In several countries, advanced paramedics (APs) and advanced nurses (ANs) are used in the areas of pre-hospital and in-hospital emergency care. In 2015 the International Council of Nurses found that up to 70 countries either have or plan to introduce advanced nursing practice roles (http://international.aanp.org/Home/FAQ). Also, professional titles vary as shown by Sheer and Wong (2008), who reviewed 69 advanced practice roles in 35 different countries. As there is no consensus, it is difficult to fully understand APs and ANs role and scope of practice (Gardner et al., 2007; Stasa et al., 2014). Pre-hospital and in-hospital emergency care have several challenges in common in providing care and in the utilization of appropriate competencies. Exploring existing research in this field might lead to new ideas and developments in policy making regarding optimized resource utilization and advanced practice roles. Terms relating to APs and ANs roles and scope of practice used in this study are presented along with their definitions in Table 1.

TABLE 1 List of terms and definitions

International studies have shown that nurses with higher competence are associated with improved quality of care and a reduced proportion of complications (Aiken et al., 2014). Regarding pre-hospital care, there is evidence showing that paramedics with extended competence can autonomously assess and treat patients at the scene and thereby reduce the numbers of patients transported to emergency departments. However, whether higher competence among paramedics and nurses in pre-hospital care lead to improved care quality is less investigated (Evans et al., 2013).

Emergency care practitioners require broad professional competence and an understanding of a variety of conditions as well as the specific competence required to perform specialized procedures (Wilson et al., 2015). Although the organization of pre-hospital care differs between countries, two different models of care are described; the Franco-German model and the Anglo-American model (Al-Shaqsi, 2010). The former is characterized by bringing the hospital to the patient where pre-hospital physicians attend to the patient, administer treatment and make care decisions at the scene, while the latter is characterized by bringing the patient to the hospital and few patients being treated at the scene.

In the past two decades, both pre-hospital and in-hospital emergency care have experienced major changes such as increased patient numbers, including many patients with low priority conditions, which impact on emergency resources, patient satisfaction and patient safety (Hoot & Aronsky, 2008; Lowthian, Cameron, et al., 2011; Lowthian, Jolley, et al., 2011). Increased demands on pre-hospital resources are interrelated with emergency department attendances and contribute to overcrowding as well as a strain on hospital systems (Lowthian, Cameron, et al., 2011).

Clinical protocols (Ebben et al., 2013) and triage systems have been developed over time to reduce individual variation in the assessment and treatment of patients and to improve quality of care in both pre-hospital and in-hospital emergency care (Farrohknia et al., 2011; Khorram-Manesh et al., 2011; Robertson-Steel, 2006). A feature relating to the triage of patients that appears to be increasing in importance and complexity is the balancing of efficient resource management and patient safety (Gardett et al., 2013).

In Swedish pre-hospital care, clinical roles and scope of practice are, to a great extent, similar for both ANs and registered nurses (RNs). Despite the nurse's different levels of education, they are in general assumed to share the same responsibilities and there are no clear differences in the protocols and guidelines that govern pre-hospital emergency care (Rantala et al., 2019; Wihlborg, 2018). By applying an international focus and exploring examples of utilization of APs and ANs competence, this study can contribute towards a deeper understanding of their scope of practice in pre-hospital and in-hospital emergency care. The aim of the present study was therefore to explore and present an overview of the scope of practice among paramedics and registered nurses with an advanced level of education in pre-hospital and in-hospital emergency care.

Research questions:

• What kind of interventions and procedures are performed by APs and ANs?
• Where, how and to which patients are the interventions and procedures performed?
• What is the outcome of the care and service performed by APs and ANs?

An integrative review of the literature was chosen to integrate and synthesize results from former studies (Whittemore & Knafl, 2005). This design was chosen to enable a more comprehensive understanding of the heterogenous phenomena of interest, that is competence and scope of practice of APs and ANs in pre-hospital and in-hospital emergency care. The stages reported by Whittemore and Knafl (2005) guided the review and consist of: problem identification, literature search, data evaluation, data analysis and presentation. The fundamental principles of the Cochrane Collaboration and Preferred Reporting Items for Systematic Reviews and Meta Analyses (PRISMA) (Moher et al., 2009) also informed the review process.

Primary peer-reviewed research studies written in English and using quantitative, qualitative or mixed methods, with focus on paramedics and nurses with an advanced level of education were eligible for inclusion. Studies with a focus on pre-hospital emergency care or in-hospital emergency/emergency department care, including minor injury units, were included. Studies focusing on more than one setting were included if either pre-hospital or in-hospital emergency care context findings could be separated from other findings. Studies describing competence, roles and scope of practices, of APs and ANs (i.e. roles, functions, interventions, procedures, patient satisfaction, mortality and morbidity, safety and economic analysis) were included. Based on the fact that APs and ANs roles in pre-hospital and in-hospital emergency care settings have developed in the recent two decades and both systems are exposed to challenges related to effective competence utilization and increased patient demand (Cooper & Grant, 2009; Williams, 2017), only studies published 2006 or later were found to be eligible.

Primary searches were performed in Cochrane library, PubMed and Google Scholar.

Primary searches did not generate any published reviews covering the same field and populations. However, the primary searches contributed to further understanding of the complexity of the area of research. The search for the integrative review was performed in PubMed, CINAHL, Scopus and Web of Science, databases well suited for finding published peer-reviewed “paramedic” and nursing research. The search strategy was based on a modified PICO structure and was discussed with a university librarian to ensure rigour.

The search strategy is displayed in Table 2 (minor alterations of search terms were made in databases).

TABLE 2 Search strategy

The database searches, which was carried out in March 2017 and updated in September 2018, generated 946 records (Figure 1a), 179 were excluded as being duplicates leaving 767 records to be screened by title and abstract for relevance. Further, 741 records were rejected leaving 26 articles to be assessed in full text. A manual search in the databases Scopus and Web of Science was conducted in August 2017 and updated in November 2018 (Figure 1b). The same selection process was also used here. The manual search generated 397 studies: 211 were excluded for being duplicates leaving 186 records to be screened by title and abstract for relevance. Additionally, 170 records were rejected resulting in 16 articles to be assessed in full text. In total, 42 articles were assessed in full text; 17 did not meet the eligibility criteria leaving 25 studies to be included (Figure 1).

A number of 25 studies were assessed using the Critical Appraisal Skills Program Tools (Public Health Resources Unit, 2006) for qualitative and quantitative studies modified by Nordström and Wilde-Larsson and previously used by Sandsdalen et al., (2015). The modified critical appraisal tool was closely related to the original tool but also included a scoring system that facilitated categorizing the studies as being of either high, medium or low quality (Table 3). The assessments were based on total scores, as no areas or items were judged more significant than others. All steps of the selection process and quality assessment were performed by three independent researchers. All uncertainties or disagreements were discussed by the three authors until consensus was reached.

TABLE 3 Characteristics of included studies

Limiters: Publishing date: January 2006-September 2018, English Language and Peer Reviewed. In the database Scopus studies in press were included.

The integrative data analysis and synthesis were performed as a descriptive thematic analysis inspired by Whittemore and Knafl (2005), allowing data to be grouped according to their findings rather than by method. This descriptive thematic analysis consists of data reduction, data display, data comparison, conclusion and verification. A data extraction form containing the explicit research questions was used for data reduction. These forms were then used to categorize and summarize content related to characteristics and findings in the included studies (Table 3). Data were then analysed (data comparison) by being coded, condensed and then grouped according to patterns and themes. Finally, themes and subthemes were identified and described (data conclusion and verification). Throughout the analysis, comparisons between evolving themes, subthemes and original studies were made to ensure accuracy and reliability.

A total of 1,343 studies were identified in four databases; 390 studies were duplicates, and as a result of four search and selection rounds (Figure 1), 25 studies were included in the final results, described in Tables 3 and 4. To facilitate reading and traceability, studies connected to findings are indicated by numbers (1–25) in Table 4.

TABLE 4 Thematic findings related to respective studies

The review is based on studies from seven countries (United States, United Kingdom, Ireland, Australia, Sweden, New Zealand, and the Netherlands, Table 3), which were published between 2006 and 2018 (md 2013) and included quantitative (n = 21) and mixed methods (n = 4) studies. Fifteen of the studies focused on in-hospital emergency care care and 10 focused on pre-hospital care. Nineteen of them included ANs while the remaining six included APs.

The included studies were assessed as being of high (n = 17) and of medium (n = 8) quality. Areas assessed to be of some concern in the studies rated as medium were related to: aim^{4 5 10 18 23 24}, sample^{4 11 18}, data collection^{11 18 24}, ethics^{10, 11, 23}, results^{10 18 24}, strengths and limitations^{4 5 10 11 22–24} and contribution to research^{4 5 23 24}. Questions of clarity, relevance, validity and reliability etcetera were included in the respective areas and a lack of clarity and relevance in the study presentation generated a lesser score.

The studies included 13 different professional titles for APs and ANs. One of the studies¹¹ focused on ANs in both pre-hospital and in-hospital emergency care, while in all other studies APs and ANs were separated into either pre-hospital or in-hospital emergency care. In pre-hospital care, they were given professional titles such as; paramedic practitioner^{4 12}, pre-hospital emergency nurse ¹⁰, emergency ambulance nurse², critical care paramedic^{23 24}, extended care paramedic²⁰, emergency care practitioner¹¹, advanced paramedic³ and pre-hospital emergency care nurse¹⁷, and their assignments were related to: ground ambulance^{3 11 12 17 20 24}, single responder unit^{2 10}, fast responder vehicle⁴, and rapid response vehicle and helicopter^{23 24}. Advanced nurses working in emergency departments or minor injury units had professional titles such as; emergency nurse practitioner ^{9 13 14 18 19 22}, nurse practitioner^{1 6–8}, advanced nurse practitioner^{5 21}, emergency care practitioner^{11 16}, advanced practice registered nurse²⁵ and acute care nurse practitioner¹⁵. The studies focused on assignments in emergency department care, including fast track and urgent care^{1 5–9 11 13 15 18 19 21 22 25}, and minor injury units^{13 −16}.

The descriptive analysis disclosed four themes with two subthemes, respectively (Table 4).

The theme Versatile care reflects on the scope of practice of APs and ANs diverse assignments in different settings related to the management of different patient categories, with different medical needs at different levels of care ^{1–12 15–17 19–25}. To some extent, diverse assignments carried out in different settings might also possibly reflect a different focus in advanced level education.

Pre-hospital and in-hospital emergency care is characterized by being the first contact of care for patients, and traditionally it means management and care of all patient categories. Management of all patient categories included assessment and treatment of patients of different ages with a variety of illnesses and injuries covering the whole acuity (priority) spectra, from the most critical patients through to non-critical patients. Fifteen of the studies were related to APs and ANs’ service in pre-hospital and in-hospital emergency care, with no specific study aim related to specific patient categories^{2-5 7 9 11 15 21 24 25}.

Eleven studies focused on APs and ANs’ service in relation to defined patient categories. In single responder units, ANs addressed potentially critical patients¹ and non-critical patients¹⁰. APs were studied in relation to older people⁴ suffering minor conditions in the community¹². Children with minor conditions treated by advanced nurses were focused on in another study¹⁶. Potentially critical patients were studied; ANs’ assessment and treatment of patients with head trauma¹⁷ and APs performing pre-hospital anaesthesia in a critical care team²³. ANs were studied in relation to patients with minor injuries and illnesses²². ANs’ assessment and treatment of foot and ankle injuries were studied in one study⁶ and minor musculoskeletal trauma was studied in another¹⁹. Pain management prescribed by ANs at the emergency department was studied in yet another study⁸.

The theme Safe care based on precision and accuracy reflects on APs and ANs’ diagnostic and decision-making skills, level-of-care decisions and patient safety during the process of care ^{1–17 19–25}.

APs and ANs are involved in the entire process of care for some patients, while for others they are more involved in assessment and treatment. APs and ANs made assessments such as patients’ clinical diagnoses and prediction of hospital admission³, X-ray and X-ray interpretations^{6 13 15 19 21 22 25}, pain management^{8 21}, performing and interpreting arterial blood gas tests¹⁵, and echocardiograms^{15 25}, to treatments, referrals and discharge^{9 11 13 16}. Furthermore, they made decisions regarding level of care^{10 12 20}, assessments in accordance with the triage system^{10 13} and clinical guidelines¹³ for head trauma¹⁷. Three pre-hospital studies described assessment and treatment related to potential critical patients^{17 23 24}. In one of the studies, assessments using ultrasound were described²⁴.

Treatments carried out by APs and ANs can possibly be categorized as the management of critical and non-critical patients. Examples of non-critical patient treatments in pre-hospital care (non-conveyance to hospital) included; dealing with back injuries, tissue injuries, asthma, intoxications²⁰ and protocol-led dispensing of medications such as analgesics, antibiotics and tetanus¹². Examples of treatment of potentially critical patients included dealing with chest and abdominal pain²⁰ and patients with head trauma¹⁷, organizing rapid sequence induction of anaesthesia, maintaining anaesthesia²³, creating surgical airways and performing central venous access and thoracotomy²⁴. Examples of ANs’ treatment of non-critical patients at the emergency departments or minor injury units were; taking care of minor injuries and illnesses^{5 9 14 21 22}, musculoskeletal trauma^{6 19} and suturing¹⁵.

A number of specific procedures related to both non-critical patients and critical patients performed by ANs were described in emergency department context^{1 25}. Examples of procedures related to critical patients were adult and child cardiopulmonary arrest, advanced airway management and balloon tamponade for oesophageal varices. Two studies described ANs’ management of patients in relation to the Australasia triage scale, and very few patients were managed in the two most urgent triage categories (critical patients), that is no patients⁶ and one patient (1.6%)⁷.

Patient safety relates to APs and ANs service in relation to standard pre-hospital or in-hospital emergency care alternatives, and to what extent the outcome of care reflects patient safety. Diagnostic precision was measured in several studies. APs assessed the correct diagnoses in 70% of cases (525/748) and the correct diagnoses were extremely high for issues concerning airway and ventilation, burns, paediatrics and pregnancy emergencies but weaker for allergies and anaphylaxis³. ANs’ assessment of patients with fractures and interpretation of X-rays showed high accuracy (0%–3% missed fractures)^{5 6 19 21 22}. APs’ management of older people was found to be as safe as standard pre-hospital care and transport to emergency department, in relation to re-presentation at hospital within 7 days or rates of suboptimal care¹². ANs in a single responder unit assessed 529 patients, 200 of them stayed at the scene or were referred to primary care and 39 patients attended the emergency department within 72 hr with residual symptoms¹⁰. One pre-hospital study investigating the assessment and treatment of patients with head trauma indicated suboptimal patient safety¹⁷, finding that ANs assessed and triaged patients differently according to gender (all core vital signs for women were assessed in 22,9% versus men in 27,2%) and Glasgow Coma Scale was assessed in 30% of the patients.

The theme Autonomous performance within boundaries reflects APs and ANs’ assignments and performance which to a high degree are characterized by individual and autonomous practice ^{1–9 11–25}. However, much of the autonomous practice is conditional to defined categories of patients, assessment and treatment protocols, and they are thereby also affected by the presence of other health care providers.

In the included studies, APs and ANs either performed autonomously^{2 4–6 10 12–14 16 18–22}, with colleagues or in teams^{17 23}, or both^{1 7–9 24 25}. One study had a design where an APs listened to emergency calls (emergency dispatch centre) to predict hospital admission³. APs and ANs in pre-hospital and emergency department settings autonomously provide emergency health care for different categories of patients.

The scope of practice of APs and ANs are affected by the presence of other providers, institutional culture and regulations of practice. The role of APs and ANs is, to some extent, to fill a gap between the nurses’ and physicians’ service, in order to extend registered nurses’ practice into advanced practice. In some of the reviewed studies, there are examples of APs and ANs being directed to defined patient categories^{4 6 7 9 13 14} and that the service relies on protocols and guidelines^{13 17}. The regulators of practice thereby set the boundaries for APs and ANs’ service and uncertainty with these boundaries, between physicians’ skills and roles, was perceived as a barrier towards ANs’ practice in emergency department settings¹⁵. Protocol use, referral rights and prescribing authority were considered ways that nursing management and medical staff can indirectly control the advanced nurses’ role¹³. Lack of understanding of the ANs’ scope of practice²⁵ and lack of evidence of APs’ service²⁴ were also perceived barriers for advanced practice.

The theme Beneficial towards patients and society reflects the outcome of APs and ANs’ service, which is perceived as being of high quality and facilitating the care processes with less resource utilization ^{2– 4 6– 9 11 14 16 19–23}.

There was a high level of patient satisfaction associated with ANs’ service in emergency departments, that is with waiting time, pain management, advice given and communication⁴. Another study measuring waiting time of ANs’ service found that patients with minor injuries in an emergency department setting had to wait 14 min to be seen by an AN⁹. Patients presenting with pain at the emergency department were evaluated and the majority received analgesia from advanced nurses within 30 min ⁸. The vast majority of patients (97%) treated by ANs in a rural urgent care centre perceived that the quality of service was of a high standard¹⁴. A pre-hospital single responder unit project was evaluated and findings showed that average waiting time decreased by 49%, from 26 to 13 min during the time of the project². Contrary to other studies, one study's findings indicated that patient satisfaction was not influenced by waiting time¹⁴. Another study demonstrated that patients were satisfied with the pre-hospital assessment and treatment by ANs and especially by the avoidance of unnecessary transfers to hospital²⁰.

Several studies compared APs and ANs’ service with standard care alternatives and if the same results can be achieved with less resources it reflects aspects of cost efficacy. One study compared ANs’ and emergency department doctors assessment of foot injuries using the Ottawa Ankle Rules (requiring X-ray assessment 78.4% versus ED-Dr: 88.6% and detection of significant fracture 17.6% versus ED-Dr: 22.8%) and with almost similar results⁶. Another study compared ANs’ care with standard emergency department care and found no differences between the two groups regarding waiting time (41,5 min versus 39,4 min), length of stay (143,5 min versus 146,7 min), number of patients who left, patient re-presentations within 48 hr, and the use of evidence-based guidelines⁷. In studies comparing physician-led care with AN-led care, there were no differences in interpretative errors of X-rays^{19 21} and ANs were found to be equivalent or better in the areas of pain management and reducing waiting time²¹.

No significant differences were found between the ANs and physicians in terms of missed injuries or inappropriate management. Furthermore, there was no significant difference in waiting time for treatment from physicians versus ANs (20 min versus. 19 min). At 85 min, the mean length of stay was significantly longer for physicians; ANs had a mean length of stay of 65 minutes²². APs treating older people with minor conditions in the community were as safe as standard pre-hospital transfers and treatment within the emergency department, in terms of hospital re-presentation within 7 days or rates of assessed suboptimal care².

Team members in a critical care unit were compared regarding intubation success rate. Successful intubation on the first attempt was achieved in 85% versus. 78% for physicians and APs, respectively²³. Patient consultation was compared between ANs and physicians and while there was no significant difference in consultation length, ANs and general practitioners (GPs) focused more on educating patients and medical condition or therapeutic regimen than emergency department doctors¹⁶.

Cost effectiveness was studied, comparing APs with standard pre-hospital emergency care in older people, and the total costs were found to be lower for APs⁴. When costs and quality-adjusted life-year (QALY) were looked at simultaneously, APs’ care had a 95% chance of being cost effective. APs’ management of older patients had lower rates of transport to, attendance at (53% versus. 84%), and time spent in the emergency department (126 min versus. 211 min) than standard pre-hospital care³. However, APs spent more time on scene than standard pre-hospital care and also increased older patients’ use of health services in the days after the incident. A single responder unit (ANs) project reduced the amount of ambulance calls during the project time by cancelling 33% of the calls, an increase by 12% before the project began². In one study describing pre-hospital developments, ANs assessed, treated and discharged 43% of their patients¹¹. However, in relation to standard care providers treating children with minor conditions, ANs were found to be less effective in terms of discharging fewer patients and referring more patients to hospital or primary care¹⁶.

Although, the current integrative review found diversities regarding professional titles, roles, scope of practice and available support networks including physical resources, among APs and ANs. The findings also show that these health care professionals have a huge impact on patients’ entire trajectory of care including assessment, treatment, referral and discharge. Patients are to a high degree satisfied with APs and ANs’ care and services. Several studies indicate that patient assessments and treatments were of equal or better quality than standard alternatives. When patients are assessed and treated already at the pre-hospital stage, unnecessary ambulance transports to emergency departments are avoided, leading to both reduced suffering and wise use of existing resources. The findings described above are congruent with previous studies (Cooper & Grant, 2009; Evans et al., 2013; Sheer & Wong, 2008; Williams, 2017).

APs’ and ANs’ ability to perform autonomously in pre-hospital and in-hospital emergency care settings permeated most of the included studies. However, uncertainty and the blurring of boundaries between their professional roles and the roles of other health care providers, such as physicians or managers, were found to restrict the optimal use of their competence. A common understanding of respective professional roles and competence is vital for collaboration. Further research contributing to strengthening and clarifying the evidence base relating to APs’ and ANs’ roles and competence is needed.

An interesting result was shown in the theme Versatile care, which included the challenge of being specialists versus generalists in pre-hospital and emergency care settings. These contexts demand general and broad competence in contrast to critical care or anaesthetic care where ANs represent advanced specialists (experts in a certain area, described in curriculums and defined by settings and patients). Wilson et al., (2015) claim that pre-hospital clinicians should be generalists, which logically also translates to emergency department clinicians – as both represent the first contact of patients seeking the respective service. The broad area of expertise needed in pre-hospital and emergency care might also provide an explanation for the comprehensive use of clinical protocols. A future challenge and important task for APs and ANs and their management is to ensure optimal and flexible use of advanced competence when caring for a variety of patient categories utilizing clinical protocols combined with holistic and person-centred care.

Effective resource management seems essential for future sustainable health care. In this study, APs and ANs’ service was found to hold the same quality as the alternatives, standard care or physician-led care, and to be beneficial towards patients and society. Striving for sustainability in pre-hospital and in-hospital emergency care includes the optimal use of APs and ANs competence, and a self-evident strategy is therefore to direct assignments to the profession that can complete it at the lowest total cost with retained quality (SOU:, 2016:2).

The results in this study, with some exceptions, lacked examples of how APs and ANs contributed to advanced care in critical situations. Time critical pre-hospital care outcomes, to some extent, depend on the ability to “do the right things early on” (Wilson et al., 2015) and physician-led pre-hospital service is limited and cannot always be expected to be available. Aspects of core competencies (Cronewett et al., 2009), the holistic perspective on competence (Black et al., 2008; Cowan et al., 2007) and the domains of advanced nurse practice (Dowling et al., 2013; Jokiniemi et al., 2012; Mantzoukas & Watkinson, 2007) were hardly mentioned in the studies included in this review. However, aspects of these competencies are used in clinical encounters and all of the included studies had an overall clinical focus. With studies exploring advanced practice by APs and ANs in relation to critical patients and to all advanced practice domains, further motivation can be achieved for utilization of advanced competence.

Using wide inclusion criteria for population and setting has given this review the desired richness and variation of examples. The decision was based on the expected limited amount of studies of APs and ANs in pre-hospital care. The inclusion criteria of paramedics and nurses with advanced level of education were a strategy to minimize the risk of missing relevant professional titles, which worked out to some degree, but also led to the exclusion of some articles during the selection process (primarily due to the inability to find a formal advanced level of education in populations).

The quality of the selection of studies and data evaluations was considered a strength. At each step of the selection process, quality assessment and data extraction, all three authors were involved in discussions until consensus was reached. The modified critical appraisal tool used included a numeric scoring system that allowed individual assessment and facilitated continuity in the assessments. In 21 studies, the level of quality was agreed on already at an individual level. All included studies were discussed at a consensus meeting and their quality assessment was agreed on. However, using another critical appraisal tool might have rated the studies differently.

Conducting this integrative review focusing on APs and ANs’ practice within pre-hospital and in-hospital emergency care settings has not been carried out without challenges. The biggest challenges were to comprehend the phenomena of interest and to summarize and display the findings. The vast amount of professional titles, generated from different advanced level education programmes with different curricula and goals, was evident in the present review. To manage all the professional titles, the included populations were referred to as APs and ANs, which may have implications for understanding, reliability and validity. To compensate for that, numeric referencing of studies has been used for transparency and traceability in the result section, see Tables 3 and 4.

With a more comprehensive understanding of the heterogeneity of professional titles, the search terms used could have been improved to further strengthen the study. Olaussen et al., (2017) discussed the complexity of finding relevant search terms relating to paramedics and also created two search filters, which would possibly enabled optimized sensitivity and specificity in database search, in this study. An improvement of search terms appears to be best motivated in relation to the “outcome” related terms, that is paramedic role, scope of practice, further variations of competence, skills and to the domains of advanced nursing practice (Dowling et al., 2013; Jokiniemi et al., 2012). Possibly, qualitative studies could also have been included with improved search terms.

It was challenging to synthesize the findings, due to the studies different methodological approaches, variables and detail levels. With such a broad phenomenon of interest, specificity may be lost in the synthesis of findings, which was a calculated risk motivated by the possibility of contributing to future policy making, competence strategies and future research. Consequently, this synthesis ended in an attempt to describe, count, compare and cluster, noting patterns and themes from findings with different abstraction and detail levels (Whittenmore & Knafl, 2005).

The findings showed various examples of interventions performed by APs and ANs, in different roles, context and to defined or undefined patient categories. The care and service performed by APs and ANs in pre-hospital and in-hospital emergency care has the potential to be safe, of high quality, and of public benefit. However, their roles and functions may be further established and extended by exploring the boundaries between theirs and physicians’ scope of practice, and the domains included in the concept of “advanced practice.”

The authors declare that they have no competing interests.

We are grateful to librarian Annelie Ekberg-Andersson at Karlstad University for her assistance during the search process and to Gabrielle Mackay Thomsson for language revision.

The authors designed the study together. JJ performed the literature search and all three authors actively took part in the selection process. JJ drafted the manuscript and JN and ML gave advice and made critical revisions throughout the process of conducting this study.

The authors confirm that the data supporting the findings of this integrative review are available within the articles in the result section, indicated by numbers, in the Tables 3 and 4 and in the references.