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References

Renouard F, Charrier J-G. The Search for the Weakest Link.: Ewenn Ed Publishers; 2012
Nolan T. System changes to improve patient safety. Br Med J. 2000; 320:(7237)771-773
Leape LL. Errors in medicine. Clin Chim Acta. 2009; 404:2-5
Weingart SN, Morway L, Brouillard D Rating recommendations for consumers about patient safety: sense, common sense, or nonsense?. Jt Comm J Qual Patient Saf. 2009; 35:206-215
Bruinsma WE How prevalent are hazardous attitudes amongst Orthopaedic Surgeons?. Clin Orthop Rel Res. 2014;
Leape LL, Lawthers AG, Brennan TA, Johnson WG. Preventing medical injury. Qual Rev Bull. 1993; 19:144-149
Leape LL. Error in medicine. J Am Med Assoc (JAMA). 1994; 272:1851-1857
Leape LL. Out of the darkness: hospitals begin to take mistakes seriously. Health Syst Rev. 1996; 29:21-24
Leape LL. Physician self-examination. Int J Qual Health Care. 1998; 10:289-290
Berwick DM, Leape LL. Reducing errors in medicine. Qual Health Care. 1999; 8:145-146
Leape L. Lucian Leape on the causes and prevention of errors and adverse events in health care. Interview by Peter I Buerhaus. Image J Nurs Sch. 1999; 31:281-286
Cullen DJ, Bates DW, Leape LL. Prevention of adverse drug events: a decade of progress in patient safety. J Clin Anesth. 2000; 12:600-614
Leape LL. Reporting of medical errors: time for a reality check. Qual Health Care. 2000; 9:144-145
Bates DW, Cohen M, Leape LL. Reducing the frequency of errors in medicine using information technology. J Am Med Inform Assoc. 2001; 8:299-308
Leape LL. The godfather of patient safety sees progress. Interview by Mark Crane. Med Econ. 2003; 80:29-34
Conceptual Framework for the International Classification of Patient Safety. 2009;
Pemberton MN. Developing patient safety in dentistry. Br Dent J. 2014; 217:335-337
Ashley MP, Pemberton MN, Saksena A, Shaw A, Dickson S. Improving patient safety in a UK dental hospital: long-term use of clinical audit. Br Dent J. 2014; 217:369-373
Saksena A, Pemberton NM, Shaw A, Dickson S, Ashley MP. Preventing wrong tooth extraction; experience in development and implementation of an outpatient safety checklist. Br Dent J. 2014; 217:357-362
Thusu S, Panesar S, Bedi R. Patient safety in dentistry – state of play as revealed by a national database of errors. Br Dent J. 2012; 213
Obadan E, Ramoni RB, Kalenderian E. Lessons learned from dental patient safety case reports. J Am Dent Assoc. 2015; 146:318-326
Walji MF, Kalenderian E, Stark PC BigMouth: a multi-institutional dental data repository. J Am Med Inform Assoc. 2014; 21:1136-1140
Never Events List 2015/16. 2015;
Ramoni R, Walji MF, Tavares A Open wide: looking into the safety culture of dental school clinics. J Dent Educ. 2014; 78:745-756
Kalenderian E, Walji MF, Tavares A, Ramoni RB. An adverse event trigger tool in dentistry: a new methodology for measuring harm in the dental office. J Am Dent Assoc. 2013; 144:808-814
Hebballi NB, Ramoni R, Kalenderian E The dangers of dental devices as reported in the Food and Drug Administration Manufacturer and User Facility Device Experience Database. J Am Dent Assoc. 2015; 146:102-110
Mettes T, Bruers J, Van der Sanden WH, Wensing M. Patient safety in dental care: a challenging quality issue? An exploratory cohort study. Acta Odont Scand. 2013; 71:1588-1593
Wetzel CM, Kneebone RL, Woloshynowych M The effects of stress on surgical performance. Am J Surg. 2006; 191:5-10
Russ AL, Fairbanks RJ, Karsh B-T The science of human factors: separating fact from fiction. BMJ Qual Saf. 2013; 10:802-808
Chapter 3. AHRQ's Patient Safety Initiative: Breadth and Depth for Sustainable Improvements. AHRQ's Patient Safety Initiative: Building Foundations, Reducing Risk.Rockville, MD: Agency for Healthcare Research and Quality; 2003
Reid J, Catchpole K. Patient safety: a core value of nursing – so why is achieving it so difficult?. J Res Nurs. 2011; 16:209-223
Konieczny KM, Seager L, Scott J Experience of head and neck theatre staff and attitudes to human factors using aviation-based analysis and classification system – a pilot study. Br J Oral Maxillofac Surg. 2014; 52:38-42
Bethune R, Sasirekha G, Sahu A Use of briefings and debriefing as a tool in improving teamwork, efficiency, and communication in the operating theatre. Postgrad Med J. 2011; 87:331-334
Barker J. Error reduction through team leadership; what surgeons can learn from the airline industry. Clin Neurosurg. 2007; 54:195-199
Shanafelt TD, Balch CM, Bechamps G Burnout and medical errors amongst American surgeons. Ann Surg. 2010; 251:995-1000
Green B, Tsiroyannis C, Brennan PA. Human Factors – recognising and minimising errors in our day to day practice. Oral Dis. 2015; 22:19-22
Pemberton MN, Ashley MP, Shaw A Measuring patient safety in a UK dental hospital: development of a dental clinical effectiveness dashboard. Br Dent J. 2014; 217:375-378
How to reduce prescribing errors. Lancet. 2009; 374
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Human Factors in Patient Safety – Review of Topics and Tools 2009 WHO Guidance. 2009;
Reason J. Human error.Cambridge: Cambridge University Press; 1990
van der Schaaf T, Habraken MMP. PRISMA-Medical. A brief description.Eindhoven, The Netherlands: Eindhoven University of Technology; 2005
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Swaminat G, Raguram R. Medical errors – the problem. Ind J Psych. 2010; 52:110-112
Treadwell JR, Lucas S, Tsou AY. Surgical checklist: a systematic review of impacts and implementation. BMJ Qual Saf. 2014; 23:2999-3318
Seager L, Smith DW, Patel A Applying aviation factors to Oral and Maxillofacial surgery. Br J Maxillfac Surg. 2013; 51:8-13
Wright S, Ucer TC, Speechley DS. The perceived frequency and impact of adverse events in dentistry: the need for further training in human factors. Prim Dent Care. 2017;

Errors and adverse events in dentistry – a review

From Volume 44, Issue 10, November 2017 | Pages 979-982

Authors

Simon Wright

BDS, MSc, PGCTLCP FHEA, PGDip Implant Dentistry

Programme Lead, Faculty of Health and Social Care Edge Hill University; Director of ICE Postgraduate Institute and Hospital, Salford Quays M50 3XZ, UK

Articles by Simon Wright

Gillian Crofts

PhD, MSc

Director of Education ICE Postgraduate Dental Institute and Hospital, Salford Quays M50 3XZ, UK

Articles by Gillian Crofts

Cemal Ucer

BDS, MSc, PhD

Clinical Lead, Faculty of Health and Social Care Edge Hill University; Director of ICE Postgraduate Institute and Hospital, Salford Quays M50 3XZ, UK

Articles by Cemal Ucer

David Speechley

BDS, DMI RCS(Edin), MSc, PGDip Implant Dentistry

Mentor Lead, Faculty of Health and Social Care Edge Hill University; Director of ICE Postgraduate Institute and Hospital, Salford Quays M50 3XZ, UK

Articles by David Speechley

Abstract

As dental professionals we must change the way we think about error. By adopting a more positive, constructive approach, centred around analysing why errors happen, we can then accept our vulnerability and design systems and protocols to prevent errors from occurring. Errors are inextricably linked to human behaviour. Human factors in healthcare are concerned with ensuring patient safety through promoting efficiency, safety and effectiveness by improving the design of technologies, processes and work systems. Essentially, this embraces standardization and involves examining and designing out error.

Health Education England has highlighted education in ‘human factors’ as a priority workstream, however, there are many impediments to progress as system changes are slow and difficult to implement. This effectively means that, at present, it is up to individual practitioners to introduce the concept of human factors into their practices. A number of factors have been identified that are critical to reducing error, namely teamwork, communication, leadership and fatigue. Furthermore, a number of strategies have been implemented in secondary care to help reduce the risk of error, including effective leadership, specific policy and procedure, and monitoring and measuring compliance.

The majority of the causes of error are related to human factors rather than technical ability or inadequate knowledge. This has major implications for primary care practice, as currently we are concentrating our professional development on the use of technology and our intellectual capabilities, rather than implementing education within, and the development of, human factors. It is our recommendation that human factors form part of our undergraduate teaching and core CPD (Continued Professional Development).

CPD/Clinical Relevance: There needs to be a paradigm shift from a culture of blame to a just culture, where it is accepted that, despite our experience, character and talents, we are going to commit errors.

Article

The dental practitioner has historically been considered to be efficacious. Dealing with the most intimate aspects of human life is not without error and, ultimately, this may lead to consequences that impact on patient safety for which the dental practitioner is held accountable.1

As Nolan2 points out, most errors are attributable to human factors. Dentistry, by its very nature, involves complex manual tasks performed to a high degree of accuracy with high risk for error. Refusal to acknowledge that we will make errors not only compromises patient safety, but also limits professional performance.1 The sentiment in dentistry, however, is starting to change, with more focus on system analysis rather than placing blame solely on the practitioner.3,4

Ideally, we should be aiming to reduce risk in the context of performance. Nolan advocates designing safe systems based on human factors, to reduce error to zero. Whilst zero error rate is practically unlikely to be achieved, professionals can, and must, change the way they think about error. By adopting a more positive, constructive approach, centred around analysing why errors happen, we can then accept our vulnerability and design systems and protocols to prevent errors from occurring.

The difference between an error and a violation

An error is defined as an inadvertent divergence from your intended course of action,1 whereas faults or violations are defined as a deliberate deviation from the guidelines and rules of a given system.1

Whilst we accept that every clinician may commit an error, we assume that, as responsible clinicians, we would never consider deliberately deviating from the guidelines. However, although there are no papers relating directly to dentistry, there is a body of evidence suggesting that 30% of those in the medical profession possess attitudes that represent a danger to the safety of their patient.5 In particular macho, anti-authority, impulsive and invulnerability.5

Why do we make errors?

As clinicians, we are not simply fixing a problem, we are treating a patient. We typically want to do our best and provide a high standard of care. Despite this, we can underestimate the risk of complications during our initial assessment.6 This is likely due to dentists adopting an empathetic approach rather than an analytic approach. This, combined with 75–90% of dentists thinking that they are smarter or more skillful than the others,6 creates a feeling of security and invincibility.

Frequency and aetiology of error

Errors are inextricably linked to human behaviour.7,8,9,10,11,12,13,14,15 The first and significant step in the process of changing our attitude to error is to acknowledge that errors will happen and to try to establish the level of risk of error associated with specific types of performance in dentistry.

Errors are not associated with fault or punishment, however, we need to analyse the cause of error in order to help prevent errors occurring and improve patient safety. The International Classification for Patient Safety (ICPS) 2009 aims to strengthen science-based systems, and identify and define key concepts in order to improve patient safety.16

This need has directed a body of research to develop strategies for a ‘patient safety culture’,17 including the use of clinical audit,18 safety checklists,19 reporting of errors,20,21 a national database of errors,20,22 the NHS publishing ‘Never Events List’, including wrong site surgery and wrong tooth extraction,23 a call to action to develop a patient safety initiative,24 the development of a novel trigger tool to detect adverse events in patients' charts,25 a study on the dangers of dental devices,26 and studies investigating the aetiology of error.27

Despite clinical audit being a widely adopted tool for analysing practice and identifying errors, to the best of our knowledge there is little research in dentistry on the causes and frequency of error in day-to-day practice, thus little is understood about the role of human factors and their likely risk of causing adverse events.

A recent investigation sought to establish, for the first time, an insight into the risk factors likely to contribute to errors and if there is a link between risk of error and perceived cause of an adverse event in dental practice. This study found that the perceived mean number of errors that occur each day is 2.016, ranging from a minimum of 1 and maximum of 4. The number of errors was unrelated to the number of years qualified and number of sessions worked each week. Importantly, the same study found that, on average, 1.45% of errors are perceived to lead to an adverse event (ranging from a minimum of 0 and maximum of 6.)

Kalenderian et al25 looked retrospectively at patient charts and notes, and identified 34% of randomly selected case notes, and 50% of case notes that ‘triggered’ predefined characteristics contained at least one adverse event. However, as far as we are aware, there are no other studies that investigate the frequency that errors occur within dentistry. One study has investigated the percentage of patient contacts where errors occur. A total of 1000 patients' notes were assessed and they found 46 errors, of which 18 were preventable.1 However, they noted that the poor record-keeping may have resulted in an underestimation of the result.

Wetzel et al identified stress as a major contributory factor negatively affecting surgical performance.28 They cite emergency cases, unexpected complications, equipment problems, team work problems, distractions, personal factors and problems having major effects on the frequency and severity of error. They also state that these stresses are accumulative and therefore managing these is essential for patient safety.

Preventing error

The role of human factors in healthcare is concerned with ensuring patient safety through promoting efficiency, safety and effectiveness by improving the design of technologies, processes and work systems.29 Essentially, it embraces standardization and involves examining and designing out error.

Despite the National Quality Board forming the ‘Human Factors in Healthcare Concordat’, Health Education England highlighting education in Human Factors as a priority workstream, and US Department of Health and Human Services Agency for Healthcare Research and Quality (AHRQ) driving forward the agenda for quality and patient safety,30 there are many impediments to progress as system changes are slow and difficult to implement.31 This effectively means that, at present, it is up to individual practitioners to introduce the concept of human factors into their practices.

A number of factors have been identified that are critical to reducing error, namely teamwork,32 communication,33 leadership34 and fatigue.35

The understanding of the link between the significant cause of error and human performance in healthcare is improving, however, when compared to other organizations, dental practitioners still have much to learn.36 In order for this to happen, it is necessary to raise awareness of human factors and the benefit that training in human factors can bring to our practising life and to the safety of our patients.

There is awareness that we need to minimize error in healthcare. However, almost all of this relates to the secondary care sector, where it is recognized that effective leadership,19 specific policy and procedure,37 and monitoring and measuring compliance, leads to a strong patient safety culture.19 However, there is no evidence that this level of rigour is prevalent in primary care.

There is a body of literature which offers advice to the primary care practitioner of how errors relating to human factors can be minimized. Pemberton suggests four strategies:

  • Identify and report threats (such as the yellow card scheme for reporting adverse drug reactions to the MHRA, or the reporting of errors to the National Patient Safety Agency NPSA);
  • Evaluating incidences, and establishing best practice;
  • Communication and education about patient safety; and
  • Building a safety culture which does not account blame.17

    • The General Medical Council commissioned a study in 2009 to investigate errors in trainee doctors and consultants. They investigated prescribing errors and concluded that 1 in 10 prescriptions were incorrect for junior doctors, and 1 in 20 were incorrect for consultants.38 A literature review concluded that 2700 patients each year are harmed by wrong site surgery, and highlighted that understanding the nature of errors and that of human factors is key in creating a just culture that encourages a shared vision of patient safety.39

    Several studies demonstrate that fatigue and working long hours affect judgement, behaviour and the likelihood of a professional to make an error,40 and there are many tools, eg FAST (Fatigue Avoidance Scheduling Tool)41 to educate and reduce the effects of fatigue. These studies are largely subjective and there are no studies that directly relate working hours to the number of errors that are made in dentistry.

    The progression of error to an adverse event

    An error in itself does not necessarily lead to complications, however, safety margins are reduced, making the likelihood of an error leading to an adverse event more likely. The number of errors that lead to an ‘adverse event’ was perceived to be 1.4%. There are a number of models that discuss how we can avoid this progression from an error to a more significant complication. It is usually the result of multiple system failures, as described initially by the ‘Swiss Cheese Model’,42 and more recently by Eindhoven's Classification of Errors and the PRISMA (Prevention and Recovery Information System for Monitoring and Analysis).43

    There are few studies, however, that investigate the frequency or incidence of this progression, and additionally none that relates specifically to dentistry. A multi-centred study investigated errors in psychiatry and concluded that most errors are insignificant, however, 4.3% result in serious adverse effects or death.44 A further paper described, significantly, that 1.7% of prescribing errors by doctors were potentially fatal.38 A study by the authors of this paper found that the main reason why we commit errors is due to time pressures, closely followed by poor management, implicating ‘the system’ in the aetiology of error. This is consistent with research in other areas of medicine, where studies have shown that up to 69% of complications were caused by avoidable (cognitive) human factor error,45 citing time pressure as the major cause.37

    Strategies for avoiding error are best described in the literature relating to aviation, and many of these principles are now starting to be reported in the medical literature. Strategies such as checklists,46 crew resource management (CRM)47 and teamwork47 have been translated to dentistry in the form of checklists,19 audit cycles,35 clinical effectiveness dashboards,35 and prospective and retrospective risk analysis.48

    Implications for practice

    The majority of the causes of error are related to human factors rather than technical ability or inadequate knowledge. This has major implications for primary care practice, as currently we are concentrating our professional development on the use of technology and our intellectual capabilities, rather than learning from the hospital setting in secondary care, or other high risk organizations, such as aviation, and implementing education from within with the development of ‘human factors’. Furthermore, based on this review, we should have strategies in place to help reduce errors due to human factors (Table 1). It is our recommendation that ‘human factors’ form part of our undergraduate teaching and core CPD (Continued Professional Development).


    Threat and Error Management Design protocols that prevent errors being made. For example – by only using latex-free gloves in practice, it is not possible mistakenly to cause a reaction to a latex-sensitive patient.
    Patient Notes Make risk obvious. For example – flags and markers for allergies.
    ‘What If’ Think about and prepare for alterations in approach prior to it happening.
    Essential Communication Only During critical procedures, limit the disturbances and communication to what is essential.
    Checklists Document and audit the use of checklists.
    Equipment Ensure all essential equipment and instruments are available and in good working order.
    Time Allow adequate time for procedures and breaks.
    Human Resource Management Demonstrate good leadership, with open communication allowing all to ‘speak out’ to prevent error.
    Keep It Simple Choose the simplest procedure possible; this is not only easier, but also the clinician is less stressed and therefore more vigilant.

    Implications for research

    There needs to be a paradigm shift from a culture of blame to a just culture, where it is accepted that, despite our experience, character and talents, we are going to commit errors. This way errors can be reported, analysed and preventive measures taken.

    We need further research to understand the causes of error within Dentistry, and to create a ‘fair blame’ reporting system for adverse events. This can then be made available to the profession for analysis and to establish approaches that minimize error and improve patient safety.