price Index (www.statscan.gc.ca). We compared changes in annual use of health care services between groups using the differences-in-differences technique. To do so, we deducted costs in the year before surgery from the costs accrued in the year following the arthroplasty among patients who did not present to the emergency department (first difference). We then compared this difference to the same difference among patients who did present to the emergency department (second difference).24
Ethics approval
This study was completed with administrative data from ICES that included a waiver for institutional review board approval. Use of the data in this study was authorized under section 45 of Ontario’s Personal Health Information Protection Act.
Results
We identified 42 273 eligible THA and 70 725 eligible TKA recipients between Apr. 1, 2011, and Mar. 31, 2016, of whom 5640 (13.3%) and 11 224 (15.9%), respectively, had an emergency department visit within 30 days of surgery (Tables 1 and 2). Among patients who visited the emergency department, 3014 (53.4%) of THA recipients and 6263 (55.8%) TKA recipients presented at the same hospital where they had their surgery. Among both THA and TKA recipients, patients who presented to the emergency department had a net increase in their median annual health care costs (THA: $501; TKA: $682), compared to a net decrease in the cohort as a whole. The readmission rate for patients who presented to an emergency department was 1.0% and 0.6% in the THA and TKA cohorts, respectively.
Types of emergency
We found 588 and 751 unique diagnoses among THA and TKA recipients, respectively. Concerns over the surgical wound, possible infection and acute pain constituted the majority of diagnoses for both groups (Table 3).
Multivariable models for emergency visits
Among THA recipients, the multivariable model consisted of patient age (> 70 yr), male sex, rural residence and specific comorbidities (chronic obstructive pulmonary disease, obesity, hypertension) (Table 4). The C-statistic was 0.571 for this model.
Among TKA recipients, the multivariable model consisted of patient age (< 50 yr or > 70 yr), male sex, rural residence, lowest neighbourhood income quintile and specific comorbidities (chronic obstructive pulmonary disease, congestive heart failure, asthma, complicated diabetes) (Table 4). The C-statistic for this model was 0.578.
Interpretation
In a large cohort of patients who underwent joint replacement in Ontario, we found that 1 in 7 presented to the emergency department within 30 days of surgery. The most common reasons were wound issues, concerns about infection and acute pain. Fewer than 1% of patients required admission. Almost half (about 45%) presented to a different institution from where their surgery was done. Factors associated with increased risk for an emergency department visit included patient age, male sex, rural residence and various comorbidities.
Although the rate of presentation to the emergency department was high, most patients could be managed as outpatients. This suggests the need to educate patients on the normal course of pain and wound appearance after total joint arthroplasty. However, reduced hospital lengths of stay may lead to fewer opportunities for this education. Many hospitals provide patients with teaching preoperatively and also provide written materials detailing the normal postoperative course. However, our results suggest that more education is needed. Another option that could be used is electronic communication after discharge, including the ability to send pictures of the surgical wound to the primary surgeon, although this would need to be implemented in a manner that safeguards patient privacy.35,36
Emergency department visits often result in unnecessary testing (e.g., ultrasonography to rule out deep vein thrombosis) or unnecessary treatment (e.g., oral antibiotic therapy for possible infection). Unnecessary investigations and treatments not only expose patients to additional risk (e.g., use of antibiotics), but are also costly.37 Although most arthroplasty recipients showed a net decrease in annual health care costs after their surgery, patients who presented to the emergency department had a net increase in costs, despite the lack of readmission or additional surgery for most.
The strongest predictor of an emergency visit in both cohorts was rural residence. Patients who live outside cities have fewer local options for urgent issues. Patients typically live far away from the hospital where they receive their surgery and may not have ready access to their surgeon. Furthermore, they may not always have timely access to primary care and may choose the emergency department for a last-minute assessment or reassurance. The needs of these patients might be potentially addressed with the implementation of a remote counselling system.
We found that most emergency department visits were related to pain or wound problems, consistent with the findings of studies in other regions.38,39 A recent survey showed that almost half of adults in Ontario reported going to the emergency department for a condition they thought could have been treated by a primary care provider.40 These non-emergent visits to emergency departments are an important contributor to long emergency department wait times.40 In 2015, the average length of an emergency department visit in urban areas in Ontario was over 8 hours.40 Given that more than 25 000 hip and knee replacement operations are performed in Ontario alone each year, the impact of an emergency department presentation rate of 15% following joint replacement is considerable. A concerted effort to identify patients at increased risk, coupled with an intervention to minimize this rate, could have a substantial effect on emergency department wait times, possibly resulting in an improvement in patient care and a reduction in burnout for emergency department health care providers.
We were able to identify only modest predictors for an emergency department visit because our models had an area under the curve of about 0.57. This indicates that our models are only slightly better than chance at predicting emergency department visits. This is likely a shortfall from administrative data since our analysis is missing information on level of support at home and other relevant factors. We are currently conceptualizing future research that will use patient-level data, including qualitative interviews with patients, about their experiences after discharge following total joint arthroplasty to better understand the reasons for subsequent emergency visits.
Limitations
This study has several limitations. These pertain mainly to data that are unavailable in the administrative databases used to conduct the study, including patient body mass index, smoking status, alcohol use and level of support of home, all of which may affect the risk of early complications and presentation to the emergency department. We attempted to mitigate this limitation by measuring neighbourhood income quintile and marginalization indices, characteristics that correlate with the prevalence of alcohol abuse and obesity.41–46 In addition, as we relied primarily on diagnosis codes to identify the reasons for presenting to the emergency department, we did not have the data clarity to understand why patients visit an emergency department or to identify all predictive factors accurately. Finally, we did not have the time of the emergency department visit available — this variable is likely related to the availability of other care resources.
Conclusion
About 1 in 7 patients in Ontario presented to an emergency department within 30 days of primary hip or knee replacement, with almost half presenting at an institution different from where they had their surgery. Most of the reasons for presentation were related to the surgical wound and pain. Fewer than 1% of patients who presented to an emergency department required readmission, and the reasons for presentation were those that can conceivably be managed remotely. Future studies should explore more specific data that may be associated with emergency department presentation and characterize patients’ reasons for presenting to the emergency department.
Footnotes
Competing interests: None declared.
This article has been peer reviewed.
Contributors: Bheeshma Ravi and Donald Redelmeier interpreted the data and revised the manuscript critically for important intellectual content. All of the authors contributed to the study conception and design, analyzed the data, drafted the manuscript, approved the final version to be published and agreed to be accountable for all aspects of the work.
Funding: This study was supported by a grant from the Canadian Institutes of Health Research and by ICES, a nonprofit research institute funded by the Ontario Ministry of Health and Long-Term Care. Peter Austin is supported in part by a Mid-Career Investigator Award from the Heart and Stroke Foundation.
Disclaimer: Parts of this material are based on data and information compiled and provided by the Canadian Institute for Health Information. The opinions, results and conclusions reported in this paper are those of the authors and are independent from the data providers and funding sources. No endorsement by the Canadian Institutes of Health Research, ICES or the Ontario Ministry of Health and Long-Term Care is intended or should be inferred.
Supplemental information: For reviewer comments and the original submission of this manuscript, please see www.cmajopen.ca/content/8/1/E26/suppl/DC1.
References
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