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Article

Emergency Department Alternatives to Opioids: Adapting and Implementing Proven Therapies in Practice

1
Department of Public Health Sciences, Clemson University, Clemson, SC 29631, USA
2
Department of Emergency Medicine, Prisma Health-Upstate, Greenville, SC 29605, USA
3
Division of Pain Management, Prisma Health-Upstate, Greenville, SC 29605, USA
4
Integrated Health Partners, Greenville, SC 29609, USA
*
Author to whom correspondence should be addressed.
Int. J. Environ. Res. Public Health 2023, 20(2), 1206; https://doi.org/10.3390/ijerph20021206
Submission received: 5 December 2022 / Revised: 3 January 2023 / Accepted: 4 January 2023 / Published: 10 January 2023
(This article belongs to the Special Issue Evidence-Based Evaluation of Opioid Prescribing Practices)

Abstract

:
The use of opioids to treat pain can increase the risk of long-term opioid dependency and is associated with negative patient outcomes. The objective of this study was to present the initial results following the implementation of Emergency-Department Alternatives to Opioids (ED-ALTO), a program that encourages the use of non-narcotic medications and procedures to treat pain in the Emergency Department (ED). We used a pre- and post-implementation study design to compare in-ED opioid utilization, as well as ED-ALTO medication and procedure use in the year before and after the program’s implementation. After ED-ALTO’s implementation, there was a decrease in opioid utilization in the ED and an increase in ED-ALTO medication use. Additionally, there was an increase in ED-ALTO procedure utilization and the complexity of conditions treated with ED-ALTO procedures, including the use of regional nerve blocks for shoulder dislocations and hip and rib fractures. In 8 of the 12 months following ED-ALTO’s implementation, a lower proportion of patients receiving ED-ALTO procedures received an opioid, and the opioid dosage was lower compared to patients with the same diagnoses who received standard care. The continued expansion of ED-ALTO programs across the US may serve as a mechanism to reduce opioid utilization and safely and successfully treat pain in ED settings.

1. Introduction

Pain is one of the most common reasons patients seek emergency medical care; accordingly, pain-related complaints account for up to 42% of all Emergency Department (ED) visits in the United States [1,2]. In order to function in a fast-paced clinical environment, ED physicians utilize opioids for one out of every three patients cared for in the ED, with the aim of quickly and effectively treating a patient’s pain [1]. However, the use of opioids to treat pain can increase the risk of long-term dependency [3] and carries negative risks to a patient’s overall health and long-term outcomes [4,5]. Currently, in the United States, there are no regulations on the usage of opioids in acute clinical settings. As ED physicians strive to quickly manage patients’ pain-related complaints, alternative solutions for treating pain safely and effectively in the ED are needed [6].
Innovative programs that encourage the use of non-narcotic medications and procedures to treat pain in the ED have recently been evaluated [7,8,9,10,11]. These programs, collectively known as Emergency-Department Alternatives to Opioids (ED-ALTO) programs, have shown initial promise with respect to reductions in opioid use [7,8], effective pain control, and patient satisfaction [7,8,9]. The early ED-ALTO programs primarily focused on the adoption of non-narcotic pharmacologic therapies to treat pain [7,8,9]. However, the additional adoption of proven procedures from other medical specialties to treat pain in the ED setting offers great potential regarding the treatment of high-frequency, low-acuity pain complaints. For example, nerve blocks can serve as important opioid-free adjunct therapies within ED-ALTO regimes. The use of femoral and fascia iliaca nerve blocks have been associated with significant reductions in the use of intramuscular and intravenous opioids in the ED [12,13], and the use of suprascapular nerve blocks for shoulder reduction have shown a decrease in pain and time spent in the ED [14]. The use of erector spinae blocks in the ED have also demonstrated efficacy in reducing pain complaints in patients suffering from rib fractures [15]. In addition, studies suggest that trigger point injections [16,17,18], acupuncture [19], and electrical nerve stimulation [20,21] can effectively treat musculoskeletal pain, highlighting the potential of these therapies in terms of providing pain control for patients visiting the ED.
While several published studies have demonstrated success through the use of ED-ALTO programs, no studies have evaluated ED-ALTO programs utilizing a combination of both medication- and procedure-based approaches to the treatment of pain. The objective of this study is to present the initial results of the implementation of a multi-faceted ED-ALTO program at a Level I Trauma Center ED located in the Southeastern US that utilizes alternative medication- and procedure-based approaches to manage pain in the ED. This program includes systematic training to create a culture of change within our ED and create sustainable, opioid-free treatment options to help treat various pain complaints commonly cared for in the ED.

2. Materials and Methods

2.1. Study Design and Setting

The ED-ALTO study was implemented on 1 August 2021, within a large, Level 1 Trauma Center in South Carolina in the Southeastern part of the United States. This research implemented a pre- and post-implementation study design comparing in-ED opioid utilization as well as ED-ALTO medication and procedure use. Data collection took place 12 months before the intervention and 12 months following implementation to reduce seasonal variability. The primary study location’s ED is a regional tertiary care referral center for the largest health system in the state. The ED sees approximately 100,000 adult patients a year and contains a three-year emergency medicine residency program with thirty residents. This study was approved by the Prisma Health-Upstate Institutional Review Board.

2.2. Study Eligibility and Enrollment

English-speaking adult patients presenting to the ED with pain-related conditions were eligible for ED-ALTO treatment. Our intervention targeted low-acuity pain conditions; therefore, patients with an Emergency Severity Index (ESI) below 3 were not eligible. The ESI is a triage tool that uses five levels from 1 (most urgent) to 5 (least urgent) to estimate the severity of illness and resource needs. Additionally, patients who were incarcerated or otherwise unable to provide informed consent to participate were excluded. Study personnel were on-site in the ED one day a week to identify and enroll eligible patients for ED-ALTO medication and procedure use. On enrollment days, study personnel monitored the ED track-board in real time for patients arriving with a pain complaint or were contacted by an ED physician for a patient consult within the electronic health record (EHR) system. If the patient was deemed eligible, the study coordinator would approach the patient to explain the study and ask for their consent to participate.

2.3. ED-ALTO Medications and Procedures

ED-ALTO therapies included the use of alternative medications and procedures to treat pain. A specific order set containing various medication choices based on a previous publication [8] was added to our hospital formularies under an “ALTO Study ED Pain Management” label within the EHR. This order set is categorized by types and areas of pain complaints, namely, headache/migraine, musculoskeletal, renal, abdominal, and extremity fracture/joint dislocation. Medication options are further delineated into first-line, second-line, and alternative options if applicable (see Appendix A, Table A1). ED-ALTO procedures included nerve blocks, trigger point injections, transcutaneous electrical nerve stimulation (TENS), and acupuncture. Acupuncture was offered alone or in conjunction with TENS or Percutaneous Electrical Nerve Stimulation (PENS). Three primary nerve blocks and one secondary nerve block were identified as applicable in the emergency setting to help treat pain from shoulder dislocations, hip fractures, and rib fractures. These included suprascapular, fascia iliaca, and erector spinae plane nerve blocks as primary blocks, as well as an axillary nerve block that pairs with the suprascapular block for shoulder anesthesia.

2.4. ED-ALTO Training and Education

Physicians’ education with respect to ED-ALTO medications and procedures was provided through multiple channels, including (1) direct bedside training, (2) live lectures/simulation education, and (3) asynchronous recoded video lectures, simulation sessions, and reading materials. Direct bedside training was provided on our scheduled “Opioid-free days”, which occurred one day a week. The goal of “Opioid-free days” was to encourage the use of ED-ALTO therapies on these days and reduce opioid prescription. On “Opioid-free days”, direct bedside support, training, and education was provided by two physicians: the Division Head of Anesthesia and Pain Management for the health system (K.W.) and a local practitioner of Acupuncture and Oriental Medicine (W.H.). On the “Opioid-free days”, these physicians were available from 10 a.m.–6 p.m. to provide direct procedural support and bedside training to the attending ED physicians, resident physicians, physician assistants, and nurse practitioners performing ED-ALTO procedures for patients.

2.5. Measurement and Statistical Analysis

Data were collected for 12 months pre-implementation from 1 August 2020, to 30 July 2021, and for the same 12-month period after implementation, which was from 1 August 2021, to 30 July 2022. Data were provided from the EHR, Epic® (EPIC Systems, Madison, WI, USA), and included patient demographics, use of ED-ALTO medications, procedures, and opioid utilization. Encounter-level data elements included date of service, principal visit diagnosis, age, payer status, disposition, and patient sex. T-tests and Chi-square tests were performed to assess differences in the pre- and post-implementation samples as well as the utilization of opioids and ED-ALTO medications. Statistical significance was set at p < 0.05. The frequency of ED-ALTO procedure use was reported by diagnoses groups for the pre- and post-implementation periods.
We conducted a matched analysis in the post-intervention period. We found all diagnoses codes for patients receiving ED-ALTO procedures and matched them to patients with the same diagnoses that did not receive ED-ALTO procedures and received standard care (see Appendix A, Table A2). In the matched groups, we described and compared opioid prescription rates and morphine milligram equivalents (MME). All statistical analysis was performed using SAS version 9.4 (SAS Institute Inc., Cary, NC, USA).

3. Results

3.1. Characteristics of the ED Population

The patients presenting to the ED in the pre- and post-implementation periods were not meaningfully different. On average, the patients presenting to the ED were 51 years of age and 50% were female. The majority of patients were White (62%) or Black (27%), and 50% were publicly insured, followed by 26% of the sample that had private health insurance. In the post-implementation period, a slightly higher proportion of patients had public insurance (51.4% vs. 49.6%; p < 0.01) and a lower proportion were admitted to the hospital directly following their ED visit (20.5% vs. 22.0%; p < 0.01). In general, the ED patient population appeared similar in the pre- and post-implementation periods. Table 1 contains a detailed comparison of select patient characteristics across time periods.

3.2. ED-ALTO Medication and Opioid Utilization

Table 2 displays ED-ALTO medication and opioid utilization in the pre- and post-implementation periods. The utilization of ED-ALTO medications significantly increased from the pre- to post-implementation periods, with 33.6% of patients in the ED receiving ED-ALTO medication prior to implementation and 34.5% of patients in the ED receiving ED-ALTO medication after the program’s implementation (p < 0.01). The overall utilization of opioids decreased in the post-implementation period from 17.7% to 16.5% (p < 0.01), with significant reductions in the use of Dilaudid (2.7% to 1.6%; p < 0.01) and Hydrocodone (3.3% to 2.9%; p < 0.01). Among the patients receiving opioids, the average MME received increased in the post-implementation period (20.3 MME to 21.3 MME; p < 0.01).

3.3. ED-ALTO Procedure Utilization

In the pre-implementation period, a total of 98 ED-ALTO procedures were performed. After implementation, the total frequency of ED-ALTO procedures performed was 167. Prior to the ED-ALTO program’s implementation, neither acupuncture nor electrostimulation, either through TENS or PENS, had ever been utilized in this ED. After implementation, acupuncture was used to treat joint pain, lower back pain, and abdominal pain. Similarly, the use of trigger point injection was increased in the post-implementation period and its use was also extended outside of the treatment of headaches to include abdominal and back pain.
The use of nerve blocks saw an expansion in both overall frequency and clinical condition complexity, with an expanded use of the more complex regional nerve blocks. In the pre-intervention phase, digital nerve blocks were the primary nerve blocks used. These are commonly used for injuries of the hand, wrist, or fingers. Suprascapular, axillary, fascia iliaca, and erector spinae plane regional nerve blocks were all introduced as part of this program and used in the post-implementation period to treat fractures of the femur/hip and ribs as well as shoulder dislocations. Table 3 displays the ED-ALTO alternative procedure utilization in the pre- and post-implementation periods presented according to the diagnoses treated.

3.4. Opioid Utilization for Patients Recieving ED-ALTO Procedures

Compared to the patients with the same diagnoses who received standard care, in 8 of the 12 months following ED-ALTO’s implementation, a lower proportion of patients receiving ED-ALTO procedures received an opioid in the ED (Figure 1). In months 2, 3, 10, and 12, a marked reduction in the proportion of patients receiving an opioid was observed for the patients receiving an ED-ALTO procedure.
Similarly, compared to the patients with the same diagnoses who received standard care, the patients who received an ED-ALTO procedure had lower average opioid MME in 8 of the 12 months after the study’s implementation (Figure 2).

4. Discussion

Our results reflect the first-year results from the implementation of a multi-faceted ED-ALTO program carried out in the Southeastern United States. Our ED-ALTO program includes expanded interventions including both medications and procedure-based approaches to treating pain in the ED. Following implementation, we demonstrated an overall ED-level decrease in opioid utilization with a concomitant increase in the use of ED-ALTO medications and procedures. Among the patients receiving ED-ALTO procedures, in 8 of the 12 months following the program’s implementation, opioid utilization and dosage was lower compared to patients with similar conditions receiving standard care.
The ED-ALTO programs initiated within other institutions in the United States have focused on medication-based changes to the treatment of pain [7,8,9,10,11]. Given that most of the medications were not novel with respect to ED care prior to this intervention, we did not anticipate a large increase in ED-ALTO medication use, yet our results do show a small overall increase in medication utilization. Instead, our emphasis was primarily on providers’ training and uptake of novel procedures to treat pain. We extended the use of ED-ALTO procedures that had never been previously used in the ED setting and expanded the range of conditions that could be treated by ED-ALTO procedures in the ED. Although there was variability, we saw a trend for lower overall opioid use and dosage among those patients receiving ED-ALTO procedures compared to similar patients treated with standard ED pain treatment regimens.
Our program encouraged providers to implement ED-ALTO alternatives as a first-line treatment for varied pain complaints. Providers were encouraged to start with ED-ALTO alternatives during the initial patient evaluation, which might have occurred while waiting for diagnostic imaging and reports. The majority of ED-ALTO interventions were applied for appropriate, expected diagnoses. However, the push to initiate the treatment of symptomatic pain, as opposed to a final diagnosis, did result in some cases in which final diagnoses might be considered inappropriate for alternative treatments. However, all interventions were applied in a timely manner without the delay of other care, including opioids when needed. In many cases, patients’ pain was successfully treated with ED-ALTO interventions that have a very low risk of complications.
We observed that among the patients receiving an opioid, the average MME increased in the post-implementation period. One potential explanation for this finding is that as an increased number of lower-acuity patients are treated with ED-ALTO procedures and medications, the remaining pool of patients presenting with pain will be comprised of patients with more severe conditions and injuries that require higher opioid dosage. Currently, the ED-ALTO protocols are focused on decreasing the widespread and often indiscriminate use of opiates in lower acuity patients (ESI 3-5). Higher-acuity patients were not eligible for this study. However, the success of ED-ALTO therapies for lower-acuity patients suggests that some of these approaches may be applicable to higher-acuity patient populations as well. In particular, nerve blocks, in the presence of dislocations and fractures, can provide targeted pain relief without the negative side effects associated with opiates.
Our ED-ALTO program includes multi-faceted training with which to create a culture of change within the ED and create sustainable, multi-modal, opioid-free treatment options to help treat various pain complaints commonly cared for in the ED. We adopted a model using “Opioid-free days”, in which bedside support was available from physicians with expertise in pain management and acupuncture. During those “opioid-free days”, we administered bedside training to available physicians. We believe a hands-on training approach is necessary for initiating a change in practice patterns and allowing ED physicians to feel comfortable performing new procedures.

Limitations

There are several limitations associated with this study. Due to the design of this study, it is possible that the statistically significant reduction in opioid utilization we observed after ED-ALTO’s implementation may be due to overall historical trends and the national focus on decreasing opioid use. Our current analysis cannot isolate the effect of our ED-ALTO intervention on opioid practices. Although, we did find an increase in the frequency of ED-ALTO procedures and medication use, which cannot be excluded as a potential factor related to the observed reduction in opioid use. Furthermore, Year 1 of this study occurred during the ongoing COVID-19 pandemic, which created unique challenges for ED research. The COVID-19 pandemic and patient surges often limited ED-ALTO enrollment and eligible patient populations, thus limiting our sample size in Year 1. Furthermore, the overall climate of lockdowns likely prevented certain injuries and exposures, which changed the typical care-seeking patterns and the patients visiting the ED. Additionally, it is possible that the Epic report data used for this analysis may include opioid utilization that was not dispensed in the ED. In Month 9 following ED-ALTO’s implementation, we found that there was one patient with very high opioid utilization. It was later identified that opiate orders were completed in the ED but originated from inpatient orders while a patient was awaiting transport to their final inpatient unit. Therefore, further analysis may reveal an even greater decrease in opioid utilization and MME levels in ED-ALTO-treated patients.
Finally, the unpredictable nature of the complaints presenting to the ED, the pace of care within the ED setting, and the broad ED-ALTO medication order set makes it difficult to attribute all the results regarding the patients receiving ED-ALTO medications to our study efforts. The development of the medication order set was designed to make the prescription of alternative medications more accessible. While it is our intent to increase the use of alternative medications and procedures to treat pain, much of the use of ED-ALTO medications occurred outside of consenting and enrolled patients.

5. Conclusions

The opioid crisis continues to be a significant problem in the US, and overdose deaths are on the rise. While pain is a major reason why patients seek care in the ED, it is unnecessary for the successful treatment of pain to be solely focused on the use of opioids, which have many negative side effects. The continued expansion of ED-ALTO programs across the US may serve as a mechanism with which to reduce opioid utilization and successfully help patients control pain. Although our program is in its early stages of implementation, we believe it is showing early success with respect to reducing opioid utilization. We have initiated patient follow-up surveys after ED discharge to assess pain scores for patients receiving ED-ALTO procedures and medications, and we hope to use these data in the future to highlight the effectiveness of ED-ALTO treatments for acute pain in the ED.

Author Contributions

Conceptualization, P.C.M., S.N., S.C.R., S.B.F., K.W. and W.H.; methodology, S.B.F., S.N. and S.G.; formal analysis, S.G. and S.B.F.; data curation, S.C.R. and S.N.; writing—original draft preparation, P.C.M., S.N., S.C.R., S.B.F., K.W. and W.H.; writing—review and editing, P.C.M., S.N., S.C.R., S.B.F., K.W. and W.H.; project administration, S.N., S.C.R. and P.C.M.; funding acquisition, P.C.M., S.B.F., K.W. and W.H. All authors have read and agreed to the published version of the manuscript.

Funding

This research was funded by the Substance Abuse and Mental Health Services Administration (SAMHSA), grant number 6H79TI083111-01M001.

Institutional Review Board Statement

The study was conducted in accordance with the Declaration of Helsinki and approved by the Institutional Review Board of Prisma Health-Upstate (protocol code Pro00110153 and date of approval: 23 April 2021).

Informed Consent Statement

Informed consent was obtained from all subjects involved in the study.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript; or in the decision to publish the results. Author (W.H.) is the owner of a private medical practice, Integrative Health Partners. He contributed opinions and expert guidance for the range of acupuncture services performed within the study. The medical practice affiliated with the author (W.H.) had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Abbreviations

ALTOAlternatives to Opiates
EDEmergency Department
EHRElectronic Health Record
ESIEstimated Severity Index
MMEMorphine Milligram Equivalents
PENSPercutaneous Electrical Nerve Stimulation
TENSTranscutaneous Electrical Nerve Stimulation

Appendix A

Table A1. List of ED-ALTO Medications and Procedures.
Table A1. List of ED-ALTO Medications and Procedures.
ED-ALTO MedicationsAcetaminophen
Bupivacaine
Capsaicin
Cyclobenzaprine
Ddavp 40 Mcg Intranasal
Dexamethasone
Dextrose
Diazepam
Dicyclomine
Diphenhydramine
Droperidol
Gabapentin
Haloperidol
Ibuprofen
Ketorolac
Lactated Ringers
Lidocaine 1%
Lidocaine 1.5 Mg/Kg Iv (Max 200 Mg)
Lidoderm Patch
Magnesium
Marcaine
Metoclopramide
Nitrous Oxide
Normal Saline
Prochlorperazine
Promethazine
Ropivacaine
Sumatriptan
Valproic Acid
ED-ALTO ProceduresAcupuncture
Acupuncture paired with PENS
Axillary Nerve Block (paired with Suprascapular)
Erector Spinae Nerve Block
Fascia Iliaca Nerve Block
Suprascapular Nerve Block
Trigger Point Injection
Table A2. Disease Label and Associated ICD-10 Codes.
Table A2. Disease Label and Associated ICD-10 Codes.
LabelCode
Type 2 diabetesE11.49
Alcohol Related disordersF10.920
HeadachePre: R51.9
Post: G44.201, G44.89, R51.9 (9)
Cerebrovascular aneurysmI67.1
Diseases of the mouth, teeth, and jawPre: K02.9 (3), K03.81, K04.7 (7), K08.89 (18), K13.79
Post: K01.1, K02.9 (4), K04.7 (11), K05.219, K08.409, K08.89 (17), K08.9
Other chronic painG89.29
Cellulitis and acute lymphangitisL03.011, L03.032
Nail DisordersL60.0
Chronic low back painPre: M52.6, M54.2 (2), M54.81 (2)
Post: M52.16, M53.9, M54.12 (3), M54.16, M54.2 (6), M54.40, M54.41, M54.42 (3), M54.50 (12), M54.6 (2), M54.81 (2), M54.9 (4)
Soft Tissue DisordersPre: M72.2, M79.2, M79.644, M79.672
Post: M75.22, M79.18, M79.2, M79.652
PriapismN48.30
Syncope and collapseR55
Jaw PainR68.84
Injury of the lower armS52.542A, S56.129A
Injury of the hand, wrist, or fingersPre: S61.209A, S60.351A, S60.352A, S61.012A, S61.111A, S61.209A, S61.210A (2), S61.212A, S61.213A, S61.219A, S61.253A, S61.309A, S61.322S, S62.522B, S62.524B, S62.609B, S62.639A, S62.646B, S63.259A, S64.40XA, S68.113A, S68.114A, S68.119A (2), S68.120A, S68.611A, S69.92XA
Post: S60.352A, S60.559A, S61.001A, S61.011A, S61.022A, S61.239A, S61.309A (2), S61.319A, S62.522B, S62.630B, S67.10XA, S68.113A, S68.119A, S68.626A, S68.629S, S69.90XA
Injury of the kneeS81.812A
Injury of the foot, ankle, or toe(s)Pre: S91.112A, S92.302A
Post: S82.852A, S91.109A
Injury (unspecified)T14.90XA (2)
Injury of the skull and facial bonesS02.5XXA, S05.42XA
Injury of the shoulder or upper armS42.214A, S43.005A, S43.015A, S46.811A, S46.912A
Injury of thoraxS29.012A (2), S29.019A
Fracture of rib(s)S22.42XA
Fracture of femurS72.001A, S72.002A (4), S72.141A, S72.22XA, S72.491A, S72.8X1A
PoisoningT39.311A
Pedestrian conveyance accidentV00-Y99W27
FallPre: W19.XXXA (2), W19.XXXS, W18.30XA
Post: W19.XXXD
AssaultY04.8XXA
Perpetrator of assaultY07.50
Contact with rodentW53.21XA
Sprain of thoracic spinal ligament(s).3XXA
Orthopedic aftercareZ47.89
Other specified health statueZ78.9
PolyneuropathyG62.9
Abdominal PainK85.20; K92.1; R10.9 (4)
Hip PainM25.551
Injury of neckS16.1XXA
Traffic accidentV87.7XXA
Carpel tunnel syndromeG56.02
Deep vein thrombosisI82.622
AsthmaJ45.901
Disorders of skinL98.499
Disorders of musclePre: M62.830 (4), M62.838 (3)
Post: M62.830 (5), M62.838 (4)
Disorders of boneM89.8X1
Disorders of jointsM25.511 (3), M25.512 (4), M25.551, M25.561
TrichomoniasisA59.9
Disorders of autonomic nervous systemG90.512

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Figure 1. Proportion of Patients Receiving an Opioid prescription in the ED According to ED-ALTO Procedure Status.
Figure 1. Proportion of Patients Receiving an Opioid prescription in the ED According to ED-ALTO Procedure Status.
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Figure 2. Average Opioid MME prescription by ED-ALTO Procedure Status.
Figure 2. Average Opioid MME prescription by ED-ALTO Procedure Status.
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Table 1. Characteristics of Patients who had Emergency Department Encounters in the Pre- and Post-implementation Period.
Table 1. Characteristics of Patients who had Emergency Department Encounters in the Pre- and Post-implementation Period.
Total Sample12 Months
Pre-Implementation
12 Months
Post-Implementation
p-Value
N = 157,457N = 78,962N = 78,495
Mean Age (SD)51.1 (19.9)51.4 (19.9)50.8 (19.9)<0.01
Race a, N (%) <0.01
  White/Caucasian97,296 (61.8)49,302 (62.4)47,994 (61.1)
  Black/African American42,697 (27.1)21,335 (27.0)21,362 (27.2)
  Hispanic12,926 (8.2)6153 (7.8)6773 (8.6)
  Asian801 (0.5)413 (0.5)388 (0.5)
  American Indian or Native Hawaiian473 (0.3)239 (0.3)234 (0.3)
  Other3264 (2.1)1520 (1.9)1744 (2.2)
Gender, N (%) 0.69
  Female79,810 (50.7)40,069 (50.7)39,741 (50.6)
  Male77,575 (49.3)38,860 (49.2)38,715 (49.3)
  Unknown72 (0.05)33 (0.04)39 (0.05)
Payor Status, N (%) <0.01
  Public79,468 (50.5)39,152 (49.6)40,316 (51.4)
  Private41,682 (26.5)21,136 (26.8)20,546 (26.2)
  Self-Paid33,944 (21.6)17,517 (22.2)16,427 (20.9)
  Worker’s Comp.1270 (0.8)656 (0.8)614 (0.8)
  Other1093 (0.7)501 (0.6)592 (0.7)
Disposition, N (%) <0.01
  Admitted33,433 (21.2)17,371 (22.0)16,062 (20.5)
  Discharged100,067 (63.5)50,145 (63.5)49,922 (63.6)
a Other race includes participants that listed race as Unknown, Biracial, Refused to answer, or Other, or where such data were missing.
Table 2. ED-ALTO medication and opioid utilization pre-and post-implementation.
Table 2. ED-ALTO medication and opioid utilization pre-and post-implementation.
Total Sample12 Months
Pre-Implementation
12 Months
Post-Implementation
p-Value
N = 157,457N = 78,962N = 78,495
ED-ALTO Medication Utilization53,639 (34.1)26,568 (33.6)27,071 (34.5)<0.01
Received any opioid, N (%)26,947 (17.4)13,968 (17.7)12,979 (16.5)<0.01
  Morphine13,305 (8.4)6656 (8.4)6649 (8.5)0.77
  Dilaudid3436 (2.2)2140 (2.7)1296 (1.6)<0.01
  Fentanyl6836 (4.4)3481 (4.4)3355 (4.3)0.19
  Hydrocodone4871 (3.1)2596 (3.3)2275 (2.9)<0.01
  Oxycodone3660 (2.3)1802 (2.3)1858 (2.4)0.26
  Tramadol550 (0.3)284 (0.4)266 (0.3)0.48
MME of Opioids a, mean (SD)20.8 (21.9)20.3 (20.3)21.3 (23.5)<0.01
a Among patients who were prescribed opioids.
Table 3. ED-ALTO Alternative Procedure Utilization in the Pre- and Post-implementation Periods by Diagnoses Treated.
Table 3. ED-ALTO Alternative Procedure Utilization in the Pre- and Post-implementation Periods by Diagnoses Treated.
Pre-
Period
N
Pre-Implementation
Diagnoses Treated
Post-
Period
N
Post-Implementation
Diagnoses Treated *
Total Procedures98 167
Nerve Block, N86 82
  Endocrine, Nutritional, Metabolic1Type 2 Diabetes0
  Mental and Behavioral Disorders1Alcohol Related Disorders0
  Diseases of the Nervous System0 1Headache
  Circulatory System1Cerebrovascular aneurysm0
  Digestive System31Diseases of the mouth, teeth, and jaw36Diseases of the mouth, teeth, and jaw; Other chronic pain
  Skin and Subcutaneous Tissue3Cellulitis and acute lymphangitis; Nail Disorders0
  Musculoskeletal and Connective Tissue6Chronic lower back pain; Soft tissue disorders2Chronic low back pain
  Genitourinary System1Priapism0
  Symptoms, Signs and Abnormal
Clinical and Lab Findings
2Headache; Syncope and collapse4Headache; Jaw Pain
  Injury, Poisoning, Certain Other
Consequences of External Causes
35Injury of the lower arm; Injury of the hand, wrist, or finger(s); Injury of the knee; Injury of the foot, ankle, or toe(s); Injury (unspecified)36Injury of the skull and facial bones; Fracture of rib(s); Injury of the shoulder or upper arm; Fracture of femur; Injury of the hand, wrist, or fingers; Injury of the foot, ankle, or toe(s); Poisoning
  External Causes of Morbidity4Pedestrian conveyance accident; Sprain of thoracic spinal ligament(s); Fall; Assault; Perpetrator of assault2Fall; Contact with rodent
  Factors Influencing Health Status and Contact with Health Services1Orthopedic aftercare1Other specified health status
Trigger Point Injection, N12 46
  Diseases of the Nervous System1Carpal tunnel syndrome1Headache
  Circulatory System0 1Deep vein thrombosis
  Diseases of the Respiratory System0 1Asthma
  Skin and Subcutaneous Tissue0 1Disorders of skin
  Musculoskeletal and Connective
Tissue
11Chronic low back pain;
Disorders of muscle;
Disorders of bone
32Disorders of joints; Chronic Low back pain; Disorders of muscle; Soft tissue disorders
  Symptoms, Signs and Abnormal
Clinical and Lab Findings
0 6Headache; Abdominal pain
  Injury, Poisoning, Certain Other
Consequences of External Causes
0 4Injury of thorax; Injury of shoulder or upper arm
Acupuncture, N0 17
  Diseases of the Nervous System0 1Polyneuropathy
  Digestive System0 2Abdominal Pain
  Musculoskeletal and Connective
Tissue
0 7Hip pain; Chronic low back pain; Soft tissue disorders
  Symptoms, Signs and Abnormal
Clinical and Lab Findings
0 3Abdominal Pain; Headache
  Injury, Poisoning, Certain Other
Consequences of External Causes
0 2Injury of neck; Injury of shoulder or upper arm
  External Causes of Morbidity0 2Traffic accident; Fall
Acupuncture and Electrostimulation, N0 21
  Certain Infectious and Parasitic
Diseases
0 1Trichomoniasis
  Musculoskeletal and Connective
Tissue
0 18Disorders of joints; Chronic low back pain
  Symptoms, Signs and Abnormal
Clinical and Lab Findings
0 1Abdominal Pain
  External Causes of Morbidity0 1Fall
Acupuncture and Nerve Block, N0 1
  Diseases of the Nervous System0 1Disorders of autonomic
nervous system
Trigger Point Injection and
Electrostimulation, N
0 2
  Musculoskeletal and Connective
Tissue
0 2Chronic low back pain;
Disorders of muscle
* Bolded diagnoses indicate conditions specifically targeted with ED-ALTO education and bedside training.
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Floyd, S.B.; NcGarby, S.; Cordero Romero, S.; Garrison, S.; Walker, K.; Hendry, W.; Moschella, P.C. Emergency Department Alternatives to Opioids: Adapting and Implementing Proven Therapies in Practice. Int. J. Environ. Res. Public Health 2023, 20, 1206. https://doi.org/10.3390/ijerph20021206

AMA Style

Floyd SB, NcGarby S, Cordero Romero S, Garrison S, Walker K, Hendry W, Moschella PC. Emergency Department Alternatives to Opioids: Adapting and Implementing Proven Therapies in Practice. International Journal of Environmental Research and Public Health. 2023; 20(2):1206. https://doi.org/10.3390/ijerph20021206

Chicago/Turabian Style

Floyd, Sarah B., Sam NcGarby, Susan Cordero Romero, Sam Garrison, Kevin Walker, William Hendry, and Phillip C. Moschella. 2023. "Emergency Department Alternatives to Opioids: Adapting and Implementing Proven Therapies in Practice" International Journal of Environmental Research and Public Health 20, no. 2: 1206. https://doi.org/10.3390/ijerph20021206

APA Style

Floyd, S. B., NcGarby, S., Cordero Romero, S., Garrison, S., Walker, K., Hendry, W., & Moschella, P. C. (2023). Emergency Department Alternatives to Opioids: Adapting and Implementing Proven Therapies in Practice. International Journal of Environmental Research and Public Health, 20(2), 1206. https://doi.org/10.3390/ijerph20021206

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