Prehospital care is an essential component in reducing mortality for patients presenting with emergency medical conditions. Prehospital systems tend to be underdeveloped or non-existent in these areas, with less than 1% of low-income and middle-income country (LMIC) populations served by an organised prehospital system. Mobile health apps for activation of Emergency Medical System (EMS) have been shown to decrease mortality, but there has yet to be a systematic review and meta-analysis performed to clarify the role that these apps play in reducing mortality in LMICs. The objective of this review is to evaluate the effectiveness of mobile health apps for EMS activation versus traditional EMS dispatches in survival and transport time in patients with emergency medical conditions.
The proposed systematic review of randomised controlled trials (RCTs) and non-randomised controlled trials (NRCTs) will be conducted in accordance with the Joanna Briggs Institute methodology for systematic reviews of effectiveness evidence. MEDLINE, CINAHL, Web of Science, Cochrane Library, EMBASE and EBSCO will be searched from January 2005 to March 2021. The search results will be presented according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses flow diagram. Primary outcomes will include mortality and transport time. Critical appraisal will be assessed using the JBI SUMARI Risk-of-Bias Tool for RCTs, and Risk-of-Bias In Non-Randomised Studies tool for NRCTs. A narrative synthesis will be conducted for all included studies. If sufficient data are available, a meta-analysis will be conducted. I2 statistics will be used to assess heterogeneity and identify their potential sources.
No ethical approval will be required, as this review is based on already published data and does not involve interaction with human subjects. The plan for dissemination, however, is to publish the findings of the review in a peer-reviewed journal and present findings at high-level international conferences that engage the most pertinent stakeholders. Any amendments to this protocol will be documented in the final review.
CRD42021243041.
To the best of our knowledge this protocol provides a detailed description of the first systematic review on the effectiveness of mobile health apps for Emergency Medical System activations in reducing mortality in low-income and middle-income countries.
The protocol adheres to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses Protocols guidelines for reporting a systematic review protocol.
Given the niche nature of the topic it is possible there may not be enough data to perform a meta-analysis.
Prehospital care is an essential component in reducing mortality for patients presenting with emergency medical conditions. Prehospital systems tend to be underdeveloped or non-existent in these areas, with less than 1% of low-income and middle-income country (LMIC) populations served by an organised prehospital system.
mHealth services hold promises in helping bridge the gap between the organisation of a functional EMS and a well-functioning prehospital system. There is a wide range of cheap, easily accessible tools which can be used at the point of dispatch or care delivery. With a rapid increase in cellular services, health workers have new opportunities to reach and treat patients who they could not before. There has been an increase in the number of mHealth projects currently active in LMICs, but these tend to be pilot studies that have not been scaled up.
While it is unlikely there is a large body of studies examining the effect of mHealth apps for EMS activation regarding mortality and transport time in LMIC populations, it is important to gain a better understanding of the studies that have been published and for which there is data worth appraising. A systematic review and meta-analysis to clarify the role mHealth apps for EMS activation play in reducing mortality in LMICs has not yet been written. Our objective is to carry this out to provide data that will help improve mHealth apps for EMS dispatch in LMICs.
A protocol of this systematic review following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) statement was registered in the International Prospective Registry of Systematic Reviews. Any changes to the protocol will be amended in PROSPERO and reported in the final review. This systematic review was conducted following the JBI methodology for systematic reviews and meta-analyses.
Patients and the public were not involved in the design of this systemic review protocol.
A systematic review of peer review literature following the PRISMA approach by Moher
Summary of search strategy process.
The search strategy will aim to locate both published and unpublished studies, including the grey literature. An initial limited search of MEDLINE (via PubMed) and CINAHL was undertaken to identify articles on the topic. The text words contained in the titles and abstracts of relevant articles, and the index terms used to describe the articles will be used to develop a full search strategy for Web of Science, Cochrane Library, EMBASE and CINAHL (EBSCO) will be searched from January 2005 to March 2021 to reflect contemporary practice (
The existence of controlled descriptors (MeSH terms and CINAHL headings) and their key words was verified in each database. The search terms were combined using the Boolean operators ‘AND’ and ‘OR.’
A search strategy combining MeSH terms and free-text words such as—(mobile OR telemedicine* OR ehealth OR telehealth OR smartphone* OR ‘smart phone*’) AND (‘emergency medical service*’ OR ‘emergency medical system*’ OR ‘emergency health service*’ OR EMS) AND Cochrane’s LMIC search filter.
Following the search, all identified citations will be collated and uploaded into EndNote V.20 (Clarivate Analytics, Pennsylvania, USA). The citations will then be imported into JBI SUMARI for the review process. Two independent reviewers will examine titles and abstracts for eligibility. The full text of selected studies will be retrieved and assessed. Full-text studies that do not meet the inclusion criteria will be excluded, and a list of such excluded studies will be provided. Disagreements between the reviewers during title and abstract screening or full-text screening will be resolved by consensus, or with a third reviewer. The results of the search will be reported in full in the final report and presented in a PRISMA flow diagram.
Inclusion criteria
This review will include patients of any age with emergency medical conditions including but not limited to stroke, myocardial infarction, trauma, and respiratory failure.
mHealth EMS dispatch, alerts, triage systems and applications.
Traditional EMS dispatch, alerts, and triage systems.
This review will consider studies that include the following outcomes: mortality and transport time expressed as incidence differences, risk ratios or ORs. All outcomes will be summarised narratively.
This review will consider both experimental and quasi-experimental study designs including randomised controlled trials, non-randomised controlled trials, before and after studies and interrupted time series studies. In addition, analytical observational studies including prospective and retrospective cohort studies, case–control studies and analytical cross-sectional studies will be considered for inclusion. This review will also consider descriptive observational study designs including case series, individual case reports and descriptive cross-sectional studies for inclusion. We will include preprint studies identified in our search, but no ongoing studies will be considered.
Eligible studies will be critically appraised by two independent reviewers at the study level using standardised critical appraisal instruments from the Joanna Briggs Institute for experimental and quasi-experimental studies. Authors of papers will be contacted to request missing or additional data for clarification, where required. Any disagreements that arise will be resolved through discussion, or with a third reviewer. The results of critical appraisal will be reported in narrative form and in a table.
All studies, regardless of the results of their methodological quality, will undergo data extraction and synthesis (where possible).
Data will be extracted from studies included in the review by two independent reviewers using the standardised data extraction tool. The data extracted will include specific details about the populations, study methods, interventions and outcomes of significance to the review objective. Any disagreements that arise between the reviewers will be resolved through discussion, or with a third reviewer. Authors of papers will be contacted to request missing or additional data, where required.
Studies will, where possible be pooled in statistical meta-analysis using JBI SUMARI. Effect sizes will be expressed as either odds ratios (for dichotomous data) and weighted (or standardised) final postintervention mean differences (for continuous data) and their 95% CIs will be calculated for analysis. Heterogeneity will be assessed statistically using the standard χ2 and I2 tests. Statistical analyses will be determined by the final heterogeneity in the included studies.
The Grading of Recommendations, Assessment, Development and Evaluation approach for grading the certainty of evidence will be followed.
No ethical approval will be required, as this review is based on already published data and does not involve interaction with human subjects. The plan for dissemination, however, is to publish the findings of the review in a peer-reviewed journal and present findings at high-level international conferences that engage the most pertinent stakeholders. Any amendments to this protocol will be documented in the final review.
This protocol has been rigorously developed and designed specifically to assess the effects of mHealth apps for EMS activation on mortality and transport time in LMICs. Given the likely limited evidence associated with the primary objective, findings from the review will be critical for researchers, policymakers, government and non-governmental organisations for planning, developing and improving mHealth apps for EMS activation in LMICs. If protocol modifications are required, the authors will include the detailed description of any changes along with a justification during the publication of the review.
The main barriers for implementing mHealth apps for EMS activation include regulatory bodies, technological expertise and user interaction. Usability of the application, signal loss, data volume utilisation, need to enter passwords and the availability of automated or in-app context-relevant clinical advice are important considerations for the three groups involved: experts, front-line healthcare workers and patients. This review will serve as an important role as a repository of available evidence for the purpose of addressing these barriers and setting effective policy and guideline recommendations.
This article is the result of a study conducted in the framework of the International PhD in Global Health, Humanitarian Aid and Disaster Medicine jointly organised by Università del Piemonte Orientale (UPO) and Vrije Universiteit Brussel (VUB). The authors would like to thank Stanford University research librarian, Lily Ren for her invaluable contribution in helping to develop a relevant and robust search strategy.
@dylangriswold_
AMR conceived the review. DG and AMR refined the review design. Both authors were involved in subsequent draft manuscript reviews and updates and approved the final version of this protocol.
DG was supported by the Gates Cambridge (Grant #: OPP1144) and Dr Rubiano was supported by the CRIMEDIM centre at Università del Piemonte Orientale (UPO) (Grant #: N/A).
None declared.
Not commissioned; externally peer reviewed.
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Not applicable.