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Interventions to reduce emergency department consultation time: A systematic review of the literature

Published online by Cambridge University Press:  12 November 2019

Weiwei Beckerleg
Affiliation:
The Ottawa Hospital, Ottawa, ON Faculty of Medicine, University of Ottawa, Ottawa, ON Department of Medicine, The Ottawa Hospital
Krista Wooller*
Affiliation:
The Ottawa Hospital, Ottawa, ON Faculty of Medicine, University of Ottawa, Ottawa, ON Department of Medicine, The Ottawa Hospital Ottawa Hospital Research Institute, Ottawa, ON
Delvina Hasimjia
Affiliation:
The Ottawa Hospital, Ottawa, ON Faculty of Medicine, University of Ottawa, Ottawa, ON Department of Medicine, The Ottawa Hospital
*
Correspondence to: Dr. Krista R. Wooller, Division of General Internal Medicine, D107c Civic Campus Box 209, 1053 Carling Avenue, Ottawa, ONK1Y 4E9; Email: [email protected]

Abstract

Objectives

Overcrowding in the emergency department (ED) is associated with increased morbidity and mortality. Studies have shown that consultation to decision time, defined as the time when a consultation has been accepted by a specialty service to the time when disposition decision is made, is one important contributor to the overall length of stay in the ED.

The primary objective of this review is to evaluate the impact of workflow interventions on consultation to decision time and ED length of stay in patients referred to consultant services in teaching centres, and to identify barriers to reducing consultation to decision time.

Methods

This systematic review was performed in accordance with the PRISMA guidelines. An electronic search was conducted to identify relevant studies from MEDLINE, EMBASE, Cochrane Central, and CINAHL databases. Study screening, data extraction, and quality assessment were carried out by two independent reviewers.

Results

A total of nine full text articles were included in the review. All studies reported a decrease in consultation to decision time post intervention, and two studies reported cost savings. Interventions studied included short messaging service (SMS) messaging, education with audit and feedback, standardization of the admission process, implementation of institutional guideline, modification of the consultation process, and staffing schedules. Overall study quality was fair to poor.

Conclusions

The limited evidence suggests that audit and feedback in the form of SMS messaging, direct consultation to senior physicians, and standardization of the admission process may be the most effective and feasible interventions. Additional high-quality studies are required to explore sustainable interventions aimed at reducing consultation to decision time.

Résumé

RésuméContexte

L'encombrement des services des urgences (SU) est associé à une augmentation de la morbidité et de la mortalité. Des études ont démontré que le temps écoulé entre les demandes de consultation et les prises de décision, défini comme le temps passé entre le moment où une demande de consultation en spécialité est acceptée et la prise de décision quant aux suites à donner, joue un rôle important dans le prolongement de la durée totale de séjour au SU.

Objectifs

L’étude avait pour objectifs principaux d’évaluer l'incidence des interventions de rationalisation du travail sur le temps écoulé entre les demandes de consultation et les prises de décision et sur la durée de séjour au SU chez les patients dirigés vers des services de consultation dans des centres hospitaliers d'enseignement, et de cerner les obstacles à la réduction de ce temps d'attente.

Méthode

Il s'agit d'une revue systématique réalisée conformément aux lignes directrices PRISMA. Une recherche électronique a été menée dans les bases de données MEDLINE, EMBASE, Cochrane Central et CINAHL afin de relever les études pertinentes. Deux examinateurs ont procédé, chacun de leur côté, à la sélection des études, à l'extraction des données et à l’évaluation de la qualité des études retenues.

Résultats

Ont été sélectionnés, au total, 9 articles en version intégrale. Dans toutes les études, on faisait état, après les interventions, d'une diminution du temps écoulé entre les demandes de consultation et les prises de décision et, dans deux études, d'une économie de coûts. Parmi les interventions examinées, il y avait les services de messages courts (SMS), la formation du personnel suivie de contrôles et de commentaires, l'uniformisation du processus d'admission, la mise en œuvre de lignes directrices dans les établissements, la modification du processus de consultation et les horaires de travail du personnel. Dans l'ensemble, la qualité des études variait de passable à piètre.

Conclusions

Malgré le petit nombre de données probantes, il semblerait que les contrôles et les commentaires sous forme de SMS, les demandes de consultation envoyées directement aux médecins principaux et l'uniformisation du processus d'admission soient les interventions les plus efficaces et les plus faciles à mettre en œuvre. Il faudrait aussi réaliser des études de qualité sur des interventions durables visant à réduire le temps écoulé entre les demandes de consultation et les prises de décision.

Type
Original Research
Copyright
Copyright © Canadian Association of Emergency Physicians 2019

CLINICIAN'S CAPSULE

What is known about the topic?

Prolonged consultation to decision time and ED length of stay are associated with adverse outcomes.

What did the study ask?

What interventions have been tried to reduce consultation to decision time and, in turn, ED length of stay?

What did the study find?

A variety of interventions have been found to be effective in reducing consultation to decision time and ED length of stay.

Why does this study matter to clinicians?

Findings from this review can help inform quality improvement efforts in streamlining ED flow.

INTRODUCTION

Emergency department (ED) wait time has been identified as an important quality indicator in our healthcare system. Overcrowding in the ED is associated with increased morbidity and mortality, prolonged inpatient stay, and decreased patient satisfaction.Reference Richardson1Reference Yancer, Foshee and Cole4 Studies have shown that consultation to decision time, defined as the time when a referral has been accepted by a consultant service to the time when disposition is made, is one component that can contribute to the overall length of stay in the ED,Reference Brouns, Stassen and Lambooij5Reference Wilbert7 making up 26%–67% of total ED length of stay.Reference Lee, Rowe and Innes8,Reference Yoon, Steiner and Reinhardt9 Consultations are common, occurring in up to 40% of all ED visits.Reference Woods, Lee and Ospina10 Unique challenges exist at teaching centres to optimize the efficiency of the consultation process due to the presence of trainees, because they often require more time to perform assessments and need to review with more senior staff before a disposition decision is reached. Bernstein et al. found a reduction in ED length of stay when consultations were performed by more senior clinicians.Reference Bernstein, Aronsky and Duseja2

Given the increasing pressures to improve flow in ED and the important role the consultation process can play in prolonging ED length of stay, it is essential to evaluate interventions designed to streamline the consultation process to determine their impact on reducing consultation to decision time and improving patient outcomes. To our knowledge, no previous systematic review has been conducted on this topic. While Lee et al. published a review of consultations in the ED, their focus was primarily on understanding the proportion of ED patients requiring consultant referral and practices aimed at reducing ED consultations. Only one study on intervention to reduce consultation to decision time was included, and it showed a reduction in consultation time after the Dean of the College of Medicine mandated a policy to improve efficiency.Reference Lee, Woods, Bullard, Holroyd and Rowe11

The objectives of this systematic review were to evaluate the impact of workflow interventions on the consultation to decision time and ED length of stay in patients referred to consultant services in teaching centres, as well as to identify any barriers to reducing consultation to decision time. Association between consultation to decision time and ED length of stay with patient safety outcomes will also be explored.

METHODS

Protocol and registration

This systematic review was performed in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines.Reference Moher, Liberati, Tetzlaff and Altman12 No protocol was registered for this review.

Eligibility criteria

Studies examining single or combined interventions aimed at reducing consultation to decision time in the ED for adult patients (≥ 18 years of age) presenting to the ED and requiring referrals to consultant services were included. A broad criterion was employed for the types of interventions, such as instituting guidelines or targets on consultation to decision time, reorganizing shifts for medical personnel, education, and performance feedback, to be as inclusive as possible. The setting was limited to EDs at teaching centres given the unique challenges present in the consultation process due to the presence of trainees, with no restriction on urban versus rural EDs. Observational studies and randomized controlled trials were considered for inclusion. Studies that did not assess interventions aimed at reducing consultation to decision time were excluded, as were those that did not include consultation to decision time in the ED as an outcome measure. Studies were restricted to the English language.

Information sources

An electronic search was conducted to identify relevant studies from MEDLINE, EMBASE, Cochrane Central, and CINAHL databases, including studies from 1946 to May 2018. A health information specialist was involved in carrying out the search, with input from the research team. The full electronic search strategy can be found in the supplementary materials. Reference lists of all included studies were screened for additional articles that were missed by the initial search.

Study selection

Firstly, all titles and abstracts were screened by two independent reviewers, with a third reviewer involved to resolve any discrepancies. EndNote was used to manage all citations. Secondly, the full-text of selected articles were reviewed by two independent reviewers, and decision was made regarding inclusion or exclusion based on the previously defined criteria. A third reviewer was involved to resolve any discrepancies when required in order to reach consensus.

Data collection

Data were subsequently extracted by two independent reviewers using Excel worksheets. Data items included study design, location, population, type of intervention, impact of intervention on consultation to decision time, ED length of stay and patient safety, and barriers to application of intervention.

Risk of bias

Study quality was rated separately by two reviewers using the SQUIRE 2.0 checklist for quality improvement initiatives as a reference.13 This was selected given that other validated scales are better applied to traditional scientific research projects.

The completeness of reporting was assessed by further adapting the SQUIRE ratings using prior literature as a guide.Reference Gotlib Conn, Nathens and Perrier14,Reference Howell, Schwartz, O'Leary and Mc Donnell15

Briefly, the reviewers assessed whether each aspect of the guideline item was reported in the manuscript, as per the 18-item SQUIRE criteria. Studies were scored either Yes (+1) or No (0) for each of the statements, and, when the guideline statements contained multiple descriptors, they were recorded as complete, partially complete, or incomplete based on the number of statements supported by the study. Subsequently, each study was categorized as meeting the “poor/fair/good” criterion based on the total score of the combined descriptors.

Analysis of results

A descriptive qualitative analysis was conducted in this systematic review. A meta-analysis could not be performed given the heterogeneity in the included studies.

RESULTS

Study selection

Abstracts totalling 1,919 were identified through the literature search, with an additional abstract identified from the references of included studies, for a total of 1,920 abstracts, as summarized in the PRISMA flow diagram (Figure 1). A repeat literature search was conducted for troubleshooting, with one additional study identified, because it was not indexed in any of the major databases. The kappa value for inter-rater agreement on the inclusion or exclusion of the titles or abstracts was 0.96. After the initial screening process, 51 abstracts were included, of which 34 full articles were retrieved for full review. The remainder were conference proceedings or abstracts that were not published as full articles.

Figure 1. PRISMA flow diagram of study selection process

Of the full articles retrieved for review, 25 were excluded. Reasons for exclusion were listed in Figure 1. The kappa value for inter-rater agreement on the inclusion or exclusion of full articles was 0.94.

Study characteristics

Data were extracted for location, population, types of interventions, study design and quality, outcomes, sustainability, and measures (Table 1).

Table 1. Summary of study design, population, intervention, outcomes, measures, and study quality

CTDT = consultation to decision time; ED = emergency department; GIM = general internal medicine; LOS = length of stay; SMS = short messaging system.

Study location and population

All studies were conducted in North America and South Korea within the past decade. Most of them took place at academic centres, with one conducted at a community teaching hospital.Reference Wells, Coates, Williams and Blackmore23 Four studies included patients requiring internal medicine consultation only,Reference Soong, High, Morgan and Ovens19Reference Kachra, Walzak and Hall22Reference Shin, Lee and Kim24 one study population comprised patients requiring psychiatric consultation,Reference Langheim and Heiligenstein21 another study included general surgical patients only, Reference Faryniuk and Hochman17 and the remaining three studies incorporated all patients for whom consultation was requested in the ED. Reference Cho, Jeong and Han16, Reference Kim, Park and Je18, Reference Geskey, Geeting, West and Hollenbeak20

Interventions, outcomes, and study quality

Eight of the nine studies included are observational pre and post studies, and one was a retrospective chart review. The kappa value for inter-rater agreement on study quality was 0.77. Results are summarized based on interventions trialed.

SMS messaging reminder for delays in consultation process

This strategy was used in the studies published by Cho et al. and Kim et al.Reference Cho, Jeong and Han16,Reference Kim, Park and Je18 Both studies included all patients in the ED who required a consultant referral. In the study by Cho et al., Reference Cho, Jeong and Han16 SMS messaging was sent if a resident from the consulting service has not arrived in the ED 20 minutes after the initial consultation request was submitted electronically. Another SMS message was sent out at 3 hours to all residents in the consulting department, and a final message was sent at 6 hours to all residents and attending physicians in the consulting department if no disposition decision has been made. Consultation to decision time was reduced by 101 minutes and ED length of stay by 106 minutes. Outcomes were tracked for 40 days post-intervention. There was no change in time to discharge from the ED after a disposition decision was made, and the proportion of inpatient admissions did not change. The study quality was rated as fair given the limitations of a short monitoring period, lack of data on consultation volume pre-intervention, and lack of assessment of provider experience.

Similarly, the study done by Kim et al. sent out SMS messages at 2 and 4 hours to the attending physicians in the consultant department, if no disposition has been reached then.Reference Kim, Park and Je18 Another SMS was sent at 8 hours to the attending consultants and the admissions office if admitted patients were still boarding in the ED. Consultation to decision time was reduced by 16 minutes and ED length of stay by 14 minutes for consulted patients. Time from admission decision to patients leaving the ED also decreased by 12 minutes. The follow-up period was 30 days post-intervention. This study was also rated as fair due to an insufficient assessment of balancing measures and short duration of follow-up.

Standardization of the admission process

In the study by Langheim and Heiligenstein,Reference Langheim and Heiligenstein21 a standardized form was given to all ED patients requiring first-time psychiatric consultations to improve efficiency. The standardized form included questions on the Diagnostic and Statistical Manual of Mental Disorders diagnosis, treatment history, past and present medications, among others. This study included only 37 patients pre-intervention and 9 post-intervention. The small sample size made it difficult to assess the improvement in outcomes using statistical measures. Data collection was inconsistent as some time points were inputted manually and others electronically. Consultation to decision time was reduced by 79 minutes in this study, but the ED length of stay did not change. The psychiatry residents expressed improved satisfaction after implementation of intervention. The study quality was rated as poor given the unclear sustainability, very small sample size, unclear uptake of the intervention, and inconsistent data collection.

Kachra et al. introduced a standardized admission protocol to the general internal medicine service.Reference Kachra, Walzak and Hall22 This protocol encouraged senior residents to make a disposition decision and enter admission orders within 2 hours of receiving a consultation request, without waiting for a junior resident to first complete the assessment. A reminder about utilization of the standardized protocol and summary data on consultation to decision time was emailed every 6 weeks. Surveys on barriers to admission were also collected. Consultation to decision time was reduced by 78 minutes, and cost per admission was lowered by $36 (CAD). The outcomes were sustained over 6 months. Feedback forms identified high consultation volume, unclear patient disposition, and unstable patient status as barriers to admission. The study quality was rated as poor due to the lack of process and balancing measures, unclear uptake of intervention, small sample size, and lack of utilization of statistical measures.

Restructuring the consultation process

In the study by Shin et al., ED physicians contacted chief residents, junior attending, or attending physicians directly for consultation.Reference Wells, Coates, Williams and Blackmore23 After a disposition decision was made after a phone discussion, a junior resident was then asked to facilitate the admission process. Consultation to decision time was reduced by 179 minutes and ED length of stay by 290 minutes for patients admitted to general internal medicine. The results were sustained over 12 months. Admission order to ED departure time was reduced by 119 minutes, and inpatient mortality was unchanged. Run charts were used for statistical analyses. This study was rated as fair due to insufficient assessment of balancing measures, including provider experience and impact on resident education.

Education, audit, and feedback

In the study by Soong et al., education sessions on effective consultation and triage were held every 2 months for medicine residents to emphasize the potential adverse impact of prolonged ED wait times on patient care, and scenarios were presented to review principles of rapid triage.Reference Soong, High, Morgan and Ovens19 Personal consultation to decision time data for each resident were compiled and fed back every 2 weeks. A guideline of consultation to decision time of less than 1 hour was instituted. Consultation to decision time decreased by 92 minutes and ED length of stay by 40 minutes post-intervention. The data were presented using statistical process control charts and showed special cause variation. Process measures, including time to ED physician assessment and time to consultation request, did not change, but time to discharge from ED for admitted patients increased. There was no change in general internal medicine inpatient mortality or length of stay. The study quality was rated as good.

Implementation of guidelines

Geskey et al. established an institutional guideline, where the goal of physician arrival was within 30 minutes of consultation and that of reaching a disposition decision was within an additional 60 minutes.Reference Geskey, Geeting, West and Hollenbeak20 This was followed by weekly reports on referral and admission volume and consultation to decision time that were sent to hospital administrators, department chairs, and project leaders. Consultation to decision time decreased by 21 minutes, and this was sustained beyond 6 months. Time to discharge from the ED after submission of admission order was decreased by 18 minutes, but inpatient discharge time was delayed by 50 minutes. Run charts were used for data presentation. The study quality was rated as fair given other interventions were happening concurrently, as the largest consultation service made coverage modifications for ED referrals.

Modification of staffing patterns

Faryniuk and HochmanReference Faryniuk and Hochman17 assessed the effectiveness of assigning a dedicated surgeon to provide daytime coverage for non-trauma surgical patients in reducing ED overcrowding. Data were obtained using retrospective chart review, and surgical patients with cholecystitis, appendicitis, or small bowel obstruction were included. Consultation to decision time was reduced by 54 minutes and ED length of stay decreased by 55 minutes. The results were sustained over 12 months. Process measures decreased, including time from consultation request to provider response, and time from provider response to admission decision was unchanged. The study quality was rated as poor given its small sample size (only 137 patients were identified 1 year following intervention), lack of balancing measures, and limited generalizability.

In the study by Wells et al., modifications to the ED consultation coverage by general internal medicine were done over three plan-do-study-act cycles.Reference Shin, Lee and Kim24 Continuous improvement in consultation to decision time was noted throughout these cycles, which ultimately resulted in the extension of ED coverage by existing services and the addition of a physician and an advanced practice registered nurse staffed shift. These interventions resulted in a reduction of 23 minutes in consultation to decision time and reduced overall cost, sustained over 6 months. The increase in cost of hiring of additional providers was offset by the reduction in cost per discharged patient ($180 USD). Statistical process control charts were used to illustrate the improvement process. The study quality was rated as fair given the lack of mention of either process or balancing measures.

DISCUSSION

All studies reported improvement in consultation to decision time, and most studies also found a reduction in ED length of stay. Two studies reported on cost savings by reducing the consultation to decision time. Reference Kachra, Walzak and Hall22,Reference Wells, Coates, Williams and Blackmore23

Interventions with the highest effectiveness judging by the magnitude of consultation to decision time achieved include SMS messaging,Reference Cho, Jeong and Han16,Reference Kim, Park and Je18 direct consultation to senior physicians,Reference Shin, Lee and Kim24 standardization of the admission protocol, Reference Langheim and Heiligenstein21, Reference Kachra, Walzak and Hall22 and education with audit and feedback. Reference Soong, High, Morgan and Ovens19

Among these, education with audit and feedback was the most rigorously studied but also required the greatest amount of resources, including regular education sessions and feedback for trainees. It was difficult to separate the effect of education from weekly audit and feedback in the study by Soong et al,, because they were implemented together.Reference Soong, High, Morgan and Ovens19 Other studies have shown that education, especially in the didactic form, is generally an ineffective strategy for eliciting behavioural changes.Reference Bloom25,Reference Davis, Thomson, Oxman and Haynes26 Therefore, it is possible that the individualized feedback to residents on their performance in this study was particularly important for improving efficiency.

Similarly, audit and feedback after implementation of an institutional guideline, resulted in a modest improvement in consultation to decision time in the study by Geskey et al.Reference Geskey, Geeting, West and Hollenbeak20 This all seem to support the efficacy of feedback in altering behaviours and outcomes in healthcare.Reference Ivers, Jamtvedt and Flottorp27

In terms of feasibility, SMS messaging, direct consultation to senior physicians, and standardizing the admission protocol are all relatively easy to implement with lower resource requirement. In addition, standardization is a tenant of the 5S model (sort, set in order, shine, standardize, and sustain) for quality improvement, and has resulted in improvement in efficiency in other projects in healthcare.Reference Kruskal, Reedy, Pascal, Rosen and Boiselle28,Reference Allaudeen, Vashi and Breckenridge29 However, further assessment of impact on provider experience is needed before consideration of a wider application.

Few studies explored changing staff scheduling to improve coverage of peak consultation times, likely because it represents one of the most resource-intensive interventions. In the study by Faryniuk and Hochman, no assessment of cost-effectiveness was reported.Reference Faryniuk and Hochman17 In the studies by Wells et al., the authors were able to carry out their interventions because of significant buy-in from key stakeholders in a smaller community hospital setting, and funding was available to add additional physician and registered nurse staffed shifts.Reference Wells, Coates, Williams and Blackmore23 Conducting similar interventions in larger centres might prove more challenging due to a larger number of personnel involved.

The relative effectiveness and feasibility of all interventions was summarized in Figure 2.

Figure 2. Grouping of interventions by effectiveness and feasibility in reducing CTDT

There are several limitations to this systematic review. Firstly, due to the significant heterogeneity amongst the interventions carried out, it was not possible to pool the outcome measures. In addition to the effectiveness of any given intervention, the extent to which consultation to decision time is reduced is potentially influenced by multiple other factors that may vary between institutions. Therefore, it is difficult to compare the relative efficacies of the various interventions studied. Secondly, only articles published in English were included, potentially missing important findings from studies conducted in non-English speaking countries. In addition, only the adult population was included in the literature search, so studies on reduction of consultation to decision time in pediatric populations would have been missed. Further, studies published as only abstracts were excluded as well, because it was difficult to extract all data points of interest from abstracts alone. Thirdly, all studies took place in North America and South Korea, potentially limiting its generalizability to countries with different healthcare systems. Fourthly, although the studies suggested improvement in consultation to decision time, it is unclear whether the interventions might have resulted in distress and anxiety for providers, especially for trainees who need to balance learning, patient safety, efficiency, and evaluations by supervisors. Soong et al. mentioned that some trainees expressed frustrations over being under greater pressure to complete consults quickly, but no formal assessment of provider experience was done in any of the studies included.Reference Soong, High, Morgan and Ovens19 Lastly, the impact of decreased consultation to decision time on patient safety outcomes, such as morbidity and mortality, was not well explored in any of the studies.

CONCLUSIONS

In summary, audit and feedback interventions in the form of SMS messaging, direct consultation to senior physicians, and standardization of the admission process appear to be the most feasible and effective interventions in reducing consultation to decision time and ED length of stay. The quality of published studies on strategies to reduce consultation to decision time was overall fair to poor, largely due to lack of assessment of process and balancing measures. Future quality improvement initiatives should take this into consideration in order to improve the applicability of future interventions.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/cem.2019.435.

Acknowledgements

We wish to thank Alexandra (Sascha) Davis for her help with the literature search, and Hanna Kuk and Kylie McNeil for their input in editing the manuscript.

Competing interests

None declared.

References

REFERENCES

1.Richardson, DB.Increase in patient mortality at 10 days associated with emergency department overcrowding. MJA 2006;184:213–6.Google ScholarPubMed
2.Bernstein, SL, Aronsky, D, Duseja, R, et al. ; Society for Academic Emergency Medicine, Emergency Department Crowding Task Force. The effect of emergency department crowding on clinically oriented outcomes. Acad Emerg Med 2009;16(1):110.CrossRefGoogle ScholarPubMed
3.Krochmal, P, Riley, TA.Increased health care costs associated with ED overcrowding. Am J Emerg Med 1994;12(3):265–6.CrossRefGoogle ScholarPubMed
4.Yancer, DA, Foshee, D, Cole, H, et al. Managing capacity to reduce emergency department overcrowding and ambulance diversions. Jt Comm J Qual Patient Saf 2006;32(5):239–45.CrossRefGoogle ScholarPubMed
5.Brouns, SH, Stassen, PM, Lambooij, SL, et al. Organisational factors induce prolonged emergency department length of stay in elderly patients – a retrospective cohort study. PLoS One 2015; 10(8): e0135066.CrossRefGoogle ScholarPubMed
6.Erenler, AK, Akbulut, S, Guzel, M, et al. Reasons for overcrowding in the emergency department: experiences and suggestions of an education and research hospital. Turk J Emerg Med 2016;14(2):5963.CrossRefGoogle ScholarPubMed
7.Wilbert, CC.Timeliness of care in the emergency department. QRB Qual Rev Bull 1984;10(4):99108.Google ScholarPubMed
8.Lee, PA, Rowe, BH, Innes, G, et al. Assessment of consultation impact on emergency department operations through novel metrics of responsiveness and decision-making efficiency. CJEM 2014;16(3):185–92.CrossRefGoogle ScholarPubMed
9.Yoon, P, Steiner, I, Reinhardt, G.Analysis of factors influencing length of stay in the emergency department. CJEM 2003;5(3):155–61.CrossRefGoogle ScholarPubMed
10.Woods, RA, Lee, R, Ospina, MB, et al. Consultation outcomes in the emergency department: exploring rates and complexity. CJEM 2008;10(1):2531.CrossRefGoogle ScholarPubMed
11.Lee, RS, Woods, R, Bullard, M, Holroyd, BR, Rowe, BH.Consultations in the emergency department: a systematic review of the literature. Emerg Med J 2008;25(1):49.CrossRefGoogle ScholarPubMed
12.Moher, D, Liberati, A, Tetzlaff, J, Altman, DG, The PRISMA Group. Preferred Reporting Items for Systematic Reviews and Meta-Analyses: The PRISMA statement. PLoS Med 2009;6(7):e1000097.CrossRefGoogle ScholarPubMed
13.National Heart, Lung, and Blood Institute. NIH. Quality assessment tool for before–after (pre-post) studies with no control group; n. d. Available at: https://www.nhlbi.nih.gov/health-topics/study-quality-assessment-tools (accessed May 01, 2018).Google Scholar
14.Gotlib Conn, L, Nathens, AB, Perrier, L, et al. Quality of reporting on guideline, protocol, or algorithm implementation in adult trauma centres: a systematic review. Ann Surg 2019;epub.CrossRefGoogle Scholar
15.Howell, V, Schwartz, AE, O'Leary, JD, Mc Donnell, C.The effect of the SQUIRE (Standards of QUality Improvement Reporting Excellence) guidelines on reporting standards in the quality improvement literature: a before-and-after study. BMJ Qual Saf 2015;24(6):400–6.CrossRefGoogle ScholarPubMed
16.Cho, SJ, Jeong, J, Han, S, et al. Decreased emergency department length of stay by application of a computerized consultation management system. Acad Emerg Med 2011;18(4):398402.CrossRefGoogle ScholarPubMed
17.Faryniuk, AM, Hochman, DJ.Effect of an acute care surgical service on the timeliness of care. Can J Surg 2013;56(3):187–91.CrossRefGoogle ScholarPubMed
18.Kim, MJ, Park, JM, Je, SM, et al. Effects of a short text message reminder system on emergency department length of stay. Int J Med Inform 2012;81(5):296302.CrossRefGoogle Scholar
19.Soong, C, High, S, Morgan, MW, Ovens, H.A novel approach to improving emergency department consultant response times. BMJ Qual Saf 2013;22(4):299305.CrossRefGoogle ScholarPubMed
20.Geskey, JM, Geeting, G, West, C, Hollenbeak, CS.Improved physician consult response times in an academic emergency department after implementation of an institutional guideline. J Emerg Med 2013;44(5):9991006.CrossRefGoogle Scholar
21.Langheim, FJ, Heiligenstein, E.Evaluation of the timeliness of psychiatric consultations. J Clin Med Res 2014;6(4):242–4.Google ScholarPubMed
22.Kachra, R, Walzak, A, Hall, S, et al. Resident-driven quality improvement pre-post intervention targeting reduction of emergency department decision to admit time. Can J GIM 2016;11(2):1420.Google Scholar
23.Wells, M, Coates, E, Williams, B, Blackmore, C.Restructuring hospitalist work schedules to improve care timeliness and efficiency. BMJ Open Qual 2017;6(2):e000028.CrossRefGoogle Scholar
24.Shin, S, Lee, SH, Kim, DH, et al. The impact of the improvement in internal medicine consultation process on ED length of stay. Am J Emerg Med 2018;36(4):620–4.CrossRefGoogle ScholarPubMed
25.Bloom, B.Effects of continuing medical education on improving physician clinical care and patient health: a review of systematic reviews. Int J Technol Assess Health Care 2005;21:380–5.CrossRefGoogle ScholarPubMed
26.Davis, DA, Thomson, MA, Oxman, AD, Haynes, RB.Changing physician performance. JAMA 1995;274:700–5.CrossRefGoogle ScholarPubMed
27.Ivers, N, Jamtvedt, G, Flottorp, S, et al. Audit and feedback: effects on professional practice and healthcare outcomes. Cochrane Database Syst Rev 2012;7:1229.Google Scholar
28.Kruskal, JB, Reedy, A, Pascal, L, Rosen, MP, Boiselle, PM.Quality initiatives: lean approach to improving performance and efficiency in a radiology department. Radiographics 2012;32(2):573–87.CrossRefGoogle Scholar
29.Allaudeen, N, Vashi, A, Breckenridge, JS, et al. Using lean management to reduce emergency department length of stay for medicine admissions. Qual Manag Health Care 2017;26(2):91–6.CrossRefGoogle ScholarPubMed
Figure 0

Figure 1. PRISMA flow diagram of study selection process

Figure 1

Table 1. Summary of study design, population, intervention, outcomes, measures, and study quality

Figure 2

Figure 2. Grouping of interventions by effectiveness and feasibility in reducing CTDT

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