Pharmacists’ roles in transitions of care continue to evolve. Evaluation of pharmacist-led interventions as patients transition from emergency department to home is needed.
ABSTRACT
Objectives: To determine the impact of a pharmacist-led telephone outreach program among patients discharged from the emergency department (ED) to home.
Study Design: We conducted a randomized controlled study from February to November 2019 at a tertiary care academic medical center.
Methods: At ED discharge, participants were randomly assigned to usual care (controls) or usual care plus the pharmacist’s review (intervention group). Eligible individuals included those being discharged from the ED to home with 8 or more medications. A pharmacist telephoned patients in the intervention group within 48 to 96 hours after ED discharge. The medications in the patient’s record from the ED were compared with what the patient was taking at home. Discrepancies were communicated to the primary provider via fax or telephone. The primary outcome was overall health care utilization including unplanned hospital readmissions or ED visits within 30 days of discharge. The effect of the intervention on the number of acute events was analyzed using a Poisson regression model adjusting for relevant baseline characteristics.
Results: Of 90 eligible participants, 45 patients each were in the intervention and control groups. A total of 26 patients (58%) in the intervention group were reached, and 56 interventions were provided by the pharmacists. There was no significant difference between groups for overall health care utilization (adjusted risk ratio [aRR], 1.01; 95% CI, 0.50-2.06; P = .96), hospitalizations (aRR, 0.20; 95% CI, 0.02-2.18; P = .19), and ED visits (aRR, 1.24; 95% CI, 0.56-2.79; P = .59).
Conclusions: A pharmacist-led telephone outreach program conducted after ED discharge was not associated with a change in health care utilization.
Am J Manag Care. 2023;29(12):715-719. https://doi.org/10.37765/ajmc.2023.89473
Takeaway Points
In this analysis of pharmacist-led telephone interventions as patients transition from emergency department to home, a clear benefit on unplanned hospital utilization was not identified.
When patients transition between care settings, they are at an increased risk of adverse drug events (ADEs) and unplanned readmissions, which can result in an annual estimated cost of more than $26 billion.1 Studies have shown that ADEs are a significant contributor to emergency department (ED) visits to manage complications following a transition of care (TOC).2-4 Studies of consecutive discharges have found that nearly 20% of patients experience ADEs within 45 days of hospital discharge and 66% of complications occurring within 3 weeks of discharge were from ADEs.5,6 As a result, hospitals, health systems, and payers have become increasingly interested in implementing various TOC programs aimed at reducing readmissions and overall health care utilization.
Pharmacists play a key role in the TOC as part of an interprofessional health care team. A meta-analysis demonstrated that pharmacy-led medication reconciliation interventions were an effective strategy to reduce medication discrepancies.7 A recent systematic review on pharmacists’ impact on the TOC highlighted the crucial role that pharmacists play in promoting medication adherence and providing effective medication reconciliation.8 However, the review did not identify any one intervention to be the most effective in improving care transitions. Pharmacist involvement within care transitions is common for hospitalized patients being discharged or in ambulatory care settings following discharge.8-10 Despite the potential benefits that pharmacists provide at care transitions, there are few reported pharmacist transition interventions occurring in the ED.
The ED plays a significant role in delivering health care services and providing care in medically underserved areas.11,12 Pharmacists could contribute to ED transitions by assessing medication reconciliation, ensuring medication access at discharge, and reviewing for contraindicated medications.13 Hohner et al reported a clinical pharmacist TOC program between the ED and ambulatory care pharmacists.14 This program provided patient-specific comprehensive medication review and education in the ED setting and ensured coordinated transition to the ambulatory care setting. Hohner and colleagues recruited 18 individuals, and a pharmacist followed up with 5 of them on average 16 days after ED discharge. The implementation of this pharmacist-led TOC program demonstrated a potential approach to facilitate the transition of high-risk patients to outpatient care.14 Pearson et al described a pharmacist-led care transition intervention targeting high-risk older adults after an ED visit.15 This retrospective pilot study included a telephonic outreach and assessment by a clinical pharmacist. No differences were found in the primary outcomes of ED visit, hospitalization, or death within 30 days after ED discharge.15 Additional evidence is required to demonstrate that pharmacist TOC interventions in the ED can improve medication management and reduce health care utilization.
A pharmacist-led telephone callback program following ED care has the potential to improve medication adherence and potentially reduce unneeded ED visits and hospital admissions. However, the literature on pharmacist-led ED transition programs is sparse, and both reported studies are observational. Therefore, the objective of this study was to evaluate the impact of a pharmacist-led telephone outreach program among patients recently discharged from the ED.
METHODS
Trial Design and Participants
The study was a 1:1, prospective randomized controlled trial conducted from February to November 2019 at Erie County Medical Center (ECMC) and approved by the University at Buffalo Institutional Review Board. The study followed the Consolidated Standards of Reporting Trials (CONSORT) 2010 statement and CONSORT-Outcomes 2022 extension.16 Patients were recruited from ECMC’s treatment area, and those taking 8 or more medications were approached to participate in the study. Inclusion and exclusion criteria for this study are summarized in eAppendix Table 1 in eAppendix A (eAppendices available at ajmc.com).17,18
Intervention Description and Sample Size Calculation
The intervention group received usual care and a pharmacist intervention via telephone 48 to 96 hours after ED discharge, whereas the control group received usual care only. Full descriptions of study procedures and interventions are documented in eAppendix B.
We aimed to screen all patients who had an ED visit for potential inclusion. For our primary analysis, we employed a 2-sided α level of .05 and aimed for a power of 80%. The control group was expected to have a 30-day unplanned hospital utilization probability ranging from 25% to 40% based on previous literature.19-21 With the assumption that our intervention would result in a minimum reduction of 20% in unplanned hospital utilization, we calculated a sample size requirement of 94 patients. Accounting for an estimated 20% loss to follow-up, the adjusted sample size would be 112 patients (56 in the intervention group and 56 in the control group).
Outcomes and Covariates
The primary outcome was to evaluate the effectiveness of the pharmacist intervention in reducing unplanned hospital utilization within 30 days of ED discharge. The unplanned hospital utilization was defined as a composite of unexpected ED visits and/or hospital admissions. The study collected demographic and clinical variables during the interview, including knowledge of taking medications, adherence to the medications, barriers of access to medications, and confirmed follow-up appointments with the primary care provider. Full descriptions are available in eAppendix B.
Statistical Analyses
Outcome measures were evaluated at the patient level between the intervention and control groups. Categorical variables were reported as percentages and compared using the χ2 test; continuous variables were reported as medians (IQRs) and compared using the Mann-Whitney U test.
To assess differences between groups in the incidence rate of unplanned hospital utilization, a 2-rate χ2 was initially used, followed by separate assessments of hospitalizations and ED visits. Poisson regression analysis was employed to evaluate the difference in health care utilization count between groups, with adjustment for age, gender, race, number of comorbidities, and medications. Main analysis and secondary analysis were performed to comprehensively evaluate the outcomes. Main analysis included all enrolled samples from the intervention and control groups after exclusion criteria were applied. In our secondary analysis, we excluded patients in the intervention group who were not successfully contacted by pharmacists. The analysis was performed using SAS 9.4 (SAS Institute). All hypothesis testing was 2-sided with a significance level set at P < .05.
RESULTS
A total of 120 participants were initially enrolled in the study. Of these, 30 were subsequently eliminated as ineligible (Figure). The final study sample consisted of 90 participants (29 men and 52 women) with a mean (SD) age of 58.2 (12.1) years. These individuals were randomly assigned to either the intervention or control group, with 45 patients in each group. However, only 57.8% of the intervention group were successfully contacted by a pharmacist.
eAppendix Table 2 in eAppendix F shows that there were no significant differences in age, gender, or race between the 2 groups but the intervention group had more comorbidities and medications. The top 3 comorbidities were hypertension (n = 14), hyperlipidemia (n = 11), and diabetes (n = 7). During telephone interviews, 56 interventions were provided, with the most frequent being general counseling and monitoring (n = 13) (eAppendix Table 3 in eAppendix F). Medication discrepancies (n = 68) were also identified, with 33 (48.5%) discrepancies relating to the number of medications reported at home and 35 (51.5%) relating to dosage or regimen. On average, the pharmacist spent a total of 62.5 minutes per case. This included 21.3 minutes reviewing the patient’s record before making the call, 16.2 minutes conducting the interview, and 25 minutes documenting the call.
The incidence rate of unplanned hospital utilization within 30 days from the main analysis did not show a statistically significant difference between the intervention and control groups (P = .61) (Table). There was also no significant difference in the rates of unexpected ED visits (P = .34) and hospitalizations (P = .45). In main analysis, the adjusted Poisson regression models did not demonstrate significant changes in overall unplanned hospital utilizations (adjusted risk ratio [aRR], 1.01; 95% CI, 0.50-2.06; P = .96), ED visits (aRR, 1.24; 95% CI, 0.56-2.79; P = .59), or hospitalizations (aRR, 0.20; 95% CI, 0.02-2.18; P = .19) between the intervention and control groups (Table). The secondary analysis also showed similar findings.
DISCUSSION
In this trial, a pharmacist-led telephone outreach program following ED discharge was not associated with a change in 30-day ED revisits or hospitalizations. Pharmacists were able to follow up with 26 patients after ED discharge and perform a medication reconciliation interview with the patient or caregiver. This led to numerous interventions related to medication list discrepancies at discharge, medication access issues, and counseling on appropriate medication administration for high-risk drugs such as insulin. In some instances, the pharmacists followed up directly with the patient’s primary care provider because they deemed the identified medication-related problems time sensitive. These recommendations provided by pharmacists are viewed as a study strength and support the value of a pharmacy-led outreach program after ED discharge.
Return visits to the ED and hospital are costly for health systems, and the ED discharge process is typically a high-stress encounter for patients. Medication-related problems including adverse events, medication access, and incorrect medication lists are common following ED discharge.22,23 Implementation of a pharmacy telephone outreach program after discharge is an innovative approach toward reducing medication-related problems. This is the first randomized controlled trial to evaluate a pharmacist-led outreach program after ED discharge, and we were able to successfully implement the program within a medically underserved area. Numerous medication interventions were completed, yet we found no statistical differences in return ED visits or hospitalizations. Two previous studies evaluated similar pharmacist-led interventions and found no significant differences in 30- or 90-day repeat ED visits or hospitalizations.14,15 Post–ED discharge outreach or callback programs are receiving broad attention across the United States, as this period represents an opportunity to improve care and is used as a quality metric. However, most studies focus on physician or nurse outreach post discharge and are unable to demonstrate improvement in patient outcomes.24,25 The optimal location and time for medication reconciliation during a care transition has not been identified.8 Given the complexities at ED discharge, it will be a priority to further explore pharmacist-led interventions either within the ED or directly after discharge.
The pharmacist interview led to numerous medication-related interventions, which support the value provided by the program. Currently, there is a lack of economic data to support pharmacist-led care transition programs and the value provided to the health care system. Although we did not perform a formal economic analysis, the estimated pharmacist costs based on current salary data26 were approximately $38 per patient, with an overall cost of $1724. As health care shifts toward value-based payment systems, there will be opportunities for pharmacists to provide transition interventions within different parts of the care continuum. Although most pharmacist-led care transition interventions occur within the hospital, care transition pharmacists and interventions are expanding into primary care, community, and long-term care settings.8,27-29 Despite pharmacist role expansion into the TOC process, there is still insufficient evidence to determine the most effective pharmacist-led intervention for improving the continuity of care. Moving forward, studies should include both clinical and economic outcomes, with a priority on using rigorous study designs. This will provide best practices and identify pharmacist-led TOC services that improve care and are cost-effective.
One potential approach to enhance the outcomes of pharmacist-led intervention programs is through collaborative efforts among providers, patients, and pharmacists. For example, Taber et al developed and implemented a mobile app and web portal to consolidate patient-level data.30 This system aimed to monitor the occurrence and severity of medication errors in kidney transplant recipients.30,31 By using this technology, pharmacists could receive automatic notifications through the app from patients regarding medication changes. They could then take necessary actions, such as scheduling televisits with patients or contacting physicians for recommendations to prevent medication errors. A report showed that the participants who received this intervention demonstrated a significant reduction in medication errors (incident risk ratio, 0.39; P < .001).32 In future studies, it is recommended to adopt a similar automated workflow to provide pharmacists with comprehensive patient-level data and enable the capture of a broader range of cases.
Limitations
There are several important limitations to consider when interpreting the findings of our study. First, our data analysis was based solely on information obtained from ED discharge summaries and charts. This limited our ability to access vital patient information, such as living situations, previous ED visits, and inpatient admissions. Although we were able to determine patient insurance status, we could not determine the specific plan or coverage, potentially affecting the validity of our results. Future studies should aim to collect more comprehensive patient data to ensure the accuracy of their findings. Second, our post-ED outreach call was primarily focused on medication, so other factors that could contribute to ED revisits and hospitalizations, such as communication between providers and patients or socioeconomic status, were not fully considered. This lack of information may limit the generalizability of our results, and future research should explore these aspects to validate our findings. Third, we excluded patients in the intervention group from the analysis who were readmitted prior to receiving an outreach call, which may have created a selection bias. Future studies should take this into consideration to minimize the potential for a selection bias. Fourth, our final sample was underpowered after exclusion criteria were applied, and we were able to contact only 58% of the patients in the intervention group, which could have introduced bias into our results. Future research with powered samples should be conducted to evaluate the effect of pharmacist-led TOC intervention programs. To improve contact and participation rates, future studies may need to explore alternative strategies, such as offering incentives or compensation to patients. Taken together, these limitations underscore the need for caution when interpreting our findings, and future research must address them to enhance the validity and generalizability of their results.
CONCLUSIONS
ED discharge poses significant difficulties for health care systems and can cause distress for patients. Despite this, our study found that implementing a pharmacist-led telephone outreach program after ED discharge did not result in a decrease in the number of ED revisits or hospitalizations within 30 days. Nevertheless, pharmacists were able to address medication-related problems such as incorrect medication lists and medication access issues. The effectiveness of pharmacist-led interventions during the TOC process after ED discharge requires further investigation.
Author Affiliations: School of Pharmacy and Pharmaceutical Sciences (TED, KJD, MPK, DMJ, CHL, JAP) and Department of Emergency Medicine, Jacobs School of Medicine and Biomedical Sciences (SP), University at Buffalo, The State University of New York, Buffalo, NY.
Source of Funding: This project was supported by the American Society of Health-System Pharmacists Research and Education Foundation New Investigator Award.
Author Disclosures: The authors report no relationship or financial interest with any entity that would pose a conflict of interest with the subject matter of this article.
Authorship Information: Concept and design (TED, KJD, MPK, DMJ, JAP); acquisition of data (KJD, MPK); analysis and interpretation of data (TED, KJD, MPK, DMJ, CHL, JAP); drafting of the manuscript (TED, KJD, MPK, DMJ, JAP); critical revision of the manuscript for important intellectual content (TED, KJD, MPK, CHL, SP, JAP); statistical analysis (DMJ, CHL); provision of patients or study materials (TED, KJD, SP); obtaining funding (TED, MPK); administrative, technical, or logistic support (TED, MPK, SP); and supervision (TED, MPK, JAP).
Address Correspondence to: Chi-Hua Lu, PharmD, School of Pharmacy and Pharmaceutical Sciences, University at Buffalo, The State University of New York, 3435 Main St, 344 Abbott Hall, Buffalo, NY 14214. Email: chihualu@buffalo.edu. ORCID: 0000-0001-9647-4363.
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