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Identifying ‘avoidable harm’ in family practice: a RAND/UCLA Appropriateness Method consensus study

Abstract

Background

Health care-related harm is an internationally recognized threat to public health. The United Kingdom’s national health services demonstrate that upwards of 90% of health care encounters can be delivered in ambulatory settings. Other countries are transitioning to more family practice-based health care systems, and efforts to understand avoidable harm in these settings is needed.

Methods

We developed 100 scenarios reflecting a range of diseases and informed by the World Health Organization definition of ‘significant harm’. Scenarios included different types of patient safety incidents occurring by commission and omission, demonstrated variation in timeliness of intervention, and conditions where evidence-based guidelines are available or absent. We conducted a two-round RAND / UCLA Appropriateness Method consensus study with a panel of family practitioners in England to define “avoidable harm” within family practice. Panelists rated their perceptions of avoidability for each scenario. We ran a k-means cluster analysis of avoidability ratings.

Results

Panelists reached consensus for 95 out of 100 scenarios. The panel agreed avoidable harm occurs when a patient safety incident could have been probably, or totally, avoided by the timely intervention of a health care professional in family practice (e.g. investigations, treatment) and / or an administrative process (e.g. referrals, alerts in electronic health records, procedures for following up results) in accordance with accepted evidence-based practice and clinical governance. Fifty-four scenarios were deemed avoidable, whilst 31 scenarios were rated unavoidable and reflected outcomes deemed inevitable regardless of family practice intervention. Scenarios with low avoidability ratings (1 s or 2 s) were not represented by the categories that were used to generate scenarios, whereas scenarios with high avoidability ratings (7 s 8 s or 9 s) were represented by these a priori categories.

Discussion

The findings from this RAND/UCLA Appropriateness Method study define the characteristics and conditions that can be used to standardize measurement of outcomes for primary care patient safety.

Conclusion

We have developed a definition of avoidable harm that has potential for researchers and practitioners to apply across primary care settings, and bolster international efforts to design interventions to target avoidable patient safety incidents that cause the most significant harm to patients.

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Introduction

Health care-related harm is an internationally recognized threat to public health and wellbeing. There is a global transition towards primary care-led health care systems [1] and countries like the United Kingdom demonstrate upwards of 90% of care encounters can be delivered in ambulatory settings [2]. As other countries transition to emulate those with predominantly extended family practice-based care models, a clear understanding of avoidable harm is needed to enable health care systems to identify and learn from the most serious incidents and the contributory factors amenable to intervention.

Most patient safety research has focused on specialist-care settings resulting in a greater awareness of the frequency and causes of health care-related errors, and the resulting burden of disease [3,4,5]. Patient safety research in primary care has been slower [1, 5] although the profile of patient safety in primary care is increasing through the World Health Organization’s (WHO) Safer Primary Care Expert Group, and more recently by the US National Patient Safety Foundation’s call to look “beyond hospitals to the full care continuum” [5,6,7,8]. A recent systematic review investigating the frequency and burden of harm in family practice concluded 2–3% of primary care encounters involve a health care-related error, and around one in 25 of those result in a significant harm outcome that has a substantial impact on a patients’ well-being. Included studies were notably heterogeneous in terms of their variability in study design and inconsistent definitions of outcome measures [9].

The WHO has recognized that standardized definitions of core terminology needs to be developed to permit the identification of health care-related harms in primary care and comparisons across settings, countries and over time [9]. We aimed to define “avoidable harm” to be used in future observational studies in family practice.

Methods

RAND/UCLA Appropriateness Method

The RAND/UCLA Appropriateness Method, an established approach for the development of health indicators [10,11,12,13,14], was used to develop a definition of “avoidable harm” to be understood and applied in family practice contexts. This method is used to combine scientific evidence with the collective judgement of experts (e.g. practising FPs) to achieve a consensus opinion from the group [10]. For example, experts are typically provided with hypothetical scenarios and an overview of relevant research evidence to support their decision-making, which in this case will be about the “avoidability” of the incidents that led to a significant harm outcome (this process is described in more detail later) [11,12,13,14].

Generation of scenarios

Scenarios were developed by members of the research team (ACS, AC, HPE, AA) with extensive experience in analyzing patient safety incident reports from family practice [15]. Our working definition of “significant harm” was informed by an international classification of patient safety developed by the WHO and was inclusive of definitions of moderate harm, severe harm and death outcomes (see Table 1) [16]. This meant that we focused on harm outcomes that have more than a temporary impact on patients (i.e., extra observation, investigation, review or minor treatment).

Table 1 Working definition of “significant harm” in primary care

We identified 20 significant harm examples to reflect a diverse range of International Classification of Diseases 10th Edition (ICD-10) categories, each with 5 different scenarios (100 scenarios in total, see Additional file 1 for examples). A matrix was used to guide the scenario writing process and we endeavoured to include the following characteristics: a range of unavoidable to avoidable conditions; different types of patient safety incidents (e.g. medication errors, communication failures); errors of commission (i.e., doing something wrong) and omission (i.e., failing to do the right thing). The scenarios were amended and finalized following discussion with a RAND/UCLA Appropriateness Method expert (SC), the research team and a pilot exercise with practising FPs.

Research evidence for each scenario

Relevant and current best-evidence guidelines (e.g. National Institute for Health and Care Excellence [NICE] and Scottish Intercollegiate Guidelines Network [SIGN] guidelines) were identified for each scenario. These were compiled in a supplementary research evidence document that experts were advised to consult for each scenario. If an evidence base for the scenario was not available, the experts were requested to apply the Bolam test [17, 18]; that is, to apply the standards they believe would be held by a responsible body of medical opinion.

Recruitment of panelists

We recruited FPs through contacts at the Royal College of General Practitioners’ faculties in the East Midlands, London and the North-West of England. Contacts distributed an invitation email to FPs to participate in the consensus building exercise. FPs were eligible to take part in the study if they have had at least 5 years’ experience clinical practice. FPs were excluded if they had been barred from practising by the GMC.

Two-round consensus process

In round one (October 2015), the “panel members” (i.e., experts) were invited to complete an online survey that contained the 100 scenarios (included in Additional file 1). They were required to read each scenario and the relevant accompanying evidence. Panelists were provided with our working definition of avoidability, developed within the research team, which was “an error of omission (failing to do the right thing) or commission (doing something wrong) in health care management that reflects a failure to follow acceptable practice at an individual or system level”. They were then asked to use their professional experience as a practitioner, in conjunction with the evidence summaries provided, to judge the extent the scenarios were avoidable using a 9-point Likert-type scale that ranged from 1 = “totally unavoidable” to 9 = “totally avoidable” (see Table 2 for definitions and examples).

Table 2 Frequency of categories of avoidability with definitions and examples

All data were exported to a Microsoft Excel (Redmond, Washington: Microsoft, 2010) spreadsheet and the median score for all items and the percentage agreement for items scoring “7 and 8” (“probably avoidable”) or 9 (“totally avoidable”) i.e., the frequency of the highest scores were calculated. The medians and percentage agreements obtained for each item were then included in the revised survey that formed the basis for round two of data collection, giving participants the opportunity to revise their scoring on the basis of other participants’ rankings.

In round two, panel members met for a one-day face-to-face meeting (November 2015), co-chaired by a RAND/UCLA Appropriateness Method expert (SC) and an experienced FP (AC). Field notes were made by two non-participant observers (BB and CS) and a medically qualified researcher with qualitative expertise (ACS). The panel discussed each scenario as a group, and following those discussions independently re-rated each scenario. Each panelist had a customized printed rating sheet that included their initial round one rating, and for comparison, the frequency distribution of ratings from all other panelists (anonymized) and the overall group median rating.

During round two, panelists rated the scenarios as written. All panelists participated in discussions, and those with outlying scores for a scenario had the opportunity to explain their justifications. In addition, wider justification was sought from the group around why they had reached consensus for each scenario. It enabled an exploration of areas of convergence and divergence across scenarios, giving participants the opportunity to identify the actions, conditions and characteristics of “avoidable harm”. These discussions enabled an iterative development of the definitions for each avoidability category.

Analysis

During round two, the level of consensus within the panel for each scale for each scenario was calculated in real-time. Ratings were: ‘unavoidable’ if the overall panel median ratings were in the tertile 1–3; ‘possibly avoidable’ if the overall panel median ratings were in the tertile 4–6; and, ‘avoidable’ if the overall panel median ratings were in the tertile 7–9. Agreement signified that no more than 20% of panelists’ ratings were outside the same 3-point tertile (that is, 1–3, 2–4, 4–6, 7–9) as the observed median (i.e., for a 12 person-panel, no more than 2 ratings outside any 3-point tertile). This method was identical to the one used in our previously published research [12]. Results are presented for the final (round two) ratings only. Observational field notes taken during panel discussions by ACS, CS and BB support our interpretation of the study findings [19].

We ran a post-hoc k-means cluster analysis on the avoidability ratings of the 100 scenarios using a 6-cluster solution and updated cluster centres iteratively. The 6-cluster solution was chosen because this was the number of characteristics (e.g. errors of omission or commission, timeliness issues) that were used by the team to develop the scenarios originally. We then classified the items in each cluster according to the avoidability rating of that cluster as well as which of the 6 characteristics that were used to develop the scenarios that cluster represented.

Results

Summary of participants

Twelve FPs participated as panelists from East Midlands (n = 9 (75%)) and London (n = 3 (25%)), England, with a roughly equal mix of males (n = 5 (42%)) and females (n = 7 (58%)). All participants were FPs with a specialist or generalist knowledge of patient safety. All 12 panelists participated in both rounds and were remunerated (£600 each) for their participation.

Panelists reached consensus for 95 scenarios (95%). Only five scenarios (5%) lacked consensus and this was due to differences in opinion of whether the harm arose from primary or secondary care.

Consensus categories of avoidability

Definitions of each avoidability category were iteratively developed by the panelists during round 2 discussions (Table 2).

If the outcome was directly attributable to the event described, then it was defined as totally avoidable (n = 1, rating of 9); for example, in scenario B5, where a patient was admitted to hospital with a gastrointestinal bleed following concurrent prescription of warfarin in combination with an oral non-steroidal anti-inflammatory drug over the previous two months. However, if there was any doubt that the event was directly attributable (there was a ‘but’) it became a 7 or 8 (n = 53, probably avoidable). For example, in scenario F5: a 60-year-old patient on methotrexate for rheumatoid arthritis did not have white cell count monitoring for six months. The patient presented to the family practice with an infection that was treated with antibiotics although later deteriorated and was admitted to hospital where a low white cell count was identified.

If the panelists felt that attribution was 50/50 or the scenario did not give them enough information to decide either way, either a rating of 4, 5 or 6 was given (n = 10, possibly avoidable). For example, in scenario C3, a patient was diagnosed with a malignant melanoma. He had attended the practice two years previously with a pigmented lesion at the same site as the melanoma with a note in the records stating: ‘Pigmented lesion left forearm. o/e: pigmented lesion - no evidence of malignancy’.

Alternatively, if the outcome was not felt to be directly attributable to the event described at all, then it was defined as totally unavoidable (n = 18, rating of 1); for example, in scenario J1 where the patient experienced a ruptured ectopic pregnancy: “The patient was seen that day by the [FP] and assessed, a pregnancy test was positive and she was admitted immediately.” If there was any doubt that the event was not directly attributable (i.e., there was a ‘but’) it became a 2 or 3 (n = 13, probably unavoidable). For example, in scenario E4 whilst the patient had an inoperable tonsillar squamous cell carcinoma, a possible suspicious lesion was noted on the left tonsil and was treated with antibiotics with the advice follow up was required one week later to finalise a decision about referral.

Cluster analysis of avoidability ratings

The cluster analysis revealed 29 scenarios were in the first cluster, 6 were in the second cluster, 6 were in the third cluster, 54 were in the fourth cluster, 4 were in the fifth cluster, and 1 was in the sixth cluster.

Scenarios in cluster 1 tended to not fall in at least one of the 6 characteristics (26 out of 29 scenarios did not fall into any of the 6 characteristics) and these scenarios were also given avoidability ratings of either 1 or 2. In contrast, for the scenarios in cluster 4, all of the scenarios fell into one or more of the 6 categories with most scenarios represented by the following characteristics: omission (32 out of 54), timeliness of intervention (44 out of 54) or ‘not evidence based’ (40 out of 54). All of these scenarios were given avoidability ratings of 7 or 8.

We also classified the scenarios in cluster 2, 3, 5, and 6 in the same way and, with the exception of cluster 6 that contained only one item, the scenarios in all of the clusters tended to receive equivocal avoidability ratings and/or consensus could not be reached with respect to avoidability.

Discussion

Main findings

From our analysis of avoidable harm scenarios, agreed by FPs participating in a modified RAND/UCLA Appropriateness Method process, we have derived a definition of avoidable harm in the context of family practice:

“a patient safety incident could have probably, or totally been avoided by the timely intervention of a health care professional in family practice (e.g. investigations, treatment, safety netting) and / or an administrative process (e.g. referrals, alerts in electronic health records, procedures for following up results) in accordance with accepted standards of evidence-based practice and / or clinical governance and / or the Bolam test [17, 18].”

Scenarios with low avoidability ratings (1 s or 2 s) were not represented by the characteristics included in the above definition, whereas scenarios with high avoidability ratings (7 s 8 s or 9 s) were represented by these characteristics.

Discussion of findings in relation to existing literature

Primary care patient safety is an emerging international policy agenda, and this is signaled by the release of the WHO’s Technical Series for Safer Primary Care where world experts have explored the existing evidence base for primary care safety [16]. Multiple systematic reviews and professional reports have highlighted major evidence gaps exist and more high-quality epidemiological studies are needed [2,3,4,5,6, 8, 20]. Clinical case note review has been the method of choice that has informed the extensive knowledge and understanding generated about healthcare-associated harm in hospital settings [8]. Previous systematic reviews of studies to estimate the frequency and burden of unsafe primary care have demonstrated considerable variation in the quality of included studies, and retrospective methods yield lower estimates, than those generated by prospective observations [9].

A wide range of classification systems have been used with differing definitions of harm severity [21]. This presents a challenge when making comparisons. In recent years, the WHO developed the International Classification for Patient Safety to standardize the concepts and terminology used in the field [16]. This study builds on the work undertaken already by WHO by defining “avoidability” within the context of family practice and begins to frame the scope of inquiry that clinicians, researchers and policymakers must now endeavor to understand.

Implications for practice, policy, or future research

Understanding the epidemiology of errors in family practice contexts is crucial for establishing a baseline, identifying areas of practice most amenable to improvement, and the development of interventions to reduce the risk of healthcare-associated harm to patients [9]. Many countries, particularly with low and middle income economies, are seeking to develop predominantly family practice-based care models. It is important and timely to understand the significant, avoidable healthcare-related sources of harm arising in these settings and at scale.

The findings from this RAND/UCLA Appropriateness Method study define the characteristics and conditions that can be used to standardize research processes for measurement of outcomes for primary care patient safety. Whilst there are often explicit criteria that sensitize reviewers to well-known risk factors for harm that trigger more in-depth review, the nature of error in family practice – as demonstrated by our definition – means that such criteria could be challenging for application. Thus, review processes that utilize the expert judgement and tacit knowledge of clinical reviewers must be embraced. This consensus study has set the boundaries and established the conditions for this implicit process of inquiry.

Strengths and limitations of the study

Our study was strengthened by our matrix created for the refinement and testing of candidate scenarios. This was developed by members of our team of whom have completed the largest evaluation of family practice patient safety incidents reports and the most current systematic reviews of primary care safety [4, 6, 15]. Our approach provided a large, diverse number of scenarios (n = 100). Whilst we do not claim the scenarios represent all possible unsafe incidents in primary care, they do represent the most common and most severe incidents identified from our program of family practice research in the National Health Service (NHS) [4, 9, 15, 22,23,24,25,26], and efforts led by others [2731]. The NHS is a publicly funded, single-payer service and those practicing in other systems should interpret the transferability of our definition cautiously by considering relevant amendments for their own context. Our pilot definition of “avoidable harm” will now be tested in a large, comprehensive, case note review study in family practices in England.

This study adhered to a validated systematic consensus method to identify the level of avoidability represented by each scenario [9]. Panelists were recruited via the RCGP network in three of 32 faculties chosen to recruit GP from regions with a mix of rural, urban and inner-city practices. Panelists experienced difficulty judging whether the health care professional in family practice could have done more to intervene or act in a timelier manner (e.g. called the hospital rather than sent a further expedite letter), particularly when they were otherwise following what would be deemed to be evidence-based practice. We accept there will be variation in guideline preferences between countries, and acknowledge the actions taken by FPs in our scenarios may not be possible in some contexts. In some scenarios, the health care professional in family practice needed more information to make a decision and our experienced panelists could appreciate the importance of watchful waiting. This highlights the potential value of encouraging professional discussions about avoidability. In practice, we would strongly advocate cases of avoidable harm are discussed in the spirit of identifying systemic weaknesses compromising the ability of FPs and the wider primary care team to deliver safe care.

Conclusion

Our definition of “avoidable harm” has potential to support researchers and practitioners to clarify the scope of inquiry needed to determine the frequency and burden of unsafe family practice. This could enable international comparison of findings that should accelerate the pace of learning to design and implement interventions to improve patient safety across a range of FP contexts and economic circumstances.

Availability of data and materials

All raw study data can be obtained upon request from the corresponding author.

Abbreviations

FP:

Family practitioner

ICD-10:

International Classification for Disease version 10

IRB:

Institutional Review Board

NHS:

National Health Service

RAND:

Research and Development

UCLA:

University of California at Los Angeles

WHO:

World Health Organization

GMC:

General Medical Council

References

  1. Sheikh A, Bates D. Iatrogenic harm in primary care. Harvard Health Policy Rev. 2014;14:5–8.

    Google Scholar 

  2. NHS Digital. Appointments in General Practice, October 2018. Published on 6 December 2018. https://digital.nhs.uk/data-and-information/publications/statistical/appointments-in-general-practice/oct-2018. Accessed 15 July 2019.

  3. Berwick DM, Shojania KG, Others. Free from harm: Accelerating patient safety improvement fifteen years after To Err Is Human. Boston: National Patient Safety Foundation; 2015.

    Google Scholar 

  4. Makeham M, Pont L, Prgomet M, Carson-Stevens A, Lake R, Purdy H, et al. Patient safety in primary healthcare: an evidence check review brokered by the sax Institute for the Australian Commission on safety and quality in health care. Sydney: Sax Institute; 2015.

    Google Scholar 

  5. Sheikh A, Panesar SS, Larizgoitia I, Bates DW, Donaldson LJ. Safer primary care for all: a global imperative. Lancet Glob Health. 2013;1:e182–3.

    Article  Google Scholar 

  6. Organization WH, Others. Safer primary care: a global challenge Summary of inaugural meeting: Safer Primary Care Expert Working Group 2012.

    Google Scholar 

  7. Spencer R, Campbell SM. Tools for primary care patient safety: a narrative review. BMC Fam Pract. 2014;15:166.

    Article  Google Scholar 

  8. Makeham M, Dovey S, Runciman W, Larizgoitia I. Methods and measures used in primary care patient safety research. Geneva: World Health Organization; 2008.

    Google Scholar 

  9. Panesar SS. deSilva D, Carson-Stevens a, Cresswell KM, Salvilla SA, slight SP, et al. how safe is primary care? A systematic review. BMJ Qual Saf. 2016;25:544–53.

    Article  Google Scholar 

  10. Fitch K, Bernstein SJ, Aguilar MD, Burnand B, LaCalle JR, Lazaro P, et al. The RAND/UCLA appropriateness method user’s manual. Santa Monica: RAND Corporation; 2001. Contract No : MR-1269-DG-XII/RE; 2014.

    Google Scholar 

  11. Shekelle PG. Appropriateness criteria: a useful tool for the cardiologist. Heart. 2009;95:517–20.

    Article  Google Scholar 

  12. Campbell SM, Braspenning J, Hutchinson A, Marshall MN. Research methods used in developing and applying quality indicators in primary care. BMJ. 2003;326:816–9.

    Article  CAS  Google Scholar 

  13. Avery AJ, Dex GM, Mulvaney C, Serumaga B, Spencer R, Lester HE, et al. Development of prescribing-safety indicators for GPs using the RAND appropriateness method. Br J Gen Pract. 2011;61:e526–36.

    Article  Google Scholar 

  14. Bell BG, Spencer R, Avery AJ, Campbell SM. Tools for measuring patient safety in primary care settings using the RAND/UCLA appropriateness method. BMC Fam Pract. 2014;15:110.

    Article  Google Scholar 

  15. Carson-Stevens A, Hibbert P, Williams H, Evans HP, Cooper A, Rees P, et al. Characterising the nature of primary care patient safety incident reports in the England and Wales National Reporting and learning system: a mixed-methods agenda-setting study for general practice. NIHR Journals Library: Southampton; 2016.

    Google Scholar 

  16. World Alliance For Patient Safety Drafting Group, Sherman H, Castro G, Fletcher M, World Alliance for Patient Safety, Hatlie M, et al. Towards an International Classification for Patient Safety: the conceptual framework. Int J Qual Health Care. 2009;21:2–8.

    Article  Google Scholar 

  17. Jones JW. The healthcare professional and the Bolam test. Br Dent J. 2000;188:237–40.

    Article  CAS  Google Scholar 

  18. Sokol D. Why pharmacists need to re-evaluate what information they provide to patients. Lung Cancer. 2018;15:05.

    Google Scholar 

  19. Green J, Thorogood N. Qualitative Methods for Health Research. Thousand Oaks: SAGE; 2018.

  20. Lorincz CY, Drazen E, Sokol PE, Neerukonda KV, Metzger J, Toepp MC, et al. Research in ambulatory patient safety 2000--2010: a 10-year review. Chicago: American Medical Association; 2011.

    Google Scholar 

  21. Carson-Stevens A, Hibbert P, Avery A, Butlin A, Carter B, Cooper A, et al. A cross-sectional mixed methods study protocol to generate learning from patient safety incidents reported from general practice. BMJ Open. 2015;5:e009079.

    Article  Google Scholar 

  22. Avery AJ, Ghaleb M, Barber N, Dean Franklin B, Armstrong SJ, Serumaga B, et al. The prevalence and nature of prescribing and monitoring errors in English general practice: a retrospective case note review. Br J Gen Pract. 2013;63:e543–53.

    Article  Google Scholar 

  23. Rees P, Edwards A, Panesar S, Powell C, Carter B, Williams H, et al. Safety incidents in the primary care office setting. Pediatrics. 2015;135:1027–35.

    Article  Google Scholar 

  24. Rees P, Edwards A, Powell C, Hibbert P, Williams H, Makeham M, et al. Patient safety incidents involving sick children in primary Care in England and Wales: a mixed methods analysis. PLoS Med. 2017;14:e1002217.

    Article  Google Scholar 

  25. Cooper A, Edwards A, Williams H, Evans HP, Avery A, Hibbert P, et al. Sources of unsafe primary care for older adults: a mixed-methods analysis of patient safety incident reports. Age Ageing. 2017;46:833–9.

    Article  Google Scholar 

  26. Williams H, Edwards A, Hibbert P, Rees P, Prosser Evans H, Panesar S, et al. Harms from discharge to primary care: mixed methods analysis of incident reports. Br J Gen Pract. 2015;65:e829–37.

    Article  Google Scholar 

  27. Cheraghi-Sohi S, Singh H, Reeves D, Stocks J, Rebecca M, Esmail A, et al. Missed diagnostic opportunities and English general practice: a study to determine their incidence, confounding and contributing factors and potential impact on patients through retrospective review of electronic medical records. Implement Sci. 2015;10:105.

    Article  Google Scholar 

  28. Singh H, Giardina TD, Meyer AND, Forjuoh SN, Reis MD, Thomas EJ. Types and origins of diagnostic errors in primary care settings. JAMA Intern Med. 2013;173:418–25.

    Article  Google Scholar 

  29. Howard RL, Avery AJ, Slavenburg S, Royal S, Pipe G, Lucassen P, et al. Which drugs cause preventable admissions to hospital? A systematic review. Br J Clin Pharmacol. 2007;63:136–47.

    Article  CAS  Google Scholar 

  30. Pirmohamed M, James S, Meakin S, Green C, Scott AK, Walley TJ, et al. Adverse drug reactions as cause of admission to hospital: prospective analysis of 18 820 patients. BMJ. 2004;329:15–9.

    Article  Google Scholar 

  31. Perez HR, Beyrouty M, Bennett K, Baier Manwell L, Brown RL, Linzer M, et al. Chaos in the clinic: characteristics and consequences of practices perceived as chaotic. J Healthc Qual. 2017;39:43–53.

    Article  Google Scholar 

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Acknowledgements

We thank the panelists for their participation. Scenarios were developed by members of the PISA Research Group at Cardiff University, our particular thanks to Prof Adrian Edwards, Dr. Huw Williams and Dr. Felicity Smith for their contributions and feedback to this process. We are also grateful to the wider Avoidable Harm study research team.

Funding

This report is independent research funded by the National Institute for Health Research (NIHR) Policy Research Programme (Understanding the Nature and Frequency of Avoidable Harm in Primary Care, PR-R11-0914-11001). The views expressed in this publication are those of the authors and not necessarily those of the NIHR or the Department of Health and Social Care. The research has been designed and carried out (data collection, analysis and interpretation) independent of the funder.

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Authors and Affiliations

Authors

Contributions

Conceived of the study: AA, SC, ACS; Planned the study: AA, SC, ACS, BGB, SA, DA, MB, RM, HPE, CS. Analyzed the data: ACS, BGB, AC, SC. Wrote the first draft of the manuscript: ACS, BGB. Contributed to the writing of the manuscript: AA, SC, AC, MB, HPE, AS, DMA, CS, RM, SA, DA, MB, RM, AS. ICMJE criteria for authorship read and met: ACS, BGB, AC, SC, HPE, AA, MB, AS, DMA, CS, SA, RM. Agree with manuscript results and conclusions: ACS, BGB, AC, HPE, SC, AA, MB, DMA, SA, DA, MB, RM, CS, AS. ACS, BGB, SC, CS, RM and AA led the drafting of the protocol, which received critical input from AC and members of the Avoidable Harm study team.

Corresponding author

Correspondence to Andrew Carson-Stevens.

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Ethics approval and consent to participate

IRB approval was granted by the Research Ethics Committee of the Faculty of Medicine and Health Sciences at the University of Nottingham (C18062015 SoM PC) to carry out the study and publish the findings. Written consent was obtained from all participants.

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Not applicable.

Competing interests

The authors declare that they have no competing interests.

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Additional file

Additional file 1:

Avoidability ratings from Round 2 of RAND / UCLA consensus process. (DOCX 36 kb)

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Carson-Stevens, A., Campbell, S., Bell, B. et al. Identifying ‘avoidable harm’ in family practice: a RAND/UCLA Appropriateness Method consensus study. BMC Fam Pract 20, 134 (2019). https://doi.org/10.1186/s12875-019-0990-z

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