This manuscript represents the outcome of a formal Delphi process resulting in an
official Position Statement of the ESGE and ESGENA. It provides an evidence-based
framework to develop and maintain skills in basic endoscopic procedures. These statements
relate to definitions, competence, and the structure of training.
Abbreviations
ADR
:
adenoma detection rate
AE
:
adverse event
AI
:
artificial intelligence
ASGE
:
American Society for Gastrointestinal Endoscopy
CRC
:
colorectal cancer
DOPS
:
Direct Observation of Procedural Skills
EGD
:
esophagogastroduodenoscopy
ESGE
:
European Society of Gastrointestinal Endoscopy
ESGENA
:
European Society of Gastroenterology and Endoscopy Nurses
GI
:
gastrointestinal
JAG
:
Joint Advisory Group in Gastrointestinal Endoscopy
KPI
:
key performance indicator
PEG
:
percutaneous endoscopic gastrostomy
PICO
:
population/problem, intervention, comparison, and outcome
SBT
:
simulation-based training
Introduction
Endoscopy is a mainstay of diagnosis and treatment of gastrointestinal pathology,
and the provision of high quality endoscopic procedures is essential to improving
clinical outcomes and patient experience. The European Society of Gastrointestinal
Endoscopy (ESGE) and the European Society of Gastroenterology and Endoscopy Nurses
(ESGENA) are dedicated to the development of evidence-based guidance aimed at increasing
quality and improving outcomes of both diagnostic and therapeutic procedures [1 ]
[2 ].
At the foundation of any such effort is the need to provide high quality education
to endoscopists in training. During training, endoscopists need to increase their
theoretical knowledge, use distributive attention, gain control over new tools, enhance
their ability to recognize, differentiate, and describe normal versus pathologic findings,
make timely decisions, communicate, collaborate, and develop leadership within a team.
Moreover, they must integrate all these aspects beyond the technical procedure into
a patient-centered management plan. Unfortunately, in most gastrointestinal (GI) endoscopy
training programs there is no standardized approach to achieve these aims during basic
endoscopy training, and most training programs rely on a quantitative procedure-caseload
approach. Moreover, training programs in basic GI endoscopy vary in their length,
opportunities, and procedures taught [3 ]
[4 ].
Despite the proliferation of society-sanctioned documents (such as guidelines, curricula,
technical reviews, and position statements), there is little guidance on basic GI
endoscopy training. However, before advancing to complex techniques or tackling advanced
endoscopic procedures, every endoscopist must acquire a comprehensive set of basic
technical and nontechnical skills. This is the foundation for all future development
and its importance cannot be overstated. While not every endoscopist will perform
advanced endoscopic techniques in their practice, all endoscopists need to attain
the same basic set of skills that should be thoroughly honed and correctly utilized.
Therefore, to ascertain and understand the differences in practice and unmet needs
among GI endoscopy training programs, the ESGE conducted a survey of ESGE member societies
and individual young endoscopists to be used as a starting point for this Position
Statement. The respondents reported that the main gaps in training were lack of mentorship
(20 %), no structured national training program (15 %), and limited access to training
for more advanced procedures (15 %).
The aim of this Position Statement is to provide structured, evidence-based guidance
on the essential factors and processes involved in training in basic GI endoscopy.
Ideally, it will serve trainers, trainees, governing bodies of professional gastroenterology/endoscopy
societies, and other stakeholders in making decisions regarding their current and
future approach to training in basic GI endoscopy.
Methods
This document was developed in accordance with the current ESGE Publications Policy
[5 ]. We opted for a Position Statement to address the strategic issue of training in
basic endoscopic procedures owing to an anticipated lack of evidence and the diversity
of national and local healthcare policies. Because of its nature, this Position Statement
does not consider various national legislative and practical issues involved in designing
GI endoscopy training programs and does not attempt to offer a legal standard. To
keep the size of this document manageable, we limited the discussion to the main structural
issues and therefore urge readers to consult the referenced literature for more detailed
guidance.
In 2021, the project leaders (G.A. and A.V.) made the initial proposal for this Position
Statement, which was subsequently approved by the ESGE governing board. It consisted
of two activities: an initial survey of the current state of basic endoscopy training
in ESGE member societies, and the drafting of the Position Statement itself. In November
2021, surveys were sent out to representatives of ESGE member societies and to individual
ESGE members under 40 years of age to gain perspective on current policies, areas
of uncertainty, and possible unmet needs in basic GI endoscopy training. At that time
the ESGE included 50 national member societies representing Europe, North Africa,
and the Middle East. A discussion of the survey results is included in Appendix 1 s , see online-only Supplementary material.
A preliminary list of questions and topics was shared with the 19 panelists of this
Position Statement. The panelists were divided into three task forces, and an initial
online meeting was held in February 2022. At this point minor changes to the structure
and question formulation were made. It was acknowledged that, while desirable, high
level evidence-based data would not be available or even possible for some aspects
of the discussion. In all instances, where it was applicable, we used a structured
template to standardize the literature search and the panelists conducted a systematic
literature search using the PICO (population/problem, intervention, comparison, and
outcome) format. When a PICO question was not considered feasible, we used an expert
review of the available literature to inform the Position Statement. Each task force
reviewed the available literature and drafted an initial manuscript with a proposed
list of statements, which was circulated among all the panelists.
The consensus for the proposed statements was assessed through an anonymous and iterative
online Delphi process. A maximum of three sequential voting rounds to reach consensus
was set beforehand. All statements were graded using a five-point Likert scale (1, strongly disagree;
2, disagree; 3, neither agree nor disagree; 4, agree; 5, strongly agree). Consensus was considered to have been reached when there was at least 80 % agreement
(the sum of agree and strongly agree) on each statement. Changes were made to the
statements after each round of voting in consideration of the comments and discussions
of the previous draft. Statements were deleted or reformulated by the project leaders
for the subsequent voting round if the agreement was < 80 %. Where there was a repeated
lack of consensus for a reformulated question, the choice was made to exclude the
statement from the final draft and report the lack of consensus. The results of each
voting round are detailed in Table 1 s .
After three voting rounds, the final statements ([Table 1 ]) and manuscript were discussed and approved during an online meeting. This draft
was then sent for external peer review, modifications, and final approval by the ESGE
governing board, and then to all ESGE individual members for comments.
Table 1
The final statements agreed after three rounds of voting.
Statement
1
ESGE and ESGENA define basic endoscopic procedures as those procedures that are commonly
indicated, generally accessible, and expected to be mastered (technically and cognitively)
by the end of any core training program in gastrointestinal (GI) endoscopy
2
ESGE and ESGENA consider the following as basic endoscopic procedures: diagnostic
upper and lower GI endoscopy, as well as a limited range of interventions such as:
tissue acquisition via cold biopsy forceps, polypectomy for lesions ≤ 10 mm, hemostasis
techniques, enteral feeding tube placement, foreign body retrieval, dilation of simple
esophageal strictures, and India ink tattooing of lesion location
3
ESGE and ESGENA recommend that training in GI endoscopy should be subject to stringent
formal requirements that ensure all ESGE key performance indicators (KPIs) are met
4
Training in basic endoscopic procedures is a complex process and includes the development
and acquisition of cognitive, technical/motor, and integrative skills. Therefore,
ESGE and ESGENA recommend the use of validated tools to track the development of skills
and assess competence
5
ESGE and ESGENA recommend incorporating a multimodal approach to evaluating competence
in basic GI endoscopic procedures, including procedural thresholds and the measurement
and documentation of established ESGE KPIs
6
ESGE and ESGENA recommend that competence in basic GI endoscopic procedures should
be assessed during training by dedicated endoscopy trainers
7
ESGE and ESGENA recommend the continuous monitoring of ESGE KPIs during GI endoscopy
training to ensure the trainee’s maintenance of competence
8
Training programs should offer stepwise exposure to skill acquisition, practice in
those techniques, and periodic assessment of relevant skills by formal trainers in
GI endoscopy within a structured and goal-oriented program
9
ESGE and ESGENA recommend that GI endoscopy training units fulfill the ESGE KPIs for
endoscopy units and, furthermore, be capable of providing the dedicated personnel,
infrastructure, and sufficient case volume required for successful training within
a structured training program
10
ESGE and ESGENA recommend that trainers in basic GI endoscopic procedures should be
endoscopists with formal educational training in the teaching of endoscopy, which
allows them to successfully and safely teach trainees
11
ESGE and ESGENA recommend that GI endoscopy nurses be actively involved in fully developing
the skillset of a trainee by contributing to instruction in basic equipment handling,
reprocessing protocols, and patient monitoring
12
ESGE and ESGENA suggest the inclusion of simulation-based training using validated
GI endoscopy simulators in the early phase of training in basic endoscopic procedures
13
ESGE and ESGENA recommend that continuous medical education through various on-site
and individual learning activities be supported during training
14
ESGE and ESGENA recommend that trainers use their best clinical judgement to match
the case to the trainee, appropriately supervise, and intervene as needed in order
to ensure high quality examinations and avoid unnecessary prolongation of procedures
or potential adverse events
15
ESGE and ESGENA recommend that GI endoscopy trainers, trainees, and training institutions
have specific professional liability cover according to their respective national
legislation. In procedures involving trainees, the trainer carries the overall responsibility
and should act prudently and in accordance with community standards of care in the
best interest of the patient
16
ESGE and ESGENA recommend that physicians involved in GI endoscopy training who are
confronted with medicolegal issues follow institutional guidance on risk management,
disclosure, and communication with the patient and their family members to mitigate
potential litigation
1 Definitions
1.1 Definition of basic endoscopic procedures
1 ESGE and ESGENA define basic endoscopic procedures as those procedures that are commonly
indicated, generally accessible, and expected to be mastered (technically and cognitively)
by the end of any core training program in GI endoscopy.
2 ESGE and ESGENA consider the following as basic endoscopic procedures: diagnostic
upper and lower GI endoscopy, as well as a limited range of interventions such as:
tissue acquisition via cold biopsy forceps, polypectomy for lesions < 10 mm, hemostasis
techniques, enteral feeding tube placement, foreign body retrieval, dilation of simple
esophageal strictures, and India ink tattooing of lesion location.
There have been attempts made at ranking the complexity of endoscopic procedures [6 ], but there remains no formal definition of what constitutes a “basic endoscopic
procedure.” A general understanding of the term implies an accessible, standardized
GI endoscopic procedure that can be provided competently and routinely by any fully
trained endoscopist. In contrast, advanced endoscopic procedures are technically more
demanding, less commonly available (or restricted to specialist referral centers),
more resource intensive, and presuppose prolonged specialist training and dedicated
credentialing [7 ].
Most current training curricula [8 ]
[9 ]
[10 ]
[11 ]
[12 ]
[13 ] agree on the following as basic GI endoscopic procedures: esophagogastroduodenoscopy
(EGD), rectoscopy, sigmoidoscopy, colonoscopy, tissue acquisition via cold biopsy
forceps, hemostasis techniques, enteral feeding tube placement, foreign body retrieval,
dilation of simple (short [< 2 cm] and straight) esophageal strictures, endoscopic
removal of polyps of ≤ 10 mm, and endoscopic marking (India ink tattoo) of lesions
requiring more advanced additional management ([Table 2 ]). Some curricula also include video capsule endoscopy within this list, but this
is not yet universally available in all endoscopy services. There is an expectation
that basic GI endoscopic procedures should be mastered by the end of a regular endoscopy
training fellowship to deliver independent endoscopists capable of managing most routine
indications for GI endoscopy.
Table 2
List of basic gastrointestinal (GI) endoscopic procedures.
Procedure[* ]
Diagnostic upper GI endoscopy
Diagnostic lower GI endoscopy
Cold forceps-assisted biopsy
Polypectomy for polyps of ≤ 10 mm
Enteral feeding tube placement
Hemostasis
Mechanical: rubber band ligation, through-the-scope clip, cap-mounted clip (if locally
available), endoloop
Foreign body retrieval
Endoscopic dilation of simple esophageal strictures
Tattooing of lesion location
* Photodocumentation of anatomic landmarks and suspected pathologic lesions and standardized
endoscopic reporting are considered part of the GI endoscopic procedure.
There is some variability in defining some of these procedures as part of essential
core training in all programs owing to variation in epidemiology, resources, and national
or institutional policies. For example, procedures such as rectoscopy/proctoscopy
are more likely to be performed by surgeons, while opportunities for exposure to foreign
body retrieval may be limited in teaching units without emergency medicine departments.
On the other hand, certain trainees may be allowed to engage in more advanced GI endoscopic
procedures toward the end of their basic training (e. g. advanced endoscopic mucosal
resection, dilation of complex esophageal stenosis, etc.). Furthermore, because advanced
endoscopic imaging (i. e. virtual chromoendoscopy) has become widespread and is routinely
used in training, it is important to include exposure to optical diagnosis in basic
training, while acknowledging that it remains a skill requiring further specialized
training [14 ].
1.2 Access to training
3 ESGE and ESGENA recommend that training in GI endoscopy should be subject to stringent
formal requirements that ensure all ESGE key performance indicators (KPIs) are met.
Traditionally across the globe, basic GI endoscopic procedures have been performed
by physicians belonging to gastroenterology/hepatology or surgical specialties. Some
healthcare systems also allow other physicians (i. e. general practitioners and internal
medicine specialists) or nonphysicians (i. e. nurses, nurse practitioners, and physician
assistants) to perform certain basic GI endoscopic procedures, either independently
or under limited supervision from an attending physician [15 ]
[16 ]
[17 ].
The lack of personnel and significant increase in the number of patients requiring
endoscopic examinations, particularly flexible sigmoidoscopy or colonoscopy in the
setting of colorectal cancer (CRC) screening programs, are the main drivers for training
nonphysicians to perform these basic procedures [18 ]. Meanwhile, unmet needs in the era of open-access endoscopy, individual motivation,
and financial incentives may move physicians outside of gastroenterology/hepatology
or general surgery to pursue training in basic endoscopic procedures.
There are some advantages to employing nonphysician endoscopy providers in certain
situations, so it is essential to ensure that the same standard of high quality for
the procedures is maintained. Despite several studies reporting adequate performance
of both upper and lower GI diagnostic procedures by nurses [19 ]
[20 ]
[21 ], a large systematic review of 17 476 documented nonphysician endoscopies [22 ] showed that data on the efficacy and safety of endoscopies performed by nonphysicians
is conflicting and prone to a significant risk of bias. Furthermore, a recent large
systematic review and meta-analysis of more than 3.5 million colonoscopies [16 ] reported significant differences in the quality of colonoscopy across various medical
specialties and concluded that gastroenterologists significantly outperform surgeons
and other medical specialists in key quality metrics such as adenoma detection rate
(ADR), cecal intubation rate, and post-colonoscopy interval CRC rate. These findings
are consistent with the pre-existing literature [23 ]
[24 ], which also signaled that the quality and safety of basic endoscopic procedures
vary significantly across different medical specialties. Consequently, expert opinions
[25 ]
[26 ] and professional society guidance [18 ] advise caution in relation to nonphysicians performing endoscopic procedures.
When deciding which healthcare workers should be trained to perform basic endoscopic
procedures, a wide range of medical, legal, economic, and cultural aspects should
be considered, including societal need, patient safety and optimal outcome, workforce
availability, and equity of access to a high standard of healthcare, as well as liability
should adverse events (AEs) occur.
2 Competence
2.1 Skillset
4 Training in basic endoscopic procedures is a complex process and includes the development
and acquisition of cognitive, technical/motor, and integrative skills. Therefore,
ESGE and ESGENA recommend the use of validated tools to track the development of skills
and assess competence.
Competence in basic GI endoscopic procedures can be defined as the attainment of an
adequate level of skill that enables the endoscopist to provide efficient and safe
procedures according to professional standards. The skillset needed for a trainee
to successfully and safely perform basic GI endoscopic procedures can be categorized
broadly as cognitive, motor, and integrative ([Fig. 1 ]) [8 ]
[27 ]. Achieving competence in a timely fashion is the aim of any training program in
basic endoscopy and the basis for credentialing.
Fig. 1 The essential skills required to achieve competency in basic gastrointestinal (GI)
endoscopy.
Before starting hands-on training, it is mandatory to acquire basic knowledge regarding
endoscopic anatomy, the function and technical characteristics of the endoscope, the
indications and contraindications for procedures, and the relevant key performance
indicators (KPIs) [2 ]
[28 ]
[29 ]
[30 ]
[31 ]. Knowledge regarding preprocedural management, such as bowel preparation, the assessment
of relevant patient history, obtaining informed consent, and anticoagulation management,
and the management of immediate AEs are all part of the essential cognitive skills
novices must acquire early in their training.
In recent years, the focus on assessing a trainee in GI endoscopy has clearly shifted
from rigid numerical procedure thresholds toward a competency-based educational model
[32 ]
[33 ]
[34 ]
[35 ]. This shift originated from the observation that trainees' learning curves varied
significantly in clinical practice after completion of a GI fellowship [36 ]
[37 ]. The definition of competency has also evolved beyond motor and cognitive skills,
by including a set of “integrative” skills, such as appropriate patient communication,
leadership, and professionalism. The mainstay of competency-based education is skill
assessment, centered within a defined framework of various competencies. These can
be assessed through evidence-based assessment tools and direct observation in the
workplace from the beginning of training [38 ]
[39 ]. The Direct Observation of Procedural Skills (DOPS) has been shown to provide this
kind of multidimensional evaluation and various other tools provide objective and
comprehensive formative assessment across the different domains of GI endoscopic competence
[37 ]
[40 ]
[41 ]
[42 ]
[43 ]
[44 ]
[45 ]
[46 ]
[47 ]
[48 ] (see Appendix 2 s ).
In addition, “learning curve monitoring” in the form of a logbook allows trainees
to report performance data on specific endoscopic procedures. The endoscopy trainer
should evaluate the logbook and the trainee's progress at predetermined time intervals
[9 ]. For instance, the Joint Advisory Group in Gastrointestinal Endoscopy (JAG), has
proposed an e-logbook covering:
self-assessment of performed procedures based on selected parameters (KPI, DOPS)
traineeʼs assessment of the trainer(s)
anonymized feedback from trainers
creation of a personal development plan for each trainee [49 ].
In a national survey in the UK, this e-portfolio was found to be a highly valuable
tool in assessing trainee progress in GI endoscopy training [50 ] and it could represent a good model for more widespread use in endoscopy learning
programs.
2.2 Competence assessment
5 ESGE and ESGENA recommend incorporating a multimodal approach to evaluating competence
in basic GI endoscopic procedures, including procedural thresholds and the measurement
and documentation of established KPIs.
Traditionally, appraisal of competence in basic GI endoscopic procedures relied on
reaching a minimum number of procedures that was thought to reflect adequate hands-on
exposure [9 ]. KPIs in endoscopy have been strongly associated with increased procedural quality
and patient experience [51 ]
[52 ]. Furthermore, through the Quality Improvement Initiative, the ESGE has made available
several documents aimed at providing reliable performance measures that can be readily
employed in the training framework and improve the overall quality of endoscopic procedures
and services [2 ]
[28 ]
[29 ]
[30 ]
[31 ]
[53 ]. Therefore, it seems only reasonable to incorporate these same indicators during
endoscopy training evaluation, as they may offer a more comprehensive assessment of
endoscopic competence. For certain procedures, established KPIs ([Fig. 2 ]) have been correlated to procedural caseload and competence levels [10 ]
[27 ]
[39 ]
[54 ]
[55 ]
[56 ]
[57 ]
[58 ]
[59 ]
[60 ]
[61 ]
[62 ]
[63 ]
[64 ]
[65 ]
[66 ]
[67 ]
[68 ]
[69 ]
[70 ]
[71 ]
[72 ]
[73 ]. The inclusion of KPI measurement during training appears to describe more accurately
and completely the level of competence achieved.
Fig. 2 Schematic representation of available recommendations for performance thresholds
and key performance indicators (KPIs) for basic endoscopic procedures.
Below we present an overview of the current evidence regarding competence thresholds
for each basic GI endoscopic procedure. A detailed overview of studies investigating
the associations between KPIs and competence/training is available in Appendix 2 s .
2.2.1 EGD
The competency threshold for EGD has been defined as the number of procedures needed
to reach a duodenal intubation rate of 95 %. This ranges from 120 to 250 procedures
in most studies [62 ]
[74 ]
[75 ], while guidelines recommend minimum case volumes ranging from 130 to 1000 EGDs [10 ]
[11 ]
[54 ]
[58 ]. Additional KPIs such as esophageal intubation, J-maneuver (gastric retroflexion)
rate of 95 %, D2 intubation time < 4.75 minutes, and recognition of GI pathologies
have been proposed, but these did not correlate with EGD caseload [44 ]. The American Society for Gastrointestinal Endoscopy (ASGE) recommends esophageal
and duodenal (to the second portion of the duodenum) intubation rates of 95 %, while
the JAG also includes a successful gastric retroflexion rate of ≥ 95 % as a criterion
standard [76 ].
We strongly believe that additional KPIs [28 ] such as photodocumentation of upper GI anatomic landmarks, minimum procedure time,
use of standardized terminology in endoscopy reports, and the proportion of correctly
used biopsy protocols (e. g. MAPS, Seattle) should be systematically incorporated
into the assessment of EGD competency.
2.2.2 Colonoscopy
There is significant variability in defining colonoscopy caseload thresholds across
the biomedical literature [39 ]
[60 ]
[61 ]
[62 ]
[63 ]
[64 ]
[65 ]
[66 ]
[67 ]
[68 ]
[69 ]
[70 ]
[71 ]
[72 ]
[73 ] and different guidelines [10 ]
[27 ]
[54 ]
[55 ]
[56 ]
[57 ]
[58 ]
[59 ] (range 50–500 cases). Thresholds are higher when stricter definitions of competency
are applied, yet there is no consensus on an overall minimum colonoscopy caseload
[39 ]
[68 ]
[69 ].
Established KPIs (i. e. cecal intubation rate, ADR, and withdrawal time) have been
included in studies and assessed in terms of colonoscopy competence. A cecal intubation
rate ≥ 90 % was assessed in 12 studies and correlated with variable colonoscopy thresholds
(range 120–500) [60 ]
[62 ]
[63 ]
[66 ]
[68 ]
[69 ]
[70 ]
[71 ]
[72 ]
[73 ]
[74 ]. Data regarding the ADR varied according to the year of training, with no relation
to case volume [67 ]
[69 ]
[70 ], nor improvement after training completion [62 ]. Only one study reported correlation of the ADR with caseload [77 ]. Withdrawal time decreased as the level of experience increased. In one study, withdrawal
time settled at approximately 10 minutes after 150 procedures [71 ], but no correlation with colonoscopy competence was identified [67 ]
[68 ]
[70 ]
[71 ]
[78 ].
2.2.3 Polypectomy
Usually, competence in performing polypectomy is expressed by minimum caseload volume
(range 250–400). The thresholds correspond to select KPIs, such as delayed post-polypectomy
bleeding rate of < 2 % (400 polypectomies) [79 ] or independent unassisted polypectomy completion rate of > 80 % after 250–300 polypectomies
[72 ]
[80 ]. En bloc polyp resection rates increase with skill level and are mirrored by a significant
reduction in mean polypectomy time [80 ]. Furthermore, polypectomy completion rate appears to be a marker of efficiency,
but is inadequate to identify polypectomy competence [72 ]
[79 ]
[80 ].
The Gastroenterology Core Curriculum delivered by the American Association for the
Study of Liver Diseases (AASLD), American College of Gastroenterology (ACG), American
Gastroenterological Association (AGA) Institute, and ASGE in 2007 proposed a threshold
of 30 procedures for snare polypectomy and hemostasis [81 ]. However, polypectomy skills go beyond the performance of resection. Polypectomy
involves correct lesion assessment and characterization using validated morphologic
classifications, appropriate choice of resection technique, and ancillary maneuvers,
as covered by the Direct Observation of Polypectomy Skills (DOPyS), a global assessment
scale [82 ]. In summary, data regarding competence in basic polypectomy are scarce and based
on few studies with a limited number of subjects [72 ]
[79 ]
[80 ].
2.2.4 Bleeding management
No evidence exists regarding competence thresholds in the endoscopic management of
GI bleeding. Scientific societies have arbitrarily set the minimum threshold to acquire
basic endoscopic hemostasis competence for upper GI bleeding (UGIB) emergencies at
10–25 procedures [60 ]
[61 ]
[83 ]. A recent analysis of the JAG endoscopy training system database in the UK revealed
significant regional variation in exposure to acute UGIB cases during training [84 ], with key issues being the lack of structured training and lack of access to on-call
exposure to UGIB cases [85 ].
2.2.5 Percutaneous endoscopic gastrostomy placement
A joint American recommendation states 15 percutaneous endoscopic gastrostomy (PEG)
procedures as the competence threshold, while Canadian credentialing guidelines recommend
20 PEG procedures [81 ]
[86 ]. A single study partially assessed training in PEG placement; however, no obvious
benchmark could be established [87 ].
2.2.6 Esophageal dilation
Guidelines [61 ]
[83 ]
[88 ]
[89 ] recommend that 20 procedures are required to acquire competence in esophageal dilation
of simple strictures, which are generally defined as short, symmetrical, non-angulated,
and allowing the passage of the diagnostic endoscope.
2.2.7 Assessment of competence
6 ESGE and ESGENA recommend that competence in basic GI endoscopic procedures should
be assessed during training by dedicated endoscopy trainers.
Competence assessment during training may be external or may rely on self-assessment
[90 ]. External assessment is performed by supervisors – generally the endoscopy trainers
themselves, usually defined as “expert endoscopists,” although an unequivocal definition
of the latter is lacking. Bias in the assessment process is an obvious concern because
of inherent subjectivity of the assessor, with the three “isms” (ageism, racism, and
sexism) impacting transparency [91 ]. A “dual” assessment has been proposed to increase objectivity, but this is considered
more time-consuming [89 ]. Whether a trainee should be overseen by a single or by multiple trainers during
fellowship and whether this has the potential to reduce bias has not been established
and is dependent on local conditions.
The role of self-assessment has been evaluated, with some studies revealing a tendency
to overestimate performance [90 ]. Video-based observation of expert performance of procedures intending to improve
self-assessment accuracy may alleviate this problem [92 ]
[93 ]
[94 ]
[95 ]
[96 ]
[97 ]. Credentialing bodies, such as JAG in the UK or the Royal College of Physicians
and Surgeons of Canada, acknowledge the importance of self-assessment in the GI endoscopy
learning path [98 ].
The GI endoscopy trainer should be qualified in conducting credible, unbiased appraisals
of trainees’ performance. However, to date, no validated tools to identify appropriate
educators for endoscopy training have been developed. The assessor–trainee matching
process should be determined locally and tailored to national regulations. The review
of competence should be a multistep, well-structured process, conducted using evidence-based
assessment tools incorporating subsequent milestones. The relevance of self-assessment
seems to be ambiguous, although achieving a high level of agreement between the assessor
and the trainee (i. e. by incorporating self-assessment in the “ask-tell-ask” complex
approach [99 ]) may allow it to be one of the additional training validation options.
Assessment of competence performed during training is the foundation for successful
certification upon completion of the gastroenterology fellowship and is essential
in establishing if a physician can work independently, offering safe and high quality
endoscopy care. Accreditation and credentialing are beyond the scope of this document,
and vary significantly amongst healthcare systems, sometimes involving formal examinations
by independent observers or proctors.
2.3 Maintenance of competence
7 ESGE and ESGENA recommend the continuous monitoring of KPIs to ensure the trainee’s
maintenance of competence.
After gaining adequate competence in basic GI endoscopic procedures, reduced procedural
volume is associated with suboptimal performance [100 ]. Therefore, continued development and maintenance of skills is critical to ensure
an ongoing high level of competence. Practicing GI endoscopists should keep track
of their own KPIs to make sure that they do not fall under the required thresholds.
There is very limited evidence on techniques and retraining modalities for endoscopists
after the completion of their training program. The existing literature has described
different interventions and their impact on endoscopists’ performance indicators.
The most robust data show that any kind of feedback on endoscopist performance improves
performance indicators [101 ]. A meta-analysis reported a modest improvement in ADR (risk ratio [RR] 1.21, 95 %CI
1.09–1.34) when endoscopists were provided with feedback of their performance [102 ]. Low polyp detectors appeared to benefit the most from this intervention. Incorporating
retraining programs and continuous quality assessment seem crucial to ensuring a continuous
high quality GI endoscopy service.
3 Structure of training
3.1 Training program structure
8 Training programs should offer stepwise exposure to skill acquisition, practice in
those techniques, and periodic assessment of relevant skills by formal trainers in
GI endoscopy within a structured and goal-oriented program.
The general structure and requirements of GI endoscopy training programs are overseen
by national accreditation bodies owing to the obvious need to ensure uniformity and
allow accreditation and credentialing. However, the specifics of GI endoscopy training
programs depend on individual institutional strategies and are therefore quite variable
[9 ]
[54 ]
[103 ]. Endoscopy training programs are generally geared for gastroenterology/hepatology
or surgical trainees as part of their fellowship program. Alternative pathways [104 ]
[105 ] for training of both physicians and nonphysicians are also available in some healthcare
systems.
A standardized program for training in basic GI endoscopy should offer participants
a formal framework, sufficient time, and an appropriate training environment that
enables the stepwise acquisition of those essential attributes required for competent
practice of basic endoscopy. A paradigm shift from the classic apprenticeship model
to a highly structured and formalized, competency-oriented education is underway in
many healthcare systems [41 ]
[106 ]. A schematic view of the optimal characteristics for training programs in GI endoscopy
is presented in [Table 3 ].
Table 3
Characteristics of the optimal endoscopy training program.
Characteristic
Clear structure and goals for trainees and trainers
Actualized, competency-based curriculum
Formally trained trainers
Natural stepwise progression in access to procedures
Availability of various validated simulators
Educational activities (i. e. journal clubs, seminars, case presentations, morbidity
and mortality conferences, and multidisciplinary sessions, academic courses, video
or online courses, etc.)
Competency-oriented minimum requirements for procedure volume and training period
Continuous assessment of performance (i. e. log books, periodic documented trainer
assessments)
Capacity for continuous feedback between trainer and trainee
Inclusive, open, and growth-oriented environment
Sustainable development
A coherent GI endoscopy training program provides a natural progression from introductory
theoretical knowledge to endoscope manipulation outside the patient, leading to progressively
more independent hands-on integrated patient-centered care under the supervision of
dedicated trainers and the management of a program director. The endoscopy program
director is responsible for devising and updating the formal framework and training
curriculum, establishing the educational activity list, continuously overseeing the
performance of both trainers and trainees, monitoring outcomes, and determining the
institutional rules for privileging and credentialing [33 ].
Briefly, a trainee should progress from simple to more demanding endoscopic activities,
and from supervised to minimally or even unsupervised endoscopic procedures as experience
is accrued. While assigning a trainee to a particular trainer for the duration of
the program theoretically ensures a stronger relationship and can be conducive to
feedback and coaching [107 ]
[108 ], some programs recommend or have constraints that require the use of multiple trainers
per trainee. Breaks in training may have a limited negative influence on learning
curves, but they do not preclude the teaching of endoscopy “in blocks” to allow for
clinical or research rotations [109 ].
A proposed flowchart for the development of trainees during a GI endoscopy training
program is shown in [Fig. 3 ].
Fig. 3 Proposed structure for a training program in basic gastrointestinal endoscopy showing
the stepwise acquisition of the relevant cognitive, motor, and behavioral skills that
ensure competence upon completion of the training program. A trainee must first become
familiar with the general rules and practices, as well as scope characteristics and
ergonomics, before starting to manipulate the endoscope, while continuous educational
activities are pursued throughout training. Trainees should progress through a brief
period of orientation, in which they further familiarize themselves with the equipment
and controls, and ideally move on to validated simulators before attempting hands-on
procedures in patients. Peer-to-peer interaction may help in the initial stages of
orientation and first procedures, while close trainer supervision with periodic assessments
and feedback ensure the development of technical proficiency. As trainees start procedures
in patients, they should become accustomed to the endoscopy team and workflow, and
gradually develop essential nontechnical endoscopic skills (such as pre- and post-endoscopy
management, leadership, and integrated team management).
3.2 Requirements for training centers
9 ESGE and ESGENA recommend that GI endoscopy training units fulfill the ESGE KPIs
for endoscopy units and, furthermore, be capable of providing the dedicated personnel,
infrastructure, and sufficient case volume required for successful training within
a structured program.
Currently, there are dedicated training programs for advanced GI endoscopy (e. g.
endoscopic ultrasound [EUS], endoscopic retrograde cholangiopancreatography [ERCP],
third-space endoscopy, etc.) with prespecified requirements for training [110 ]
[111 ]
[112 ]
[113 ]. However, no standard has been defined for programs dedicated to training in basic
GI endoscopy. It is well established that the endoscopy service serves an essential
role in providing high quality, safe, and patient-centered endoscopy, and the ESGE
has recently published recommendations on the essential performance measures required
of any endoscopy service [30 ], as well as suggestions for improving the sustainability of these services [114 ]. Apart from fulfilling these criteria, an endoscopy training unit should additionally
have adequately trained and credentialed staff experienced in teaching basic GI endoscopic
procedures, dedicated workspaces, and educational facilities (e. g. meeting rooms,
auditoria, libraries, etc.), and ideally a simulator-training center. Importantly,
an efficient educational process requires adequate staffing (particularly a low trainee-to-trainer
ratio) and a sufficient case volume to permit all trainees to at least reach the minimum
threshold number of endoscopic procedures to achieve competence.
These endoscopy units should be credentialed and fulfil the requirements of their
respective national healthcare and educational systems. Through the development of
partnerships with less developed countries, the ESGE also seeks to encourage the development
of local endoscopy training units that can provide high quality endoscopy in limited
resource settings [115 ].
3.3 Trainer requirements
10 ESGE and ESGENA recommend that trainers in basic GI endoscopic procedures should
be endoscopists with formal educational training in the teaching of endoscopy, which
allows them to successfully and safely teach trainees.
It is now widely acknowledged that expertise in GI endoscopy is not sufficient to
guarantee performance as an endoscopy trainer [116 ]
[117 ]. Trainers must have “conscious competence” of the endoscopic technique and of the
training activity. Conscious competence is the trainers ability to be able to deconstruct
their actions, verbalize their interventions, and communicate the sequence of steps
involved, thereby increasing the trainee’s conscious understanding and skill acquisition
[118 ]
[119 ]. The trainer is also required to be adept at negotiating appropriate goals for each
training session, aligning agendas with the trainee for each session, observing and
assessing performance, providing tailored and constructive feedback, and avoiding
cognitive overload of the trainee [108 ]
[117 ]
[120 ].
Because adequate teaching requires considerable educational skills, formal training
of GI endoscopy trainers is highly recommended and is supported by the evidence of
improved outcomes [121 ]. Most available data on this issue come from the implementation of “train the trainers”
in colonoscopy courses in the UK. Train the trainers in the UK was developed after
a nationwide audit of colonoscopy discovered that the traditional colonoscopy training
model was limited and suffered from several pitfalls [49 ]
[122 ]
[123 ]. Subsequently, such standardized training courses for endoscopy trainers have gained
popularity outside the UK [124 ]
[125 ] and have been adopted in surgical units [126 ]. A large-scale randomized trial in 40 centers involved in CRC screening in Poland
showed that training endoscopy unit leaders through dedicated short courses resulted
in a sustained improvement in the ADR [121 ].
Because these courses are not universally available, trainers for basic endoscopic
procedures should, as a minimum, be formally trained and credentialed, be able to
perform at over 95 % technical success level [8 ], and be proficient in AE management in order to ensure patient safety.
3.4 GI endoscopy nurses’ involvement in training
11 ESGE and ESGENA recommend that GI endoscopy nurses be actively involved in fully
developing the skillset of a trainee by contributing to instruction in basic equipment
handling, reprocessing protocols, and patient monitoring.
Training requires the concerted effort and dedication of the entire GI endoscopy team,
ranging from the endoscopist to nurses and ancillary personnel.
Endoscopy nurses are particularly well positioned to influence training in basic GI
endoscopic procedures. There is evidence that nurse participation in colonoscopy observation
may increase the ADR [127 ], and a multicenter, randomized controlled trial showed that the participation of
experienced (≥ 2 years) endoscopy nurses led to a significantly higher polyp detection
rate for fellows in training (< 500 colonoscopies) [128 ]. Nurses are integral in teaching good endoscope intubation technique, the prevention
and management of loop formation during colonoscopy, and use of endoscopic accessories,
and in offering valuable performance-enhancing feedback. They participate in monitoring
patient comfort and safety and, in certain countries, specially qualified nurses can
administer and help train others to administer moderate sedation for GI endoscopic
procedures [129 ]. Furthermore, because of their familiarity and experience with endoscopic equipment
design and reprocessing protocols [130 ], nurses offer invaluable support in teaching trainees safe handling of endoscopes
and accessories in the endoscopy unit.
3.5 Simulation-based endoscopy training
12 ESGE and ESGENA suggest the inclusion of simulation-based training using validated
GI endoscopy simulators in the early phase of training novices in basic endoscopic
procedures.
The concept of simulation-based training (SBT) is predicated on the idea of a controlled
environment replicating, to varying extents, the experience of the actual endoscopic
procedure being taught. In theory, SBT in endoscopy allows the trainee to acquire
technical skills that transfer to clinical practice, thereby accelerating learning
curves and reducing patient risk. Four types of simulators are generally considered:
mechanical models, virtual reality simulators, ex vivo models, and live animal models
[131 ]. Among these, virtual reality simulators have been the most commonly tested for
training in basic GI endoscopic procedures and several meta-analyses have indicated
modest benefit [37 ]
[132 ]
[133 ], thereby encouraging the adoption of SBT in some fellowship programs [134 ].
For EGD, prior exposure to SBT has been associated with an increased number of completed
procedures, decreased time to pass the pylorus, and fewer trainer-assisted examinations
[135 ]
[136 ]
[137 ]. Some studies of SBT in flexible sigmoidoscopy have reported a moderate benefit
for its use (i. e. faster insertion time, shorter procedure duration, a higher percentage
of visualized mucosa, and decreased patient discomfort) [138 ]
[139 ], while a separate study concluded that patient-based teaching was superior [140 ]. When performing a colonoscopy, trainees in SBT groups showed improved performance,
defined as shorter procedure times, increased cecal intubation rates, increased time
with a clear endoscopic view, more unaided procedures, and less reported patient discomfort
[138 ]
[141 ]
[142 ]
[143 ]. However, the benefit of SBT may only be noticeable when associated with proper
feedback and debriefing [144 ]
[145 ]. Furthermore, while the exposure of trainees to SBT seems advantageous over no prior
training when starting endoscopic procedures in patients, there remains insufficient
evidence that it provides significant benefit over conventional patient-based training
[133 ].
In conclusion, most available data suggest that training on validated simulators confers
most benefit to novices, who demonstrate some increased competence parameters in their
initial patient-based procedures (mostly endoscope intubation skills), albeit with
limited clinical impact. Therefore, where available, SBT should be used early on in
training and be integrated into the overall structured curriculum [146 ].
3.6 Educational activities during training
13 ESGE and ESGENA recommend that continuous medical education through various on-site
and individual learning activities be supported during training.
Access to continuous and diverse educational activities is mandatory in order to acquire
and maintain cognitive skills during GI endoscopy training [147 ]. Every endoscopy training program should have an established curriculum, scheduled
interactive meetings (i. e. seminars, case-based discussions, journal clubs, multidisciplinary
meetings, morbidity and mortality conferences, bedside teaching rounds, etc.), and
regular discussion sessions between trainees and their respective trainers.
Lecture-based interactive workshops with video cases seem to be an effective introduction
to formal endoscopy education techniques, for trainees as well as trainers [148 ]. Live endoscopy events with defined learning objectives are gaining in popularity,
are attractive to trainees, and can provide important educational benefits [149 ]. Participation in conferences is encouraged throughout training and is an important
modality for ensuring continuous medical education and strengthening the endoscopy
community. Visiting fellowships, either observational or hands-on, may also facilitate
learning and are especially useful where home units lack sufficient trainers or resources
(www.esge.com/grants/fellowship-grant/).
The opportunities for high quality online educational content are rapidly increasing
and there is a wealth of information that can be readily accessed. Use of internet-based
e-learning platforms promotes continuing medical education [150 ] and may have a role in improving some endoscopic skills, such as lesion detection
[151 ]. Many endoscopy societies, flagship journals, individual endoscopists or collaborations,
and industry stakeholders now regularly use social media platforms to disseminate
scientific content to their audience [152 ]. In fact, the use of closed social media groups is gaining support and may have
a growing role in endoscopic practice and education [153 ]. The recent pandemic has forced the educational community to reassess, accelerate,
and adapt to distance learning [150 ]
[154 ]
[155 ], and there is evidence that telementoring is a viable tool in some settings [156 ].
The ESGE recognizes the need to explore online and hybrid teaching in order to ensure
widespread, equitable access to education and reduce the environmental impact of GI
endoscopy training [114 ].
3.7 Artificial intelligence in training
While the evidence for the use of artificial intelligence (AI) for quality improvement
in GI endoscopy is increasing, very few studies have specifically explored the impact
of AI on training in endoscopy. At the present time, the quantity of data was judged
insufficient to provide an evidence-based statement on this topic.
To date, only one randomized trial has been published investigating AI for training
in upper GI endoscopy [150 ]. This study evaluated an AI system designed to identify anatomic landmarks, provide
real-time feedback on blind spots, and produce automatic photodocumentation during
EGD. AI-assisted trainees showed a reduced number of blind spots and more complete
mucosal exploration, albeit without showing an increase in their technical competence
scores [157 ].
In colonoscopy, preliminary evidence has shown that the use of computer-assisted characterization/optical
diagnosis (CADx) for diminutive colorectal polyps increases the diagnostic confidence
of nonexperienced endoscopists, and that continuous use of CADx results in an increase
in overall diagnostic performance over time [158 ]
[159 ].
Two studies [160 ]
[161 ] have investigated the role of an AI training framework (i. e. libraries of expert-annotated
endoscopic images) in the assessment of endoscopist performance, both for upper GI
neoplasia recognition and lower GI neoplasia characterization. This framework, although
artificial, was shown to be a promising setting for competence assessment because
of the unique combination of a high prevalence of rare conditions and the possibility
of immediate and repeatable benchmarking of endoscopist performance.
Although the available evidence is still preliminary, AI holds potential for assessing
and improving trainees’ cognitive and technical skills. AI could provide formative
feedback, performance assessment, and guidance during clinical examinations, as well
as during simulation, allowing for more personalized and independent training. Technically,
AI methods are mature enough to automate tasks such as performance assessment [162 ]. To enable additional studies on AI for training in endoscopy, efforts should be
made to design ergonomic interfaces to intuitively visualize learning curves, readily
identify areas requiring further training, and provide constructive feedback to trainees.
3.8 Patient safety in training
14 ESGE and ESGENA recommend that trainers use their best clinical judgement to match
the case to the trainee, appropriately supervise, and intervene as needed in order
to ensure high quality examinations and avoid unnecessary prolongation of procedures
or potential adverse events.
There are limited data on AEs related to basic GI endoscopic procedures involving
trainees. In general, training in basic GI endoscopy is generally considered safe
when it is overseen by dedicated trainers in an adequately structured training program.
While some studies do not specifically report trainee involvement in procedures [163 ]
[164 ]
[165 ], most large retrospective studies carried out in teaching hospitals show no association
between trainee involvement and AEs [24 ]
[166 ]
[167 ]
[168 ]
[169 ]
[170 ]
[171 ]
[172 ]
[173 ]
[174 ]
[175 ]
[176 ]. Furthermore, in prospective studies examining the benefit of simulators in training
programs, no AEs were registered [133 ]
[166 ]
[177 ]
[178 ]. We identified only two studies that reported any risk at all in this setting (i. e.
slightly increased risk of inconsequential, short-term, and reversible changes in
vital function parameters, such as transient hypoxia [169 ]
[179 ]). On the other hand, prolongation of the procedure, leading to potential sedation-related
incidents [180 ], or unnecessary exposure to radiation have been described by other groups [166 ]
[175 ]
[176 ]. Therefore, while it is very unlikely that the participation of a trainee increases
the risk for AEs, it is also probably impossible to calculate this owing to the very
low incidence.
It is inevitable that, during training, procedure times are prolonged and this may
lead to AEs, especially in vulnerable patients with co-morbidities. Therefore, one
way to ensure safety is for the trainer to match the fellow’s current performance
level to the procedure [181 ] and patient, and avoid unnecessary prolongation of the procedure. Other qualities
of the trainer that ensure short- and long-term safety are formal training [182 ], sound clinical judgement in how and when to intervene, and the ability to offer
appropriate supervision and feedback [183 ]. Minimizing distractions during procedures with trainees [184 ], scheduling the trainee-involved endoscopic procedures early in the day’s endoscopy
list [185 ], implementing simulation training for emergency situations [186 ], and supporting discussions in morbidity and mortality conferences can all reduce
AEs and improve patient outcomes [187 ].
Constant dedication to improving each trainee’s performance is essential as there
are data to show that some practitioners do not improve their endoscopy quality indicators
after completing training [188 ], with obvious impact on patient safety [189 ]
[190 ]. Incorporating attention to patient safety and satisfaction into training programs
can aid in developing a trainee’s understanding of a culture centered on patient safety
[191 ]. The ESGE strongly encourages the implementation of GI pre-endoscopy safety checklists
as an important tool to prevent AEs and medical errors [192 ], and further recommendations on ensuring patient safety in the endoscopy unit are
available in guidelines [193 ].
3.9 Medicolegal requirements and considerations
15 ESGE and ESGENA recommend that GI endoscopy trainers, trainees, and training institutions
have specific professional liability cover according to their respective national
legislation. In procedures involving trainees, the trainer carries the overall responsibility
and should act prudently and in accordance with community standards of care in the
best interest of the patient.
16 ESGE and ESGENA recommend that physicians involved in GI endoscopy training who are
confronted with medicolegal issues follow institutional guidance on risk management,
disclosure, and communication with the patient and their family members to mitigate
potential litigation.
While the frequency of legal claims involving GI endoscopy trainees is low [194 ]
[195 ], the learning environment poses specific problems from a medicolegal standpoint.
Liability in malpractice claims is variable according to national legislation and
it is the responsibility of trainers and their institutions to ensure adequate professional
liability insurance and cover for AEs occurring during training [196 ]. Medical errors are a significant concern both to healthcare professionals and to
the public at large [191 ], and taking visible and clear preventive actions decreases the frequency and costs
of avoidable AEs [197 ]. To this end, it is highly advisable to implement risk management programs [198 ], encourage physicians to report and study errors, and engage in regular morbidity
and mortality conferences, in order to foster a culture of service excellence [199 ]
[200 ].
It is evident that the trainer or supervisor carries a burden of responsibility and
could be indirectly liable for claims arising from negligent supervision or errors
during training. A prudent endoscopist who is supervising trainees should personally
verify essential elements pertaining to patient safety and quality of the intervention
(e. g. implementation of pre-endoscopy safety checklists for identification of patient,
procedure indication, co-morbidities, informed consent, procedure reporting, post-procedural
monitoring and recommendations, etc.). When they do occur, AEs should be viewed as
important opportunities for reflection, feedback, and growth in the training process.
It is obvious that, even when participating in a training setting, the patient must
be offered the current standard of care (from the informed consent process, through
the GI endoscopic procedure itself, to proper follow-up) conducted in accordance with
good clinical practice, regardless of the degree of trainee involvement [201 ]. If medicolegal incidents arise, it is important to realize that most claims are
preventable. Good physician–patient relations based on communication, disclosure,
and professionalism decrease the likelihood of subsequent legal action [202 ]
[203 ]
[204 ]. Efforts to educate patients on the importance and safety of trainee involvement
in the endoscopic procedure may contribute to addressing legitimate patient concerns
and preventing litigation [205 ].
As digestive endoscopy continues its development, new techniques and devices, as well
as teaching concepts and frameworks, are being constantly introduced into current
practice. Although it is likely that variability in national practices and requirements
will persist, ESGE and ESGENA consider that training in basic endoscopic procedures
should become standardized and oriented toward achieving measurable performance, while
providing a high quality training experience centered on patient safety and outcome.
Disclaimer
ESGE Position Statements represent a consensus of best practice based on the available
evidence at the time of preparation. The statements may not apply in all situations
and should be interpreted in the light of specific clinical situations and resource
availability. Further controlled clinical studies may be needed to clarify aspects
of these statements, and revision may be necessary as new data appear. Clinical considerations
may justify a course of action at variance with these recommendations. This ESGE Position
Statement is intended to be an educational device to provide information that can
assist the development and structure of training programs. The recommendations are
not rules and should not be construed as establishing a legal standard of care or
as encouraging, advocating, requiring, or discouraging any particular treatment. The
legal disclaimer for ESGE guidelines applies to the present position statement [5 ].
