Performance measures for the SACRED team-centered approach to advanced gastrointestinal endoscopy: European Society of Gastrointestinal Endoscopy (ESGE) Quality Improvement Initiative

• Abstract
• 1 Introduction
• 2 Methods
• 3 Performance measures for the advanced endoscopy team: the SACRED approach
• 3.1 Selection
• 3.2 Acceptance
• 3.3 Complications
• 3.4 Reconnaissance
• 3.5 Envelopment
• 3.6 Documentation
• 4 Conclusion
• Disclaimer
• Endorsements
• References

Abstract

The European Society of Gastrointestinal Endoscopy and United European Gastroenterology have defined performance measures for upper and lower gastrointestinal, pancreaticobiliary, and small-bowel endoscopy. Quality indicators to guide endoscopists in the growing field of advanced endoscopy are also underway. We propose that equal attention is given to developing the entire advanced endoscopy team and not the individual endoscopist alone.

We suggest that the practice of teams intending to deliver high quality advanced endoscopy is underpinned by six crucial principles concerning: selection, acceptance, complications, reconnaissance, envelopment, and documentation (SACRED).

1 Introduction

Diagnostic endoscopy is well established with defined standards of practice [1] [2] [3] [4] [5] [6]. In 2015, the European Society of Gastrointestinal Endoscopy (ESGE) and United European Gastroenterology (UEG) identified the quality of endoscopy as a major priority. This led to the commissioning of the ESGE Quality Improvement Committee (QIC) to develop performance measures for the domains of upper gastrointestinal (GI), lower GI, pancreaticobiliary, and small-bowel endoscopy, and for the endoscopy service [7]. Meanwhile, advanced therapeutic endoscopy is constantly evolving, with new techniques frequently emerging and progressively becoming more complex [8] [9] [10]. The development of quality indicators for advanced endoscopy is now also underway [11] [12]; however, there is a need to look beyond just the technical skills required of individual advanced endoscopists.

When delivering high quality endoscopy, the importance of nontechnical skills should be emphasized [13]. Good communication and decision-making skills are just as essential as the mechanical dexterity required for endoscopy. Moreover, training of the whole endoscopy team is as important as that for the individual endoscopist [14]. Advanced therapy is associated with a higher risk of adverse events (AEs) [15] [16]. Effective teamworking is crucial in high risk trades, as is evident in the aviation industry [17] [18], and is not a foreign concept to endoscopy services [19] [20]. Yet the notion of defining the model qualities of an endoscopy team has remained unexplored. In a burgeoning era of advanced therapeutics, ensuring that teams are equipped with the necessary repertoire of skills is more relevant than ever. In this Position Statement, we describe practical guidelines for building a team capable of mastering the challenges of advanced endoscopy. This process dedicates attention to six domains: selection, acceptance, complications, reconnaissance, envelopment, and documentation (SACRED).

2 Methods

The multistep process involved in developing performance measures has previously been described [7]. The advanced endoscopy team working group was formed in May 2021 following initial meetings. A comprehensive literature search on the topic of advanced endoscopy teams was performed but yielded no evidence. Statements were therefore constructed using the PICOS (Population/Patient, Intervention, Comparison, Outcome, Study design) framework [6]. A systematic search was performed for literature on team-working in endoscopy and other team-orientated procedures and occupations. When statements were being formulated, articles were graded for evidence levels and recommendation strengths using the Grading of Recommendation Assessment, Development and Evaluation (GRADE) system [21].

Members of the working group provided comments on proposed statements during an initial videoconference. The Delphi method was used to negotiate agreements on the position statements [7]. All members were informed of the methodology. Statements were adjusted and/or excluded during iterative Delphi rounds by working group members; adjustments made in each round were documented. A cutoff for accepting statements as the consensus was set at reaching 80 % agreement (summative of “strongly agree” and “agree”). A total of three Delphi rounds was set a priori as the maximum opportunity to come to an agreement on a statement. The final consensus statements described below refer to 80 % agreements that were already achieved by the second voting round of the Delphi process.

3 Performance measures for the advanced endoscopy team: the SACRED approach

3.1 Selection

Advanced endoscopy inevitably carries a higher risk for AEs compared with diagnostic procedures [16]. Appropriate patient selection is one way of curtailing this risk [22]. Previous studies suggest that a multidisciplinary team (MDT) approach to advanced endoscopy is beneficial. In a prospective cohort study of 1909 patients undergoing endoscopic retrograde cholangiopancreatography (ERCP) for benign hepatobiliary disease, prior MDT discussion of cases improved safety and decreased overall AEs compared with controls (6.9 % vs. 12.0%; P < 0.001) [23]. A lower rate of severe AEs was also observed with preprocedural MDT discussion (0.4 % vs. 2.5 %; P = 0.04).

In a small cohort study, Vaughan-Shaw et al. retrospectively compared the management pathways of patients with a final diagnosis of early rectal cancer (pT1). Patients referred to a single regional center for management of potential early rectal cancer and uncertain rectal neoplasms were analyzed. There were 24 patients who underwent specialist MDT discussion and they were compared with 19 who did not [24]. The MDT consisted of two consultant surgeons with an interest in significant rectal neoplasms and transanal endoscopic microsurgery, two interventional gastroenterology colonoscopists, a specialist GI pathologist, two radiologists with a specialist interest in rectal cancer imaging, a clinical oncologist, and cancer nurse specialists. In patients not discussed at the specialist MDT meeting, 53 % underwent primary resection without any prior attempt at local excision (conventional peranal excision or transanal endoscopic microsurgery), 80 % of whom had a T1 N0 cancer. By contrast, only 8 % of patients discussed at the specialist MDT meeting underwent primary resection (of which 50 % were for a T1 N0 cancer), while 67 % underwent local excision as definitive treatment. The authors concluded that specialist MDT discussion was associated with more accurate preoperative staging of early rectal cancers. It also increased the use of local excision, with a reduction in margin positivity, if performed. Other studies similarly suggest that input from an MDT improves outcomes for patients with colorectal cancer [25] [26].

A formalized MDT approach to advanced endoscopy is also likely to be beneficial [27]; however, the criteria for patients warranting MDT discussion will not be universal to all centers. The definition of advanced endoscopy is ever changing with the technological developments. Therefore, prerequisites for MDT discussion should evolve concomitantly. Several other considerations may also influence the shortlist of patients requiring MDT input. The anticipated technical complexity of a procedure may be sufficient to necessitate referral to the MDT. The interpretation of complexity may be subject to local experience for a specific intervention: centers with a high caseload volume need not discuss every case. Additionally, the availability and suitability of alternate treatment options is better debated at the MDT level. This would include discussion of co-morbidities and physiological fitness to determine fitness for the proposed advanced procedure versus alternatives. The definition of procedures being advanced and requiring MDT discussion should be decided locally a priori, allowing adjustment for the available skillset and resources.

The core members of the MDT should, by definition, be multidisciplinary and may include surgeons, physicians, radiologists, and nurse specialists. Consideration should also be given to MDTs that are already established locally. Cases may be better discussed as part of an existing MDT (e. g. cancer and benign upper GI MDTs) rather than by a separate advanced endoscopy MDT. Standalone advanced endoscopy MDTs could be locoregional, for example a complex colorectal polyp MDT, recruiting core members with specific expertise in the area.

A decision should be made by the MDT as to whether advanced endoscopy is warranted and on the proposed mode of intervention, should alternatives exist. An example would be a discussion of the merits of removing a large flat colonic polyp in a young patient with multiple co-morbidities. If proceeding with intervention, discussion of whether to approach with endoscopic mucosal resection (EMR), endoscopic submucosal dissection (ESD), or surgical resection should occur.

Patients undergoing advanced interventional endoscopy should be assessed for their fitness [23] [28] [29] [30], consented for the higher risk compared with routine endoscopy, and provided with alternatives if available [31]. The latter would include the option of active monitoring without intervention. In the UK, guidance for the delivery of safe and quality assured upper GI endoscopy recommends thorough assessments of patients’ health status (including ASA class) before the procedure [22]. While this practice is not supported by high quality evidence, the available literature would emphasize the importance of assessing ASA status (as an indicator of physiological fitness) in GI endoscopy.

In a retrospective cohort analysis of 1 590 648 endoscopic procedures (34.2 % esophagogastroduodenoscopy [EGD], 60.3% colonoscopy, 4.4 % flexible sigmoidoscopy, 1.2 % ERCP) in 1 318 495 patients, Enestvedt et al. reported an increased risk of any AE with increasing ASA class within each procedure type [30]. For EGD and colonoscopy, the risk of any AE for a patient with ASA class IV/V, compared with an ASA class I patient, was 12.02 times (95 %CI 9.62–15.01) and 4.93 times (95 %CI 3.66–66.3) higher, respectively. The risk of a serious AE (hospital admission, surgery, cardiopulmonary resuscitation, or emergency room referral) increased with increasing ASA class for EGD (odds ratio [OR] and 95 %CIs were: ASA class I, 1.0 as reference; II, 2.88 [1.43–5.80]; III, 7.16 [3.47–14.79]; IV/V, 32.18 [14.54–71.24]), and for colonoscopy (ASA class I, 1.0 as reference; II, 0.98 [0.68–1.43]; III, 1.67 [1.01–2.78]; IV/V, 9.68 [4.00–23.46]).

In a prospective cohort study, Burgess et al. examined 1039 patients undergoing wide-field EMR for sessile colonic polyps of 20 mm or larger [32]. Clinically significant postendoscopic bleeding was experienced by 62 patients. Of these, 27 underwent repeat colonoscopy (21 received endotherapy) and one patient underwent primary embolization to achieve hemostasis. Multivariate analysis demonstrated a higher risk of requiring intervention to achieve hemostasis (defined as endoscopic intervention, angiographic embolization, or surgery) in patients with ASA class II or above (OR 20.1 [95 %CI 3 to > 100]; P < 0.001).

The assessment of ASA status prior to advanced interventional endoscopy is therefore important to fully appreciate the risk involved. This is relevant irrespective of whether the patient undergoes advanced endoscopy under a general anesthetic or conscious sedation. While the Charlson co-morbidity index [33] [34] and clinical frailty scale [35] have also been used to assess risk within endoscopy, these are supported by only a few smaller studies. Further work is required to determine the optimal modality to assess fitness for advanced endoscopic procedures.

3.2 Acceptance

Adjusting to the higher risk associated with interventional endoscopy may not come easily to everyone; specific personality traits may be better suited, as seen in surgery [36]. In a national prospective observational study, Rutter et al. studied patients over the age of 60 years undergoing bowel cancer screening colonoscopy [16]. They reported increased relative risks for bleeding and perforation by factors of 11.14 and 2.97, respectively, when polypectomy was performed compared with when no polypectomy was performed. Moreover, larger polyp size was a strong predictor of bleeding (P < 0.001) and perforation (P < 0.002). A meta-analysis comparing early gastric cancers resected by ESD (1495 cases) versus EMR (2053 cases) also demonstrated higher perforation rates with the former (OR 4.67 [95 %CI 2.77–7.87]).

The modern approach to managing AEs involves vigilance, early recognition, and engagement of proactive endoscopic techniques to address untoward events [37]. However, the team also need to accept that advanced endoscopic procedures are associated with a higher rate of AEs compared with routine endoscopy, even in expert hands.

Endoscopists and their teams are imperfect. The current working climate increasingly embraces a blame-free culture [18] and encourages learning from error analysis exercises [20]. Systems employed to address underperformance can be used to isolate and improve weaknesses. Techniques include informal reflection, coaching, and formal retraining programs to tackle both technical and nontechnical deficiencies [38]. In a study of 249 healthcare providers, the fear of being blamed for an error was significantly higher than the fear of the associated punishment for the error [39]. Whether healthcare providers feel as if they are being personally blamed for errors can also affect the level of trust within an organization. A trusting organizational culture is positively associated with supervisors and executive teams adopting a no-blame and systems review approach to managing errors, compared with holding individuals solely responsible [40]. Acceptance of higher risk and a no-blame culture are two factors that may promote wellbeing and longevity in advanced endoscopy. This mindset should be present in the endoscopy room and when AEs are reviewed on a systemic level.

The release of the landmark report To Err is Human by the Institute of Medicine in 1999 was met by a dramatic push to minimize patient harm from healthcare [41]. International Recommendations for critical incident reporting systems are now available and positively encourage reporting and learning from serious events [42]. A study of 2028 patient safety incidents occurring in 20 hospitals across the Netherlands reported different incident types (relating to collaboration vs. medication use) between different hospital departments (emergency medicine vs. internal medicine and general surgery) [43]. The authors suggest that unit-based incident analysis may provide more useful information to guide improvements. Advanced endoscopic interventions inherit niche AEs that may otherwise be rare, with their occurrence being unusual during diagnostic endoscopy. Advanced intervention-based incident analysis will therefore likely be of more benefit than general unit-based incident analysis.

Communication is important to both the safety and effectiveness of clinical practice. Studies on communication remain scarce, even in the realm of surgery, where there is a complex flow of interprofessional working. In a prospective observational study, Lingard et al. examined the communication exchanges during general and vascular surgery [44]. A total of 421 communication exchanges were reported between 94 team members during 48 procedures. Of these exchanges, 30.6 % were reported as failures in communication relating to: poor timing of information exchange (45.7 %), missing or inaccurate information (35.7 %), unresolved issues (24 %), and key team members being excluded (20.9 %). Over a third of these communication failures resulted in visible consequences of inefficiency and wasted resources, team tension, or procedural error.

Wheelock et al. examined the effects of distractions on the surgical team within the operating room [45]. Operation-irrelevant conversations initiated by surgeons correlated negatively with their teamworking abilities (including communication, coordination, and leadership skills; P < 0.05 for all parameters). Nurses’ scores in teamwork were lower and stress levels higher with equipment-related distractions (P < 0.05). The advanced endoscopist could prime the team by commencing good communication flow through a comprehensive team brief just before the arrival of the patient and prior to distractions when the procedure starts.

The aspiring and practicing advanced endoscopy team should accept the inevitability of AEs. They will therefore need to possess an appropriate repertoire of technical and emotional coping strategies [46]. Studies suggest that significant AEs are associated with poorer mental health and burnout [47], as well as long-lasting emotional effects and an impact on clinical practice [48].

Debriefing could be a useful tool to cope with AEs. Team debriefing in surgery has been shown to improve technical performance [49] and reduce AEs [50]. In a study of 24 surgical trainees, laparoscopic jejunojejunal anastomoses were performed under supervision and videotaped. Half of the trainees underwent video debriefing. AEs from technical errors were less frequent in the debriefed group (P = 0.006). In the emergency department, “hot” debriefing immediately following a cardiac arrest has been shown to help clinical practice and support the psychological wellbeing of staff [51]. Team debriefing is likely to lend itself to advanced endoscopy, but future studies are required.

3.3 Complications

If the team mindset is underpinned by the principle that AEs are an eventuality, then complications should not be met with a negative connotation. Pathways to admit patients to the ward and access to emergency radiological and surgical support should be clearly established [12]. If these safety measures are not in place on the day of the procedure, members of the team should challenge the justification for proceeding.

Governing bodies acknowledge the need for written multidisciplinary pathways to manage iatrogenic perforations caused by endoscopy [52] [53]. There is a varied nature and level of risk with different advanced interventions. This implies that management pathways for specific AEs should be appropriately nuanced to the individual advanced intervention. For example, esophageal perforation from EMR requires immediate access to upper GI surgical review and support.

The sequence of events leading up to AEs after advanced intervention should be reviewed formally. This process should be performed on a regular basis. Ma et al. reported significant morbidity and mortality (25.3 % and 0.8 %, respectively) associated with surgical removal of nonmalignant colorectal polyps [54]. However, in this retrospective cohort study, matched comparisons were not made with endoscopic removal of nonmalignant polyps. In a prospective survey-based study of surgical faculties across the USA, 546 interviewees found morbidity and mortality conferences of good educational value and effective in reducing future errors [55]. Advanced endoscopy may benefit from regular mortality and morbidity reviews, as part of a wider effort to audit performance. Furthermore, a multidisciplinary approach would provide more valuable insight and reflection from the perspective of the endoscopist, the in-room assisting team, and affiliated GI medical and surgical team members knowledgeable in the intervention.

3.4 Reconnaissance

Endoscopy rooms in contemporary times can be a convivial space, which may serve to enhance staff wellbeing, as well as alleviate the anxieties of patients [56]. However, during crucial periods of endoscopic intervention, the team needs to become more focused. In a study of 26 laparoscopic cholecystectomies and 22 carotid endarterectomies, the relationship between the nontechnical skills of individual team members (leadership and management, teamworking, problem-solving, decision-making, and situation awareness) and operative outcomes were compared [57]. The operating time decreased significantly with higher surgical leadership and management scores (P = 0.046). Errors in surgical technique were associated with less surgical situation awareness (P < 0.001). Other procedural problems were associated with the leadership and management skills of nurses (P = 0.03).

Advanced endoscopic intervention would also benefit from endoscopists demonstrating strong leadership skills and teamworking. One possible way to achieve this is for the endoscopist to adopt verbal conscious competence [58] [59]. Endoscopy trainers who display conscious competence (understanding what is required to perform a task and the ability to convey this to others) teach endoscopy effectively [59]. The concept of verbal conscious competence may be relevant to the advanced endoscopist.

The following would be an illustrative example for performing polypectomy by EMR. Before starting, the endoscopist describes their impression of whether the intended polypectomy is expected to be straightforward, moderately challenging, or difficult; this status is fluid and may change during therapy at which point the endoscopist should update the team. The planned technical approach is described, including where the needle will be injected for the mucosal lift, the intended effect, and positioning of the polyp post-lift, planned snare size, and electrical settings for cutting and/or coagulation; whether the snare is to be closed by the endoscopist or an assistant, and whether clipping is likely to be needed to close the post-polypectomy defect. The endoscopist continues to then verbally acknowledge the likelihood of AEs (e. g. bleeding, perforation, or incomplete resection), how any AE will be specifically dealt with (e. g. adrenaline, clipping, radiological scans and surgical consult, snare-tip soft coagulation, or argon plasma coagulation), and confirm with the team that all necessary equipment and personnel are available. A clear moment is identified at this point by the endoscopist encouraging team members to verbalize any questions or uncertainty. Once a team consensus is reached and readiness to start is confirmed the endoscopist delivers a verbal cue that signals the start of therapy: “Let us begin.”

An observational study by Schraagen et al. evaluated different communication processes during 40 cases of pediatric cardiac surgery [60]. Surgeons were observed to display more explicit coordination behavior (exchange of situational awareness statements and resulting coordination actions), whereas anesthesiologists demonstrated more heedful inter-relating behaviors (monitoring other team members’ work, ensuring processes were running as expected, and providing corrective responses to nonroutine events). Use of explicit coordination behavior amongst anesthesiologists differed significantly between uncomplicated operations (mean of 12.88), and operations where minor and major AEs occurred (means of 21.55 and 16.4, respectively; P = 0.01). Most unexpected events occurring during surgery were noticed and dealt with through explicit coordination tactics. The group suggested that, for more difficult unexpected scenarios, heedful inter-relating communication may be required. The ideal communication process amongst the advanced endoscopy team requires further evaluation. Nonetheless, a system should be in place to bring the team together immediately before the act of intervention.

The concept of cognitive overload refers to the situation in which the demands placed on an individual by mental work are greater than what their mental abilities can cope with [61]. In the context of teaching endoscopy, avoiding cognitive overload of the trainee may improve learning. Sewell et al. interviewed 22 experienced endoscopy trainers and identified three tactics for reducing overload of the working memory of learners: matching intrinsic load (performing essential components of a task) to the learner’s ability, minimizing extraneous load (mental effort towards distracting stimuli), and optimizing germane load (promoting formation and refinement of learning) [62]. Wheelock et al. reported distractions being evident in 98 % of observed general surgery and vascular surgery cases [45]. The advanced endoscopist could benefit from avoiding cognitive overload. Reconfirming team roles just before the act of therapy would allow the endoscopist to then purely focus on the technical demands of the advanced intervention.

3.5 Envelopment

Suboptimal handover of patients during transfer of care can lead to AEs [63]. Furthermore, a standardized handover process may reduce preventable medical errors [64]. Herrigel et al. identified highly variable levels of clinical information being provided to tertiary centers during patient transfer [65]. Receiving teams were updated about the clinical status of patients prior to transfer over a widely variable timeframe (from 2 to 24 hours). A copy of the endoscopy report would act as a real-time update to a patient’s “medical passport” that they carry with them. This would detail the intervention performed, points of contact for managing foreseeable AEs, and the emergency contact details for the advanced endoscopy team responsible. This would be beneficial when current systems are still unable to seamlessly share clinical information universally across different hospitals.

In some cases, it may be difficult to include all post-procedure instructions within the body of an endoscopy report. A detailed procedure-specific patient information leaflet at discharge may equally be helpful.

Clinical documentation accompanying interhospital transfer of patients is highly variable [65]. Harl et al. reported that the diagnosis was not documented in the transfer notes of 9.7 % of patients in an emergency department accepting patients for emergency surgical consultation [66]. In fact, referring documents arrived after the patient’s arrival in 12.4 % of cases. In 32.7 %, the referring hospital physicians had to be consulted for further clinical clarification. Similarly, another group found that objective clinical information (including a discharge summary and the latest blood and radiology results) was available for the handover process in only 29 % of interhospital transfers to tertiary hospitals. We would recommend that careful and timely communication with referring clinicians is essential in order to optimize the management of shared-care patients undergoing advanced endoscopic procedures.

In some instances, the procedure being undertaken may be in a regional (tertiary) or national (quaternary) center. The team performing the index advanced procedure may be best suited to deal with any AEs. Subspecialization within endoscopy implies that not all endoscopy teams have the same proficiencies [20] [67]. In a retrospective study of 542 colorectal lesions requiring endoscopic resection at a tertiary center, a previous failed attempt at resection was negatively associated with subsequent en bloc resection [68]. The team performing the index endoscopy would already have experience, planned strategies, and the team-based skills [19] necessary to deal with potential AEs or failed procedures [31].

The interventional endoscopy team should therefore envelop the responsibility of the entire patient pathway. This would start with the pre-assessment and counselling of the patient, include delivery of high quality endoscopic intervention, and finally offer prompt management of AEs should they occur. If the intended endoscopic procedure is unsuccessful, the endoscopy team should facilitate further subsequent management. Some patients and referring clinicians may prefer the interventional endoscopy team to provide continuity of care. Advanced endoscopy teams may have previous experience in managing similar endoscopic AEs or failures if undertaking high case volumes [68]. However, local services may be effective and more appropriate in some cases. As an illustration: if a patient develops symptoms of a delayed perforation following ESD, local assessment and surgical management is more appropriate than returning to a tertiary center that is geographically far away.

The principle of envelopment therefore refers to the responsibility of the advanced endoscopy team to plan the management of all outcomes. For each case, there should be prior agreement as to whether AEs and failed procedures would be dealt with locally or at the interventional center.

3.6 Documentation

The documentation process of a patient’s journey should start as early as the initial MDT discussion seeking out the appropriate therapeutic strategy [24]. Anticoagulant and antiplatelet medications are commonly prescribed for various indications, including ischemic heart disease, cerebrovascular disease, previous thromboembolic disease, and prothrombotic conditions [69] [70]. The periprocedural management of such medications should be made explicit during the MDT discussion and documentation process. International guidance is available with protocols that address the multitude of commercially available anticoagulants and antiplatelets with respect to the intended therapeutic intervention [71] [72] [73]. Standard operating procedures often reflect national guidelines and, if already locally established, further MDT discussion is not necessary. Where evidence is equivocal, such as the role of prophylactic hemostatic clips following colorectal polypectomy [74], local policies should be agreed upon beforehand.

A higher ASA status is associated with more frequent AEs during both EGD and colonoscopy [30], as well as advanced procedures, such as wide-field EMR [32]. National guidelines in the UK recommend that, when obtaining consent for endoscopic resection of large nonpedunculated colorectal polyps, the full list of management options (including endoscopic therapy, surgery, and conservative management) be discussed with the patient [27]. This is applicable to all proposed advanced endoscopic interventions and should be clearly documented in the clinical notes.

Human factors remain a significant cause of medical errors [18]. Implementation of the World Health Organization (WHO) surgical safety checklist is commonplace and may improve procedural outcomes and reduce errors [75] [76], although the jury is still out. Tailored checklists are also recommended [22] [77] [78] to reduce human errors in endoscopic practice and improve patient safety. Dubois et al. demonstrated that a pre-endoscopy checklist improved accurate patient identification by physicians (from 0 % at baseline to 87 %; P < 0.001) [79]. Kherad et al. reported that implementation of a precolonoscopy checklist improved team and patient perception of teamwork and team communication, although complication rates did not change [77].

Advanced endoscopy is similar to surgery in terms of its technical complexity and invasiveness. This implies a higher risk for AEs associated with therapeutic interventions [80]. Most generic endoscopy checklists would not adequately address the idiosyncrasies of advanced procedures, and checklists need to be nuanced. Prompts for the risk assessment of endotherapy in patients who are on anticoagulation or antiplatelet medication [81], the performance of advanced equipment checks by competent staff [22], and clear documentation of emergency contact details on the report are a few examples, but this is by no means an exhaustive list. Individualization of checklists is needed to adapt to the growing range of niche advanced procedures.

4 Conclusion

In the presence of a well-trained team, advanced endoscopy can appear seemingly effortless, akin to the perfect coordination observed at a Formula 1 racing pitstop [82]. When disorganized however, the outcome could be harmful. The epitome of a model advanced endoscopy team is therefore more than just the physical gathering of experts.

Team training is well recognized in the field of surgery [83] and is equally important in the realm of endoscopy, where education in human factors and simulation training may be of benefit [14] [19] [20] [84]. One of the downstream effects of complying with the European Working Time Directive is the increase in team composition changes. Fixed surgical teams operating in the same operating room have been shown to reduce procedural and turnover time durations, and improve teamwork and safety awareness. [85] [86]. The technical nature and environment of advanced endoscopy is synonymous to that of surgical operations. Advanced endoscopy staff may benefit from undergoing training together as a unit. Studies are needed to further explore the role of fixed teams and formal team training in advanced endoscopy. Advanced endoscopists should also have access to fellow peer support, whether this be in the form of peer coaching [87] within the same organization or “buddying-up” with advanced endoscopists at other centers [88].

The advanced endoscopy team belongs to a wider service that provides access to therapeutic intervention. The quality indicators of an ideal advanced endoscopy service have not been defined but deserve attention, particularly with the growing number of therapies being delivered at endoscopy [16]. The complexity of performing a polypectomy can be graded using the parameters of size, morphology, site, and access (SMSA) [89]. Moreover, SMSA grading can be used to determine the time required to perform an advanced polypectomy [90]. Time allocations on an advanced therapeutic endoscopy list should therefore be modified from the standard routine endoscopy list. Adjustments to equipment and environment are also needed to accommodate team members from other specialties, such as anesthesiologists providing propofol-assisted endoscopy [91] and interventional radiologists facilitating rendezvous ERCP procedures.

The rapidly growing list of endoscopic therapeutic possibilities reflects the evolution in technical ability but also complexity. The practical challenges of advanced endoscopy are approaching those of surgery. Outcomes are therefore not determined by the skills of the endoscopist alone, but by the effectiveness of the team. The historical approach to experiential and often ad hoc endoscopic training is outdated. The SACRED philosophy we describe is one that introduces the next level of training for advanced endoscopy. The advice we provide is not intended to be prescriptive. We hope to encourage readers, if not already doing so, to shift their attention away from solely developing the endoscopist. Our approach encompasses the fundamental elements we feel are necessary to create a unified crew who, with these principles enshrined, are highly capable and able to excel in this exciting field of gastroenterology.

Disclaimer

The legal disclaimer for ESGE guidelines [92] applies to this Position Statement.

Endorsements

This ESGE position statement has been endorsed by the British Society of Gastroenterology (BSG).

Competing interests

R. Bisschops is supported by the Research Foundation – Flanders (FWO); he has received research support from FujiFilm, Medtronic, and Pentax (2015 to present) and speakersʼ fees from Norgine (2016 to present), Ipsen (2020), and Pentax (2015 to present); he has provided consultancy to FujiFilm, Pentax (2015 to present), Norgine (2016 to present), GI Supply, and CDx diagnostics. M. Keuchel is a member of the guideline group for quality in endoscopy of the German Society of Gastroenterology (DGVS; 2014 to present). M. Rutter is a member of the endoscopy groups of both the British Society of Gastroenterology and the Joint Advisory Group (JAG; ongoing). I.A. Azmy, P. Bhandari, H.-L. Ching, T. Gyökeres, A.D. Hopper, R. Kuvaev, M.S. Lau, P. Leclercq, E. Macken, D.S. Sanders, M. Thoufeeq, and A.M. Veitch declare that they have no conflict of interest.

Acknowledgments

We thank Dr. Noor Mohammed and Prof. Marianna Arvanitakis for their time and expertise acting as the external reviewers for this manuscript. We also thank Prof. Cesare Hassan and Dr. Tony Tham for their time and expertise acting as the internal reviewers for this manuscript.

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Corresponding author

Publication History

Article published online:
30 May 2022

© 2022. European Society of Gastrointestinal Endoscopy. All rights reserved.

Georg Thieme Verlag KG
Rüdigerstraße 14, 70469 Stuttgart, Germany

• References

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  CrossrefPubMedGoogle Scholar
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  CrossrefPubMedGoogle Scholar
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  Google Scholar
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  CrossrefPubMedGoogle Scholar
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  CrossrefPubMedGoogle Scholar
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  CrossrefPubMedGoogle Scholar
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  CrossrefPubMedGoogle Scholar
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  CrossrefPubMedGoogle Scholar
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  CrossrefPubMedGoogle Scholar
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  CrossrefPubMedGoogle Scholar
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