The effectiveness of EMR implementation regarding reducing documentation errors and waiting time for patients in outpatient clinics: a systematic review

Reporting

The Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines have been used in this literature review since this is an already validated methodology for choosing the final articles to be used from the results obtained within published literature relevant to this research topic (Albagmi, 2020). The PRISMA guidelines, as well as being the format for conducting and reporting systematic literature reviews, were selected due to the fact that the overall conceptual ideas and the main aims of the research topic of this project are well suited to the PRISMA guidelines. In addition, in order to carry out an accurate or valid literature review for the purposes of summarizing the various aspects of a chosen public health topic, reviews have been documented as being of more relevance when using already validated methodologies like the PRISMA guidelines (Moher et al., 2009; Page et al., 2021).

Search strategy and eligibility criteria

The search strategy was performed in a manner that the methodology can be repeated and employed (see Box 1). A systematic search of the literature published between 2005 and 2020 was performed on PubMed, Central, Ovid, Scopus, Science Direct, Elsevier, Cochrane using free keywords. The reference lists of relevant articles (including primary and secondary results), and grey literature (including PROSPERO and reports of relevant stakeholder organizations - WHO website and the McMaster University Health Evidence website) were screened. The search for relevant articles to be included in the literature review was done after first choosing the appropriate key words and key concepts pertaining to the main research goals of this literature review.

The formulated keywords and concepts were: “efficiency or impact which EMR implementation has had in terms of reducing documentation errors in outpatient clinics” and “efficiency or impact which EMR implementation has had in terms of reducing the waiting time for patients in outpatient clinics.” In accordance with chosen search terms, the study search made use of the keywords as well as the phrases in combination with the Boolean operators “AND” and “OR” in the following manner for search in relevant databases: “efficiency or impact which EMR implementation has had in terms of reducing documentation errors in outpatient clinics” and/or “efficiency or impact which EMR implementation has had in terms of reducing the waiting time for patients in outpatient clinics” (Cronin, Ryan and Coughlan, 2008; Timmins & McCabe, 2005; Wakefield, 2014).

Each of the chosen databases and websites were used for the search keeping in mind the inclusion and exclusion criteria to find relevant published articles. The inclusion/exclusion criteria used were as follows.

Inclusion criteria:

Exclusion criteria:

Study selection and data collection

Studies were independently assessed by a single reviewer (SA) and were reported using the PRISMA flow diagram (Figure 1). Initial screening of studies was based on the information mentioned in the titles and abstracts. Full-paper screening was conducted by the same independent reviewer and extracted in to a standardized structure. A form was created, focused on the detail study characteristics. Primarily, the reviewer collected the data in the form and subsequently it was managed in a master Microsoft Excel sheet (2019) and then tabulated separately for each study. Study investigators were not approached to confirm the data as the included studies were well-defined and outcome was clearly mentioned.

Figure 1. The PRISMA flowchart showing search and selection methodology, PRISMA 2020 flow diagram.

Data items

The data collected for each study included the name of first author, year of publication, setting characteristics, study duration, participants and, outcomes.

Primary outcomes

Primary outcomes were any measure related to effectiveness of EMR in:

Definitions of variables that were sought out are described in Table 1.

Data analysis and risk of bias assessment

This was a systematic review and hence did not require any statistical analysis. Data was synthesized in a narrative manner. Study quality and bias assessment was done by using a hybrid of the Downs and Black scale and the Newcastle-Ottawa Scale that includes 11 items (Downs et al., 1998; Wells et al., 2017) under four themes of reporting, external validity, internal validity for bias and internal validity for confounding to capture the observational and experimental study designs

Search results

A search of the above-mentioned chosen databases and sources and the results obtained are shown in Figure 1 (with the use of the PRISMA flowchart for the search strategy for the research question). This literature search made use of many relevant and varied sources so as to obtain the most accurate articles.

After the search was done, a total of 93 articles were found from the databases and other sources. After examining for and removing the duplicates, 30 articles were left. Through the application of the above-mentioned inclusion or exclusion criteria, nine articles were excluded. This resulted in a remainder of 21 articles which were further examined for relevance to the aims of this study’s topic. Following this, nine articles were further excluded for not having relevance in determining the effectiveness of EMR implementation in terms of decreasing or reducing documentation errors and waiting time for patients in outpatient clinics. The remaining 12 articles were utilized for this literature review on the basis of their being relevant to the main aims of this research study (see Figure 1 for the PRISMA flowchart) (Moher et al., 2009; Page et al., 2021).

Selected study findings and data

The findings and data of the articles chosen for inclusion in this literature review are as shown in Table 2.

Risk of bias assessment

The results of the risk of bias assessment are presented in Figure 2. For question number 6, not all studies recruited participants; out of 12, three studies recruited participants and other studies evaluated databases.

Figure 2. Quality assessment by Downs and Black scale and the Newcastle-Ottawa Scale.

Key themes identified in the data findings

The review of the selected articles revealed two key themes in the context of how effective the implementation of the EMR system is in reducing documentation errors and waiting time for patients in outpatient clinics, namely: there is a reduction in medical errors because of fewer documentation errors and there is some degree of reduction of waiting time for patients due to overall improvement of system workflow in some settings, after use of EMRs. The two themes tend to overlap and are interlinked. Thus, each aspect has an impact on the other factors and may ultimately improve care quality for patients attending outpatient visits.

Limitations

This review has some limitations. First, due to the strict exclusion and inclusion criteria, the studies that were relevant according to the one of the outcomes but not to the main question were not included. Conference proceedings were excluded that might have contained findings of worth. Second, there was a lack of data within studies regarding setting, type of study and population. In addition, a large number of studies were found on documentation errors as compared to patient waiting time.

Future perspective

Although previous versions of EHRs were mainly undertaken as recordkeeping devices, corresponding versions have commenced implementing a “rules engine” that facilitate institutions in developing their own decision-support tools. Therefore, EHR vendors have expanded the functionality of their products, irrespective to integrate Food and Drug Administration approval of their software as a regulated medical device. The difference is essential for two reasons. Firstly, the risks related with health information technology are concerned by the FDA. Secondly, this stresses the burden of developing the decision support tool on the individual institution, which may reduce the likely effect of decision-support, undertaking the amount of time or effort needed for customization. The difference between decision support tools is stressed through alert users toward contradictory or missing documentation versus those that suggested the adjustment of anesthetic depth on the basis of vital signs of patients. Implementing decision support tools is slightly different in anesthesia as compared to most other specialties. Since events are occurred in real-time, and actions might be timely critical, event processing time and network delays must be undertaken for ensuring that alerts are timely and appropriate to the clinician.

Underlying data

All data underlying the results are available as part of the article and no additional source data are required.

Reporting guidelines

Figshare: PRISMA checklist for “The effectiveness of EMR implementation regarding reducing documentation errors and waiting time for patients in outpatient clinics: a systematic review” https://doi.org/10.6084/m9.figshare.14791356.v1 (Albagmi, 2021).

Data are available under the terms of the Creative Commons Zero “No rights reserved” data waiver (CC0 1.0 Public domain dedication).