Emergency admission risk stratification tools in UK primary care: a cross-sectional survey of availability and use

Background Stratifying patient populations by risk of adverse events was believed to support preventive care for those identified, but recent evidence does not support this. Emergency admission risk stratification (EARS) tools have been widely promoted in UK policy and GP contracts. Aim To describe availability and use of EARS tools across the UK, and identify factors perceived to influence implementation. Design and setting Cross-sectional survey in UK. Method Online survey of 235 organisations responsible for UK primary care: 209 clinical commissioning groups (CCGs) in England; 14 health boards in Scotland; seven health boards in Wales; and five local commissioning groups (LCGs) in Northern Ireland. Analysis results are presented using descriptive statistics for closed questions and by theme for open questions. Results Responses were analysed from 171 (72.8%) organisations, of which 148 (86.5%) reported that risk tools were available in their areas. Organisations identified 39 different EARS tools in use. Promotion by NHS commissioners, involvement of clinical leaders, and engagement of practice managers were identified as the most important factors in encouraging use of tools by general practices. High staff workloads and information governance were identified as important barriers. Tools were most frequently used to identify individual patients, but also for service planning. Nearly 40% of areas using EARS tools reported introducing or realigning services as a result, but relatively few reported use for service evaluation. Conclusion EARS tools are widely available across the UK, although there is variation by region. There remains a need to align policy and practice with research evidence.


INTRODUCTION
Emergency admission risk stratification (EARS) tools have been widely promoted to help identify vulnerable people who may benefit from intervention in primary or community care. 1,2 With rising emergency admissions that are costly and associated with poor patient outcomes, 3,4 it was hoped that EARS could support efforts to positively impact on patient experience, health, and associated costs (the 'triple aim'). 1 The tools use clinical data, such as diagnoses, medication, and medical histories, alongside demographic data to calculate the risk of emergency hospital admission, typically within 12 months. 5,6 Interest in EARS tools has accelerated over recent years as reports have emerged that up to a fifth of emergency admissions could be prevented through early intervention in primary care, 7 while improvements in data availability, quality, and linkage have improved the feasibility of generating risk scores from routine data.
The literature identifies four stages that are essential to embed such clinical prediction rules in practice: rule development; validation in an external population; impact and effectiveness studies; and implementation in clinical practice. [8][9][10] Much of the EARS literature focuses on the first two stages, with systematic reviews focusing on model derivation, technical characteristics, and performance. 5,11,12 There is less literature addressing effectiveness, implementation, and impact. Of the studies that use EARS to select patients for community interventions (typically case management or virtual wards), none reported reductions in admissions, cost savings, or significant patient benefit. [13][14][15][16] Although there is no strong evidence supporting the clinical or cost effectiveness of interventions incorporating EARS tools, there has been concerted political and practical investment in EARS across the developed world. [17][18][19] In the UK, state funding supported the development of risk models: Patients at Risk of Readmission (PARR) and the Combined Model in England; Scottish Patients at Risk of Readmission and Admission (SPARRA) in Scotland; and Predictive Risk Stratification Model (PRISM) in Wales. At the time this survey was distributed, all four nations had GP contracts that funded primary care 'case management' of patients at high risk of admission.
Use of EARS tools within GP contracts is not mandatory, but is dependent on local commissioning decisions. In 2011, NHS England decided to open the market for the supply of EARS tools so as to promote commercial investment and choice, 20 and encourage clinical commissioning

Abstract Background
Stratifying patient populations by risk of adverse events was believed to support preventive care for those identified, but recent evidence does not support this. Emergency admission risk stratification (EARS) tools have been widely promoted in UK policy and GP contracts.

Aim
To describe availability and use of EARS tools across the UK, and identify factors perceived to influence implementation.

Design and setting
Cross-sectional survey in UK.

Method
Online survey of 235 organisations responsible for UK primary care: 209 clinical commissioning groups (CCGs) in England; 14 health boards in Scotland; seven health boards in Wales; and five local commissioning groups (LCGs) in Northern Ireland. Analysis results are presented using descriptive statistics for closed questions and by theme for open questions.

Results
Responses were analysed from 171 (72.8%) organisations, of which 148 (86.5%) reported that risk tools were available in their areas. Organisations identified 39 different EARS tools in use. Promotion by NHS commissioners, involvement of clinical leaders, and engagement of practice managers were identified as the most important factors in encouraging use of tools by general practices. High staff workloads and information governance were identified as important barriers. Tools were most frequently used to identify individual patients, but also for service planning. Nearly 40% of areas using EARS tools reported introducing or realigning services as a result, but relatively few reported use for service evaluation. groups (CCGs) to coordinate local EARS requirements. However, little is known about EARS implementation at macro (nation), meso (commissioning group or health board), and micro (practice) levels; whether tool use has been limited to the GP contract case management activity; and what factors explain variation in accessibility and use. This study aimed to describe EARS tool implementation across the UK in terms of scale of uptake, which tools were available, uses of tools, and factors perceived by commissioners to influence usage.

METHOD Design
Cross-sectional online survey of NHS organisations with responsibility for primary care commissioning in the UK. This article accords with the Checklist for Reporting Results of Internet Electronic Surveys and the checklist for Strengthening the Reporting of Observational studies in Epidemiology. 21,22

Participants and recruitment
The authors approached all 235 NHS commissioning organisations: 209 CCGs in England; 14 health boards in Scotland; seven health boards in Wales; and five local commissioning groups (LCGs) in Northern Ireland. Web searches and telephone enquiries identified appropriate contacts, identifying 264 across the 235 organisations. An email list was obtained from Binleys' Database of NHS Commissioning Organisations including: CCG accountable officers; GP board members; and leads for commissioning acute unplanned or nonelective care, long-term conditions, primary care quality, information services, and data protection. Thus, 1298 contacts were identified in total.
Each person was emailed, with up to four reminders. All emails were personalised, and included a participant information sheet. The content of each reminder email was varied to increase impact, following the advice of Dillman et al. 23 In all correspondence, the importance of gaining responses from organisations with or without EARS tools available in their area was emphasised. The SurveyMonkey platform was used to distribute emails and manage survey responses, and optimise the survey for desktops, tablets, and smartphones. 23 The survey was live from November 2015 to May 2016. An implied consent model was used, which infers willingness to participate from survey completion. 24

Survey instrument
With no existing relevant instrument available, the authors developed a questionnaire to address the study's objectives. Early versions were piloted with EARS specialists, survey methodologists, and with volunteers from 12 commissioning organisations from across the UK. Three volunteers took part in cognitive interviews to further test for ambiguity and usability, resulting in modifications to wording and the order of questions.
Lastly, technical aspects of the webbased survey management were tested, including mail merging and data extraction. The final questionnaire included closed questions and open-ended text questions, and addressed: responders' characteristics; EARS tool availability; local use of EARS; and the role of specified factors in influencing EARS use (using a Likert scale from 1 [marked as 'not at all important'] to 6 ['very important']). These factors were derived from relevant published literature. [25][26][27][28] Text boxes enabled the capture of additional influencing factors not provided in the pre-identified list.

Analysis
IBM SPSS Statistics (version 22) was used to estimate unweighted descriptive statistics and cross tabulate responses by nation, size of organisation, and whether the responder was clinical or not. To analyse the question about the proportion of practices with access to an EARS tool, the midpoint of the range offered was used, namely 17% for '1-33%',

How this fits in
EARS tools are reasonably accurate in terms of predicting which patients are at highest risk of admission to hospital in the following year. UK policy and GP contracts have advocated and incentivised the use of EARS to facilitate the provision of targeted care to those at highest risk, with an assumption that this would reduce emergency admissions. Recent evidence from a pragmatic randomised trial in general practice has shown that the introduction of EARS was associated with an increase in emergency admissions and the number of days in hospital. To the authors' knowledge, this study provides the first evidence relating to the implementation of EARS tools across the UK; policymakers and practitioners need to now consider the next steps in managing emergency admissions to hospital, and the role of EARS. 50% for '34-66%', and 83% for '67-99%', alongside 0% and 100%. NVivo (version 11) was used to manage textual replies and group them thematically. One author led coding, supported by a second author. Comments were selected for this paper to illustrate themes.

Profile of responses
The authors received responses relating to 171 (72.8%) of the 235 organisations approached (Table 1).
Five responders each covered two CCGs, and one responder addressed the five Northern Ireland LCGs, due to a national approach. The total number of contributors was therefore 161. Seventeen duplicate responses were excluded. Participating organisations supported a mean of 42.9 practices each, and a mean population of 292 000. The 64 non-responding organisations supported a mean of 43.5 practices each, and a mean population of 277 000. The majority of responses came from employees of the commissioning group or health board (n = 140 organisations, 81.9%). Median survey completion time was 9.2 minutes. Free-text comments were provided for 129 responses (75.4%).

Access to EARS tools across the UK
Of the 171 responding organisations, 148 (86.5%) reported availability of EARS tools to ≥1 practice in their area, but this varied widely by country (Table 2).
Overall, the authors estimate almost three-quarters of practices in responding areas had access to EARS tools: Northern Ireland (100%), Scotland (91%), England (76%), and Wales (14%), based on midranges as outlined in the Method section.
There were 39 EARS tools identified in use across the UK (Table 3 lists the main tools encountered). This included 37 in England (commercial and NHS tools), with the NHS versions often developed with or by Commissioning Support Units, who provide business intelligence support to multiple CCGs. In the other nations, only one tool was reported in each commissioning area -typically national NHS products -SPARRA in Scotland, PRISM in Wales, and a similar tool in Northern Ireland.

Factors encouraging and inhibiting access and use of EARS tools
The factors seen as most important in encouraging access and use were: engagement of practice managers (mean score 4.84), clinical leadership (mean score 4.77), and NHS commissioners (mean score 4.63) ( Table 4). Research evidence (mean score 3.59), case studies of benefits from other areas (mean score 3.36), and other NHS agencies (mean score 3.25) scored lowest. The importance of the unplanned admissions enhanced service in England was flagged in text comments, as well as: 'Ease of use and regular reminders about updated data.' (LCG A, Scotland); and  The factors perceived most important in inhibiting access to and use of EARS tools related to capacity -workload of practice staff (mean score 4.94) and workload of other care staff (mean score 4.08) ( Table 5). Considered slightly less important was information governance issues (mean score 3.90). Text comments on other factors inhibiting general practice uptake highlighted some perceptions of a lack of value or confidence in tool inputs and outputs, and commissioning challenges: 'For many practices, the tool did not identify many patients who were not on their horizons already.' (CCG C, South of England) 'Biggest issue has been lack of reliability of the tool.' (CCG D, North of England) 'The CCG has struggled to commission an appropriate EARS [tool]; some of this has been related to contradictory offers from different providers, including local Commissioning Support Unit.' (CCG E, Midlands and East of England)

Use of EARS tools
The majority of areas with access to EARS tools reported their use by GPs or other professionals to identify individual patients at risk (Table 6). Many areas were using the tools to support service planning or development at the level of commissioners or 'practice clusters or networks'; but only a fifth of commissioners reported using EARS for service evaluation.
When asked if the introduction of EARS tools had resulted in the 'introduction of new services' or the 'redesign of existing services' in their area, 58 of 148 organisations (39.2%) confirmed that they had (data not shown).
Text comments (n = 57) revealed a diverse range of service innovations operating mainly at the multipractice level (for example, locality) following the introduction of EARS tools. These initiatives had impacted on or introduced a range of staff roles (for example, care coordinators and community matrons), and new multidisciplinary services (for example, frailty teams, integrated care teams, hospital at home, and telecare):

DISCUSSION Summary
Widespread implementation of EARS tools across the UK was found, with variation in implementation and use at macro (nation), meso (commissioning group), and micro (practice) levels. This variation extended to the choice of EARS tools. In England, Scotland, and Northern Ireland the majority of areas reported changing or introducing services due to the introduction of EARS tools. Human factors as drivers of EARS implementation were identified, with practice managers, clinical leaders, and NHS commissioners in key roles. However, the main barriers to implementing EARS tools in general practice were concerns about workload and information governance. For both implementers and non-implementers, research evidence, or the lack of, was a relatively low scoring factor. Only a fifth of sites were contributing to evaluations.

Strengths and limitations
To the authors' knowledge, this is the first study to examine implementation of EARS across the UK. The main strength of this study lies in the comprehensive coverage; 171 (72.8%) of the 235 NHS commissioners across four nations, which is notably higher than previous CCG surveys, where coverage was 27%, 29 43%, 30 and 52%. 31 Nevertheless, non-responders could differ from responders, and the views of front end staff may differ in comparison to this survey of commissioning bodies.
A further potential limitation is the variation in responder profile; a mix of clinical and non-clinical staff. However, the authors believe this reflects the profile and involvement of both staff types in the commissioning process.

Comparison with existing literature
Most of the literature on EARS has focused on model development and validation.
The survey indicated that fewer than a fifth of Welsh practices had a tool available, reflecting the Welsh Government's decision to delay rolling out EARS, pending the results of a randomised trial (PRISMATIC) in 32 practices within one health board area. 32 The findings justified the cautious approach, as the intervention was shown to be ineffective and resulted in increased costs, emergency admissions, and bed days. 13,32 Further studies published after the widespread roll out of EARS, including a systematic review of case management for at-risk individuals (not necessarily identified through EARS tools), and an observational study of multidisciplinary case management for risk stratified patients, found increased costs and health service use. 15,33 It is far from uncommon for health innovations to be introduced at scale and great cost without an understanding of their costs and effects. Notable examples include the introduction of NHS Direct and the LUCAS mechanical chest compression device. 34,35 Implications for research and practice Widespread implementation of EARS across the UK represents a huge investment of time, energy, and financial resource. At the time of the major nationwide introduction of EARS associated with the GP contracts, there was no research evidence supporting the EARS-led case management approach. Implementation was based on assumptions that it would reduce admissions and improve care, but in the authors' view this idealised perspective was not a reasonable foundation for the level of investment that followed. Nor was due consideration given to the potential for unintended consequences, including unmet need. 36,37 Nonetheless, case management of those at high risk of admission continues as an international healthcare priority. EARS was the most common 'intervention' within the 50 NHS integrated care 'Vanguard' sites, 38 and use is recommended in National Institute for Health and Care Excellence clinical guidance on multimorbidity 39 and major programmes elsewhere, for example, Australia 40 and Catalonia. 41 EARS tools have been joined in the GP risk stratification armoury by frailty identification tools. Notable among these is the Electronic Frailty Index, 42 which is recommended for use in the NHS England GP contract to identify frail older adults for preventive care and admission avoidance. 43 As with EARS tools, frailty tool use has been encouraged in advance of effectiveness studies (for example, PROSPER 44 ). Like any such innovation, in the longer-term, the use of EARS and frailty tools will depend on evidence of benefit. 28,45,46 The academic community must therefore encourage evaluation in line with the edict to base innovation on rigorous evidence. 1,2,47 This is not always forthcoming -a large pan-European study of EARS concluded that data on effectiveness were simply not available. 17 This survey has confirmed that primary care in the UK responded to policy and contractual initiatives by widespread implementation of EARS tools. This may be deemed a success, arming general practice with infrastructure and data to support improved patient care. However, emerging evidence from studies completed after the widescale implementation suggest that the use of EARS is costly and ineffective, with lost opportunities from alternative expenditure and activity. Going forward, policymakers must consider the current evidence base in decisions on the future use of emergency admission, and similar risk stratification and case identification tools.