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Copyright ©The Author(s) 2015. Published by Baishideng Publishing Group Inc. All rights reserved.
World J Gastrointest Endosc. Feb 16, 2015; 7(2): 94-101
Published online Feb 16, 2015. doi: 10.4253/wjge.v7.i2.94
Colonoscopy appropriateness: Really needed or a waste of time?
Antonio Z Gimeno-García, Enrique Quintero, Servicio de Gastroenterología, Hospital Universitario de Canarias, 38320 Tenerife, Spain
Antonio Z Gimeno-García, Enrique Quintero, Instituto Universitario de Tecnologías Biomédicas (ITB) and Centro de Investigación Biomédica de Canarias (CIBICAN), Departamento de Medicina Interna, Universidad de La Laguna, 38320 Tenerife, Spain
Author contributions: Gimeno-García AZ and Quintero E contributed to this paper; all authors have participated sufficiently in the conception of this review, as well as the writing, drafting and revising it critically for important intellectual content and final approval of the version to be published.
Open-Access: This article is an open-access article which was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/4.0/
Correspondence to: Antonio Z Gimeno-García, MD, PhD, Servicio de Gastroenterología, Hospital Universitario de Canarias, Ofra s/n, La Laguna, 38320 Tenerife, Spain. antozeben@gmail.com
Telephone: +34-92-2678554 Fax: +34-92-2678554
Received: August 16, 2014
Peer-review started: August 16, 2014
First decision: September 16, 2014
Revised: October 17, 2014
Accepted: October 31, 2014
Article in press: November 3, 2014
Published online: February 16, 2015

Abstract

Technical and quality improvements in colonoscopy along with the widespread implementation of population screening programs and the development of open-access units have resulted in an exponential increase in colonoscopy demands, forcing endoscopy units to bear an excessive burden of work. The American Society for Gastrointestinal Endoscopy appropriateness guideline and the European panel appropriateness of gastrointestinal endoscopy guideline have appeared as potential solutions to tackle this problem and to increase detection rates of relevant lesions. Inappropriate indications based on either guideline are as high as 30%. Strategies based on these clinical criteria or other systems may be used to reduce inappropriate indications, thus decreasing waiting lists for outpatient colonoscopy, saving costs, prioritizing colonoscopy referrals and subsequently decreasing interval times from diagnosis to treatment. Despite the potential role of appropriateness guidelines, they have not been widely adopted partly due to fear of missing significant lesions detected in inappropriate indications. We review the main appropriateness and prioritising systems, their usefulness for detecting relevant lesions, as well as interventions based on those systems and cost-effectiveness.

Key Words: Colonoscopy appropriateness, European panel appropriateness of gastrointestinal endoscopy II, National Institute for Health and Clinical Excellence, Colonoscopy prioritisation, Open access endoscopy unit

Core tip: There is increasing worldwide demand for colonoscopy referrals, overburdening endoscopy units. Controlling the appropriateness of colonoscopy referrals has been proposed to decrease the increased workload. The American Society for Gastrointestinal Endoscopy appropriateness and the European panel appropriateness of gastrointestinal endoscopy guidelines, and prioritisation criteria such as those of the National Institute for Health and Clinical Excellence and the Scottish Intercollegiate Guidelines network are good candidates for this task. We review the available systems and interventions designed to rationalize colonoscopy demand.
INTRODUCTION

During the last decade we have witnessed a gradual increase of endoscopic procedures and a reduction of radiological techniques to examine the gastrointestinal tract such as esophagus-gastro-duodenal transit or barium enema. Some significant quality improvements have contributed to the widespread diffusion of endoscopic techniques, including conscious sedation[1], safety[2] and technological developments.

Furthermore, the implementation of screening programs for the early detection of colorectal cancer (CRC) and the development of open-access endoscopy units may further increase the demand for outpatient colonoscopy and the overall workload of endoscopy units. These factors are particularly worrisome in universal insurance health care systems.

In this setting, rationalization of the demand is mandatory to prevent overburdening endoscopy units, to improve efficiency in colonoscopy and to reduce costs and potential risks arising from inadequate colonoscopy referrals.

This review analyses, firstly, the causes of increasing workload of endoscopy units, with greater emphasis on especially focusing on population screening programs and open-access endoscopy units; secondly, strategies developed to control colonoscopy appropriateness and their results, including appropriateness criteria and adherence to guidelines, and finally criteria for prioritising referrals with higher risk of advanced colorectal neoplasms. Table 1 shows the highlights of this review.

Table 1 Summary box.
Appropriateness guidelines and prioritising criteria have been developed to lessen colonoscopy workload in endoscopy units
The sensitivity of EPAGE II criteria is higher than that of EPAGE I criteria for detecting significant colorectal lesions (especially CRC); however, specificity should be further improved. Since these criteria are not perfect, in clinical practice, they should be used to assist the clinician before requesting a colonoscopy but they should not be the sole criteria for the decision
Although EPAGE II criteria might be used to cancel inappropriate colonoscopy referrals, in clinical practice they should be used with caution, because some life-threatening lesions are missed, even in inappropriate requests
NICE criteria used for prioritising colonoscopy are not accurate enough for detecting advanced colorectal neoplasms, but may be improved in combination with other markers (i.e., immunochemical fecal occult blood tests)
Adherence to guidelines required to decrease inappropriate indications and colonoscopy waiting lists
EPAGE: European panel appropriateness of gastrointestinal endoscopy; CRC: Colorectal cancer; NICE: National Institute for Health and Clinical Excellence.
INCREASING WORKLOAD OF ENDOSCOPY UNITS: SCREENING COLONOSCOPY AND OPEN ACCESS ENDOSCOPY UNITS

A recent survey carried out in the United States found that the number of colonoscopies performed had risen three to four times between 1998 and 2004[3], with colonoscopy being the most demanded endoscopic procedure. Similar patterns have been found in Europe[4]. Furthermore, the European Commission has recommended the implementation of programs for the detection of CRC in all countries of the Union[5]. A recent report assessed the amount of colonoscopies generated by a population screening program, depending on the screening strategy and uptake. Assuming a participation rate of 60%, screening might double the annual workload of endoscopy units[6]. Another source of additional referrals arising from screening programs are subsequent surveillance colonoscopies required after the resection of colorectal adenomas and CRC. Notably, surveillance colonoscopy after resection of colorectal adenomas is the most frequent indication in patients aged over 74 years in the United States, accounting for 28.9% in women and 37.9% in men[7]. Furthermore, according to a recent meta-analysis, more than 30% of the average-risk population may have colorectal adenomas[8]. Similar data have been reported in European studies[9-11]. Such a volume of colonoscopies represents a substantial burden.

A potential source of inappropriate referrals is open-access endoscopy units, increasingly frequent in both the United States and Europe. In open-access endoscopy units, any physician (not only a gastroenterologist) may request an endoscopic procedure[12]. These units emerged in an effort to save costs, preventing unnecessary office consultations with the gastroenterologist. Open-access endoscopy units may also be useful as a “shortcut”, decreasing waiting times between consultation and colonoscopy. In fact, time off work for appointments is a problem for patients and open-access endoscopy units may expedite the diagnosis of severe diseases, and decrease empirical treatments[13]. However, one wonders whether the ease of access would not also increase the workload of endoscopy units resulting from a higher rate of inappropriate referrals, further increasing waiting lists and total costs. Thus, rationalization of the indication is considered essential.

Open access endoscopy units can be roughly classified as simple or censored. While no control system is applied in the former, in the latter, referral appropriateness is continuously checked by trained staff[14].

APPROPRIATENESS CRITERIA FOR IMPROVING COLONOSCOPY INDICATION

A procedure is deemed appropriate as long as health advantages outweigh the theoretical risks by a wide margin of safety[15]. As resources are limited, adherence to the appropriate indications for colonoscopy is necessary. Appropriateness guidelines may be useful not only to prevent unnecessary colonoscopies and potential risks resulting from them, but also to prioritize colonoscopy[10,16].

American Society for Gastrointestinal Endoscopy and European panel appropriateness of gastrointestinal endoscopy I criteria

The first guideline was developed by the American Society for Gastrointestinal Endoscopy (ASGE)[17]. It consists of 27 general indications for colonoscopy. This guideline has been adopted with some modifications by the Italian Society of Gastrointestinal Endoscopy which uses wider criteria and includes some indications unlisted by the original guideline, such as significant weight loss and changes of bowel habit[18]. The application of these modified criteria slightly increases the rates of appropriateness and detection of significant lesions, especially CRC[19]. In 1999, European experts, including gastroenterologists, surgeons and family physicians, designed the criteria of the European panel appropriateness of gastrointestinal endoscopy (EPAGE-I)[20]. These criteria are based on a detailed review of the literature. The European panel established 12 main indications for colonoscopy, including 309 different clinical scenarios. Each clinical situation is scored from 1 to 9 (appropriate 7-9; 1-3 inappropriate; 4-6 uncertain). Colorectal cancer, adenomas, inflammatory bowel disease, stenosis and angiectasia are usually considered “significant lesions”. Compared with ASGE criteria, EPAGE-I criteria are more specific and detailed. With regard to the prediction of appropriateness, the two systems have been shown to be similar[19,21-28]. The rate of inappropriate referrals ranged from 20%-30% for both guidelines[21-24,26,27,29]; however, they have never been compared for colonoscopy referrals. One factor that might influence appropriateness is the role of physician specialty. In this regard, results are controversial; in some studies no differences between gastroenterologists and other specialists were found[21,23], in others, the data were favourable to gastroenterologists[28].

It must be said that neither set of criteria is perfect. First, significant lesions are detected in about 30% of inappropriate colonoscopies[22]. This has been attributed to incidental findings of asymptomatic lesions. In fact, one meta-analysis showed the suboptimal sensitivity of alarm symptoms for CRC detection, ranging from 5%-64% across the studies[30]. Second, it is well-known that some alarm signs and symptoms are also frequent in other diseases, leading to poor specificity. A recent meta-analysis assessed the performance of ASGE and EPAGE-I criteria for the detection of significant lesions (as defined in each manuscript)[31]. Sensitivity, specificity, positive and negative likelihood ratios were: 89% (95%CI: 82%-93%), 26% (95%CI: 21%-31%), 1.16 (95%CI: 1-1.3), 0.44 (95%CI: 0.25-0.8), respectively. These data were similar to those reported for CRC. The authors concluded that a more effective strategy is needed and that both sets of criteria need further refinement to increase sensitivity (especially for CRC) and positive predictive value, and to minimize the number of colonoscopies in patients without significant lesions.

The most frequent cause of inappropriateness identified by both sets of criteria is surveillance colonoscopies after polypectomy or CRC surgery that are performed too early[25,27,28]. In a study involving more than 3000 colonoscopies, the most frequent causes of inappropriate indication were surveillance colonoscopies performed by general practitioners (GPs), surgeons and internists, and by gastroenterologists in the context of inflammatory bowel disease[26].

EPAGE II criteria

EPAGE-I and ASGE appropriateness guidelines are not sufficiently widespread. As mentioned, there are some concerns regarding safety when using these criteria, as a significant percentage of relevant lesions are detected in improperly requested colonoscopies.

More recently, an updated version of the EPAGE-I criteria for colonoscopy has been published (EPAGE-II criteria), after a comprehensive review of the literature from 1998 to February 2008 (Table 2)[32]. To date, four studies have assessed the benefit of EPAGE-II criteria for predicting appropriateness and diagnostic yield of significant lesions (Table 3)[9-10,16,33]. Only in the largest study was the design fully prospective[10]. Three studies were carried out in Spain[9-10,33] and one in Norway[16]. Although statistical performance with confidence intervals of EPAGE-II studies were described in only two of the studies[10,16], enough information was available in the other two for calculation[9,33]. Taking into account the pooled results of the four studies, 75.4% of colonoscopy referrals were deemed appropriate, 13.9% inappropriate and 10.7% uncertain.

Table 2 Main indications for colonoscopy according to European panel appropriateness of gastrointestinal endoscopy II (http://www.epage.ch).
Iron deficiency anemia
Hematochezia
Discomfort or pain in the lower abdomen persisting ≥ 3 mo
Uncomplicated chronic diarrhea
Assessment of ulcerative colitis
Assessment of Crohn disease
Colorectal cancer screening
Colorectal cancer screening in patients with inflammatory bowel disease
Surveillance colonoscopy after polypectomy
Surveillance colonoscopy after colorectal cancer resection
Miscellaneous
Table 3 European panel appropriateness of gastrointestinal endoscopy II studies addressing appropriateness and diagnostic yield.
Ref.Design1 (referrals)EPAGE II2(% appropriate)S3 (95%CI)Sp (95%CI)PPV (95%CI)4NPV (95%CI)
Carrión et al[33] (2010)R 65582.080.3 (74.0-84.3)16.8 (14.9-18.5)24.8 (23.1-26.4)71.3 (63.1-78.6)
Arguello et al[9] (2012)R 61982.678.3 (73.8-82.4)34.4 (31.3-37.3)45.2 (42.6-47.6)69.6 (63.4-75.4)
Gimeno García et al[10] (2012)P 96889.593.1 (90.0-96.3)12.7 (10.0-15.0)38.8 (36.0-42.0)75.5 (67.0-84.0)
Eskeland et al[16] (2014)R 29591.092.6 (84.8-96.6)22.9 (17.8-29.0)31.3 (25.3-37.3)89.1 (80.7-97.5)
1Study design: R (retrospective); P (prospective); 2Appropriate and uncertain referrals jointly analysed;
3S (sensitivity); Sp (specificity);
4PPV (positive predictive value); NPV (negative predictive value).

A validation study of these criteria showed that significant lesions were more prevalent in appropriate colonoscopies than in those considered inappropriate (38.8% vs 24.5%; OR = 1.95, 95%CI: 1.22-3.13; P < 0.005)[10]. This study also reported the performance for significant neoplastic lesions (advanced adenoma and CRC), showing sensitivity, specificity, positive and negative predictive values of 98% (95%CI: 95-100), 11.5% (95%CI: 9-14), 11.2 (95%CI: 9-13) and 98% (95%CI: 95-100) respectively. In accordance with other studies, an appropriate indication was more frequent in patients over 50 years compared with younger individuals (92.9% vs 76.7%; OR = 3.98, 95%CI: 2.60-6.09, P < 0.001). In fact, 50% of inappropriate referrals were found in patients younger than 50 years, despite constituting only 20% of referrals. In studies carried out in Spain, the indication with the highest rate of inappropriateness was surveillance colonoscopy, ranging from 41% to 76%[9-10,33], whilst in the Scandinavian study, this was lower abdominal symptoms (49%)[16]. In one study, inappropriateness in subjects younger than 50 years was separately analyzed. CRC screening at a younger age than usually recommended (33.3%) followed by surveillance colonoscopy at shorter intervals than recommended (20.8%) were the most frequent causes of colonoscopy overuse[10].

Recent evidence has shown that the application of EPAGE-II criteria decreases rates of inappropriateness compared with EPAGE-I criteria and, more importantly, decreases the rate of missed significant lesions[9,16]. In both studies, the specificity of EPAGE-II criteria was lower than that of the first version, theoretically decreasing the impact of EPAGE-II criteria on saving colonoscopies. Nevertheless, EPAGE-II might be considered safer than EPAGE-I with respect to missed significant lesions. Some authors have suggested jointly calculating uncertain and inappropriate colonoscopies, as opposed to what is usually done (combining appropriate and uncertain together)[16]. In fact, no significant differences in diagnostic yield were found in two studies that compared different combinations[9,16]. However, some CRC might be missed with this approach. Of 109 CRC diagnosed in the 4 series, 2 were diagnosed in inappropriate referrals (1.83%) and 3 more in uncertain ones (2.75%). Therefore, it seems safer to consider uncertain and appropriate referrals together to prevent missing significant lesions. Recently, the combination of EPAGE criteria with blood or fecal biological markers was tested with the purpose of increasing appropriateness and improving diagnostic yield of significant lesions[34]. In one study, fecal calprotectin[34], which has shown its capacity to distinguish organic diseases (i.e., inflammatory bowel disease) from functional disorders, was tested with EPAGE criteria in 224 consecutive patients with abdominal discomfort. Diagnostic yield for significant lesions was significantly higher when the combined strategy was used (70.2%) compared with either EPAGE or calprotectin alone (diagnostic yield 23.6% and 57.4% respectively). The combined strategy also improved re-classification of patients with a higher rate of appropriateness.

In summary, the refined EPAGE II criteria are more sensitive than the old EPAGE I, and may be an effective strategy to assist the clinician to decide whether a colonoscopy should be requested or not. They may also be a useful tool for decreasing colonoscopy overuse, as well as increasing diagnostic yield.

INTERVENTIONS BASED ON APPROPRIATENESS CRITERIA

Several studies have suggested that the medical specialty of the referring physician may influence colonoscopy appropriateness[9,10,21,28], with surveillance after polypectomy at shorter intervals than recommended being the most inappropriate indication. Therefore interventions based on audits and training of referring physicians are warranted to increase appropriateness.

Using EPAGE II criteria[10], 91% of the inappropriate referrals corresponded to CRC screening, surveillance of neoplastic lesions (adenomas or CRC) or to subjects younger than 50 years. Subjects with any of these conditions had a lower rate of significant lesions and advanced neoplastic lesions than those who did not meet these conditions (31.2% vs 46.6%, P < 0.001; OR = 1.9, 95%CI: 1.47 to 2.51 and 5.1% vs 18.1%, P < 0.001; OR = 4.1, 95%CI: 2.60 to 6.41, respectively). In an interventional prospective study[35], 451 patients with high probability for inappropriateness (age < 50 years, surveillance colonoscopy or screening colonoscopy) were attended in an appropriateness outpatient clinic. EPAGE II criteria along with current Spanish Association of Gastroenterology guidelines[36-38] were applied and colonoscopy was finally requested when deemed appropriate. In patients with an inappropriate indication, a different approach was carried out; a more suitable examination was requested, (i.e., biochemical tests, abdominal ultrasonography) or treatment was prescribed when a functional disorder (intestinal bowel syndrome or functional dyspepsia) was suspected. Appropriateness was compared with a historical cohort of 968 patients who underwent colonoscopy and to whom EPAGE-II criteria were applied. The intervention achieved a significant reduction of inappropriateness (5.2% vs 10.5%, OR = 0.46, 95%CI: 0.27-0.81) and, furthermore, increased the diagnostic yield of significant lesions (50.7% vs 37.3%, OR = 1.73; 95%CI: 1.33-2.25). However, these encouraging results of a censored open access unit should be taken with caution as the cost-effectiveness of this strategy has not been evaluated yet.

In another interventional study[19], involving 133 GPs, a tailored educational program was assessed using ASGE/SIED appropriateness guidelines. Fifty GPs finally attended the course and completed a multiple choice test to assess the level of learning. The rest received a brief summary of the ASGE/SIED appropriateness criteria by regular mail. Colonoscopy appropriateness was compared before and after the intervention. In this study, appropriate referrals significantly increased from the first to the second period, resulting in a mere 7% of inappropriateness (23% vs 7% respectively; P < 0.001). Although the effect was more striking among attendants, appropriateness also increased in those GPs who did not attend the course but received the ASGE/SIED criteria by mail. Furthermore, the authors also reported long-term efficacy of the intervention, with the benefit being maintained 1 year later. Therefore, this study encourages greater diffusion of the current guidelines on the main colonoscopy indications and the usefulness of periodic educational programs in an open access unit setting.

ADHERENCE TO GUIDELINES

Several studies have addressed the impact of compliance with the current surveillance guidelines after adenoma or CRC resection on colonoscopy waiting lists[39,40]. One study evaluated the effect of good compliance with the guidelines proposed by the American Gastroenterology Association (AGA) for surveillance after resection of colorectal adenomas on improving appropriateness and decreasing the waiting list[40]. Compliance with guidelines not only improved appropriateness in this indication but also increased the interval between surveillance colonoscopies by 0.73 years, with a 14% reduction of annual colonoscopies for this indication. Another work assessed the impact of compliance with the guidelines of the British Society of Gastroenterology and the Association of Coloproctology of the United Kingdom and Ireland for screening and surveillance after endoscopic polypectomy[39]. In this multicenter study, researchers from a tertiary care referral center applied these guidelines to the waiting list of several hospitals, recommending the exclusion of patients with an inappropriate referral. Overall, in 78% of cases the indication was inappropriate. The appointment was delayed in 27% on them, whilst the indication was deemed inappropriate in the remaining 51% and were cancelled. The authors therefore concluded that adherence to the guidelines could reduce waiting times for diagnostic colonoscopy, but might trigger ethical and moral debate.

CLINICAL IMPACT AND COST-EFFECTIVENESS OF APPROPRIATENESS GUIDELINES

The educational-based intervention study reported by Grassini et al[19], noted above, estimated a saving of 19500 euros per year in a low-volume endoscopy unit (1700 colonoscopies per year) and a 15% reduction on the waiting list for outpatient colonoscopy. A recent systematic review assessed the impact of ASGE and EPAGE-I criteria on the cost-effectiveness of colonoscopy based on the appropriateness of an indication in selecting patients who were referred to for colonoscopy[41]. Appropriateness studies reported until 2007 were considered for inclusion. In a decision-analysis model, a relatively high prevalence of CRC was found in inappropriate referrals (1.1%; 95%CI: 0.7%-1.4% vs 5.6%; 95%CI: 5.1%-6%) along with a significant reduction in survival because of CRC diagnostic delay. Therefore, the authors recommended refining the current criteria before using them in routine clinical practice. However, only the first version of EPAGE criteria was used in the studies included, but not the more recent EPAGE II criteria, which as previously mentioned are significantly more sensitive, especially for CRC.

STRATEGIES FOR PRIORITIZING PATIENTS

Some systems have been developed to prioritise patients with alarm signs or symptoms. The most well-known is the one developed in the United Kingdom by the National Institute for Health and Clinical Excellence (NICE), implemented in 2000 (Table 4)[42]. Based on this system, patients meeting certain clinical criteria are referred for consultation with the gastroenterologist within two weeks in order to decrease waiting times for CRC diagnosis[43]. This guideline was updated in 2005, with the goal of reducing death rates by 20% in people under 75 years in 2010[42]. The United Kingdom National Health Service later developed the “straight to test” approach for suspected CRC, in order to delete time-wasting visits and therefore delays in the diagnosis phase[44]. The Scottish Intercollegiate Guidelines network (SIGN) has also developed referral criteria which are less strict than NICE criteria. They are also based on alarm signs and symptoms of CRC[45] (Table 5).

Table 4 Clinical criteria for prompt colonoscopy referral (2 wk) according to the National Institute for Health and Clinical Excellence in the United Kingdom[44].
Patients ≥ 40 yr with rectal bleeding and change of bowel habit persisting ≥ 6 wk
Patients ≥ 60 yr with rectal bleeding persisting ≥ 6 wk without a change in bowel habit and without anal symptoms
Patients ≥ 60 yr with a change of bowel habit persisting ≥ 6 wk without rectal bleeding
Patients with right lower abdominal mass
Patients with palpable rectal mass
Patients with unexplained iron deficiency anemia ( ≤ 11 g/100 mL in men and ≤ 10 g/100 mL in women)
Table 5 Scottish Intercollegiate Guidelines network referral criteria[45].
1 Persistent rectal bleeding without anal symptoms
2 Persistent change in bowel habit (> 6 wk)
3 Significant family history
4 Right-side abdominal mass
5 Palpable rectal mass
6 Unexplained iron deficiency anemia
7 Persistent diarrhea

Beggs et al[46], compared the effect of the two week-referral pathway for colonoscopy with the traditional pathway (referring the patient firstly to the gastroenterologist) on colonoscopy waiting lists and direct costs (only consultation and colonoscopy). The former strategy was less costly (saving more than ₤26.000), and also significantly reduced colonoscopy waiting list numbers compared with the usual care process (by 166.6 d, P < 0.01). Another study assessed the time intervals between referral for colonoscopy, diagnosis and treatment in a fast referral group compared with the usual care process[47]. As expected, delay to endoscopic and histological diagnosis was significantly lower for the fast referral group (P < 0.0001), but also to treatment (P = 0.048). One study showed that the “straight to test” strategy was also an effective strategy for CRC detection at early stages compared with the standard of care[48].

A recent Spanish multicenter study highlighted the limited accuracy of NICE criteria in a prospective cohort of 787 symptomatic patients referred for colonoscopy[49]. NICE and SIGN criteria were compared with the immunochemical fecal occult blood test (FIT) at 100 ng/ml threshold for CRC detection. FIT was significantly more sensitive than NICE criteria (87.6% vs 61.9% respectively; P < 0.001) but similar to SIGN criteria (82.5%, P = 0.4). However, the specificity of FIT was significantly higher than either NICE or SIGN criteria (77.4%, 65.2% and 42.7% respectively; P < 0.001). These data support the idea that, in isolation, NICE criteria lack sufficient diagnostic accuracy and should be used in combination with other markers. Studies using a combination of clinical, blood and fecal markers are currently ongoing in order to improve the accuracy of the clinical criteria[50].

Recently, risk scores based on demographic and clinical information have been developed for either symptomatic or asymptomatic patients in order to prioritise outpatient colonoscopy[51,52]. Law et al[52], with 1013 symptomatic Asian subjects, showed that a score higher than 17 predicted CRC with a specificity of 96%. The area under the curve of the risk score was 0.83, proving that the model had a good discrimination, leading the authors to conclude that this model might be useful to prioritise colonoscopy. Another recent study, carried out in asymptomatic Caucasian patients[51], validated a model for detecting advanced colorectal neoplasia based on demographics and family history of CRC. The authors suggested that this model might help health care providers to make decisions about screening.

CONCLUSION

Although appropriateness criteria (ASGE and EPAGE II criteria) enable a better selection of colonoscopy referrals and increase the rate of significant lesions detected, further refinement is required since some relevant lesions are still missed even when the more sensitive EPAGE II criteria are used. Prioritising systems such NICE criteria seem to accelerate CRC diagnosis and treatment, without increasing the waiting list for outpatient colonoscopy, but they might not be sensitive enough for selecting patients with CRC. Educational programs on surveillance colonoscopy and adherence to the current guidelines are warranted to reduce inappropriate referrals. Finally, the combination of clinical criteria (appropriateness or prioritising criteria) with blood or fecal markers might be a better approach than isolated clinical criteria to increase the diagnostic yield of significant lesions.

Footnotes

P- Reviewer: Picchio M, Pellise M S- Editor: Ji FF L- Editor: A E- Editor: Zhang DN

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