Hostname: page-component-8448b6f56d-t5pn6 Total loading time: 0 Render date: 2024-04-24T18:24:46.880Z Has data issue: false hasContentIssue false
  • English
  • Français

Implementation of a diagnostic tool for symptomatic colorectal cancer in primary care: a feasibility study

Published online by Cambridge University Press:  01 January 2009

Nada F. Khan
Nada F. Khan*
Affiliation:
Department of Primary Health Care, University of Oxford, Oxford, UK
*
Correspondence to: Nada F. Khan, Department of Primary Health Care, University of Oxford, Rosemary Rue Building, Old Road Campus, Oxford OX4 1PR, UK. Email: nada.khan@dphpc.ox.ac.uk
Rights & Permissions [Opens in a new window]

Abstract

Background

Colorectal cancer is the third most common cancer in the UK. Referral guidance can help general practitioners (GPs) identify predictive symptoms of colorectal cancer at an earlier stage in primary care. The objectives of this study were to test the feasibility of a paper-based assessment tool incorporating the CAPER score, a clinical prediction rule for patients presenting to primary care with lower gastrointestinal (GI) symptoms. Three different recruitment methods and GP compliance with completing the CAPER score were assessed.

Methods

Patients aged 45 years and above consulting for bowel-related symptoms were recruited in 25 general practices in five regions in the UK. Two recruitment methods were carried out by practice receptionists and one by the GP (GP-prompted). The assessment tool prompted GPs to calculate a score using CAPER; a score of 35 points or over indicated a study referral. Three audits assessed recruitment success, compliance with the assessment tool and clinical outcomes.

Results

In total, 122 patients were recruited into the trial. Although overall recruitment was low, GP-prompted recruitment was more successful than the other two methods. Most GPs completed a clinical examination (92.6%) as directed by the assessment tool; however, only 64% of GPs completed a rectal examination. GPs did not comply well with carrying out haemoglobin (48%) and faecal occult blood (FOB) tests (38%). Only 55% of the final CAPER scores were calculated correctly by GPs. Four patients were diagnosed with colorectal cancer; all met the referral criteria for the CAPER score; however, only three met the NICE referral criteria.

Conclusions

Overall, recruitment into the study was lower than expected. GP-prompted recruitment was the most effective. Assessment tool compliance was low, which indicates that in future trials a more user-friendly design should be developed.

Keywords

colorectal neoplasmsfeasibility studiesprimary health carereferral and consultationresearch design
Type
Research
Information
Primary Health Care Research & Development , Volume 10 , Issue 1 , January 2009 , pp. 54 - 64
Copyright
Copyright © Cambridge University Press 2009

Introduction

Colorectal cancer is the third most common cancer in the UK after breast and lung cancers, and the second most common cause of death from cancer (Cancer Research UK, 2005). The UK fares poorly when considering survival from common cancers in comparison with other European countries and the United States (Sant et al., Reference Sant, Aareleid, Berrino, Bielska, Carli, Faivre, Grosclaude, Hedelin, Matsuda, Moller, Moller, Verdecchia, Capocaccia, Gatta, Micheli, Santaquilani, Roazzi and Lisi2003). This poor performance is in part explained by delays in diagnosis, which occur at different stages in a patient’s cancer journey (Gatta et al., Reference Gatta, Capocaccia, Sant, Bell, Coebergh, Damhuis, Faivre, Martinez-Garcia, Pawlega, de Leon, Pottier, Raverdy, Williams and Berrino2000). Delays can occur between patients experiencing symptoms and presenting to primary care, or between presentation to primary care and referral and diagnosis in secondary care (Funch, Reference Funch1985; Carter and Winslet, Reference Carter and Winslet1998). In primary care, identification of colorectal cancer may be difficult, because the symptoms are common but the disease is rare. A full-time general practitioner (GP) with a list size of 2000 patients will see common gastroenterological symptoms on a weekly basis, but will only see approximately one new case of colorectal cancer each year (Dent et al., Reference Dent, Goulston, Zubrzycki and Chapuis1986; Crosland and Jones, Reference Crosland and Jones1995; Chaplin et al., Reference Chaplin, Curless, Thomson and Barton2000; Thompson et al., Reference Thompson, Heaton, Smyth and Smyth2000). The main referral guidance for GPs in the UK is found in the NICE Guidelines for Suspected Cancer. These aim to assist GPs in making referral decisions for symptomatic patients who may benefit from urgent investigation (NICE, 2005). The current guidelines, however, are imperfect as they concentrate on typical presentations of cancer (Jones et al., Reference Jones, Rubin and Hungin2001). Furthermore, their implementation is incomplete; not all patients who fulfil referral criteria are referred urgently by their GPs (Eccersley et al., Reference Eccersley, Wilson, Makris and Novell2003; Barrett et al., Reference Barrett, Jiwa, Rose and Hamilton2006; Flashman et al., Reference Flashman, O’Leary, Senapati and Thompson2004).

Earlier diagnosis of colorectal cancer may improve outcomes by allowing the cancer to be recognized at an earlier stage or by avoidance of emergency presentation of colorectal cancer, which has a poorer patient outcome (Mulcahy and O’Donoghue, Reference Mulcahy and O’Donoghue1997; Cuffy et al., Reference Cuffy, Abir, Audisio and Longo2004; Tekkis et al., Reference Tekkis, Kinsman, Thompson and Stamatakis2004). One recent study has shown that almost 60% of emergency admissions with colorectal cancer presented to their GP with at least one symptom a month or more before their emergency, suggesting that these cases could have been recognized earlier (Cleary et al., Reference Cleary, Peters, Sharp and Hamilton2007).

Less than half of patients with colorectal cancer present with a high-risk symptom, such as rectal bleeding or severe anaemia (Hamilton et al., Reference Hamilton, Round, Sharp and Peters2005). The remainder have ‘softer’ symptoms, such as constipation or abdominal pain. Individually, these symptoms have a risk of colorectal cancer below 2%, and hence are not deemed to warrant urgent investigation. Thus, most patients with symptomatic cancer will not qualify for urgent referral. Every audit of surgical rapid investigation clinics established in the last decade shows the majority of cancers are diagnosed outside the clinics (Rai and Kelly, Reference Rai and Kelly2007). To address this issue, a secondary analysis of a study of 349 colorectal cancers in Exeter examined only those patients without a high-risk symptom. This study derived a clinical prediction rule (the CAPER score) for patients presenting to primary care (Table 1) (Hamilton, Reference Hamilton2007).

Table 1 Scoring system for CAPER

FOB = faecal occult blood.

The CAPER score is a theoretical construct, and before it could be considered for clinical practice, it required feasibility testing in primary care. This paper reports data from a pilot study. The aims of the study were to test three different methods of recruiting patients in primary care, to test the feasibility of using a paper-based intervention incorporating the CAPER score, and specifically to assess GP use of the intervention.

Methods

Practice recruitment

Eighty general practices were contacted through the primary care research networks lists associated with Bristol, Edinburgh, Oxford, Sheffield and Sunderland Universities. Twenty-five practices of these 80 practices agreed to participate and were recruited into the study.

Intervention

A paper-based assessment tool was developed comprising both the CAPER score and the NICE Referral Guidelines for Suspected Colorectal Cancer (NICE, 2005). The assessment tool required the GP to complete a patient symptom history, clinical and rectal examinations, a full blood count and faecal occult blood (FOB) test (only for patients not reporting passing blood per rectum) on eligible patients before following the referral advice. GPs were instructed to refer patients in the first instance if they met NICE referral guidelines. In addition, the GP was asked to refer patients either if the total CAPER score was equal to or over 35 points or if the patient had a positive FOB test, irrespective of fulfilment of NICE guidelines. A copy of the assessment tool used in this project is available in Appendix 1.

Patient recruitment

Each practice was asked to either recruit 20 patients or run recruitment for a maximum of 12 weeks. Based on data from the Exeter study, it was determined that a total recruitment target of 500 patients, or 20 patients per practice, would be feasible (Hamilton et al., Reference Hamilton, Round, Sharp and Peters2005). Three recruitment methods were investigated: the questionnaire method, the non-questionnaire method (both reception-based) and GP-prompted recruitment. The main difference between the reception-based and GP-prompted recruitment was that, in the former, receptionists identified each patient aged 45 years arriving for a consultation and provided them with recruitment materials. The patient then determined his/her own eligibility for participation in the trial by reading the recruitment leaflet while waiting to see the GP. In order to participate, patients needed to be aged 45 years and above, with lower gastrointestinal (GI) symptoms, unexplained loss of weight or bleeding from the bowel for at least two weeks, and with no history of colorectal cancer. In the GP-prompted arm only eligible patients, as determined by the GP, received recruitment materials. The three recruitment methods are summarized in Figure 1. Patients in the questionnaire arm also received a short, 14-item symptom questionnaire, which was used to compare patient self-reported symptoms with GP notes-recorded symptoms.

Figure 1 Summary of recruitment methods

Assessment of recruitment rate and use of the intervention

Research assistants conducted three audits using standardized data collection forms in each practice. The first of these audits was a one-week retrospective audit in the second week of recruitment to estimate how many study-eligible patients had been recruited. The research assistants studied the consultation records for all patients aged 45 years and above for the selected week and identified all eligible patients presenting with bowel symptoms (which was compared with the actual number recruited). One month following patient recruitment, a second audit of patient notes was conducted to obtain data on GP adherence with the assessment tool by checking whether patient symptoms, investigations, test results, and referral guidance were correctly filled in. Three months following patient recruitment, a third audit was conducted to collect the clinical outcomes and any final diagnoses.

Feedback

GPs in each of the practices were approached to be interviewed to discuss the recruitment methods, perceived value of the assessment tool, and any suggestions for improvement. Research assistants in each of the five regions also observed waiting room recruitment and compiled informal feedback from practice managers and receptionists during weekly or bi-weekly visits to collect study packs from each practice.

Results

Recruitment

In total, 122 patients were recruited into the study, 24% of the recruitment target of 500 patients. A breakdown by the recruitment method is shown in Table 2. Practices running GP-prompted recruitment enrolled a higher proportion of patients in the total eligible population aged 45 years and above.

Table 2 Summary of patients recruited by the recruitment method

GP = general practitioner.

*This is significant (P = 0.02, χ 2 2 df).

aImputed average as information on percentage aged 45 years and above in practice 24 is missing.

There were a total of 5805 consultations with patients aged 45 years and above during the one-week audit periods. Overall, any bowel symptoms were recorded on the clinical record in 149 (2.6%) of these consultations. However, only 61 of the 5805 (1%) bowel symptoms fitted the study-eligibility criteria. In the practices using reception-based recruitment (questionnaire and non-questionnaire practices), 10 out of 50 (20%) patients meeting the study inclusion criteria were recruited over the one-week audit period, compared to seven out of 11 (64%) patients recruited in GP-prompted practices.

Compliance with the assessment tool

Results from the one-month audit are shown in Table 3. GPs who ordered Hb and FOB tests in many cases did not record results from the tests onto the assessment tool, and therefore an accurate CAPER score could not be calculated. For 19 patients, the GP used a previous Hb result conducted an average of eight working days prior to the recruitment date. These were categorised as non-compliant with the study protocol, as GPs were directed to obtain an Hb result in order to complete the CAPER score. In several cases, where tests or referrals were not carried out as directed, the GP noted that the patient had a previous lower GI diagnosis (eg, irritable bowel syndrome) or had already been referred to secondary care.

Table 3 Compliance with the assessment tool

GP = general practitioner; FOB = faecal occult blood.

aGPs were directed to only conduct an FOB test if the patient was not experiencing bleeding from the bowel. Eighty-one patients had no bleeding from the bowel.

Overall, 67 out of 122 (55%) of final CAPER scores were calculated correctly by the GPs. If the assessment tool had been completed as directed, 14 additional patients could have been referred to secondary care on the basis of exceeding the CAPER referral threshold. These 14 patients were followed for outcomes over the course of the project; however, none of these patients were referred at the end of the three months of follow-up. Sixty-seven of the 122 (55%) recruited patients were referred to secondary care, of which 24 were referred on the basis of the CAPER score. Thirty-two of the referrals were made on the basis of the NICE two-week referral guidelines, 10 patients were referred routinely and one patient was referred to emergency. Colorectal cancer was diagnosed in four of the 67 patients referred in the study, one as an emergency. All four of the cancers had a positive CAPER score, but only three fulfilled the NICE criteria.

Feedback

Only six GPs from the 25 practices agreed to be interviewed, four of whom were from reception-based practices and two from GP-prompted practices. They were generally positive about the study. GPs in reception-based practices found that patients who did not fit study-eligibility criteria still completed study consent forms, requiring GPs to answer questions regarding bowel symptoms and the research study. Receptionists in nearly all of the sites commented on the difficulties arising from handing out study packs, as there was often not enough time to identify whether a patient was aged 45 years or above, especially in busy periods. Thus, fewer study packs were being handed out by receptionists as the trial progressed. Conversely, in the GP-prompted practices, GPs did not feel that using the assessment tool to make a referral decision added much time to the consultation as only eligible patients received study information; furthermore, the intervention was reasonably similar to their routine practice. Those participating in GP-prompted practices were comfortable with recruiting patients and obtaining patient consent during a consultation.

Discussion

This paper describes a pilot study to test the feasibility of using a paper-based assessment tool to provide referral advice for suspected colorectal cancer in primary care. Overall, recruitment was lower than expected. However, of the three arms of the trial, recruitment was higher and more efficient in GP-prompted practices. Practice staff also preferred GP-prompted recruitment, as it was less disruptive.

Recruitment in the pilot study did not achieve our target, both because some eligible patients were not recruited and because we overestimated how many patients would be eligible. The initial recruitment target was based on a prevalence of individual bowel symptoms without the requirement for a duration of symptoms of two weeks. Once this duration is required, fewer patients become eligible. This difference is crucial in the design of future studies, including a definitive trial of the CAPER score. Recruitment figures were low in each arm of the study, but significantly more patients were recruited in GP-prompted practices. The main explanation for this difference is that, in reception-based practices, potential study-eligible patients did not always receive study materials from receptionists and could not be recruited into the study. The one-week audit data indicate that some eligible patients were not recruited by their GPs in GP-prompted practices as well. Nevertheless, reception-based recruitment was unfeasible due to the increasing frustration to GPs and receptionists caused by the general disruption in the practices.

GP adherence with the assessment tool was poor; tests were not ordered when directed for each patient and in many cases test results were not recorded on the assessment tool. These actions may have been justified if the patient was being referred urgently to secondary care, but otherwise could result in the patient not being referred when indicated. Use of a previous but recent Hb result to calculate the CAPER score for 19 cases was considered non-compliant with the assessment tool, but in practical terms is clinically justified.

Four colorectal cancers were identified in this small pilot study. All four cancers fulfilled the criteria for referral under the CAPER score, but only three met the current NICE guidelines. This study was not, however, powered to compare the proportion of cancers with symptoms satisfying the NICE guidelines compared with those meeting the CAPER score criteria.

Limitations

There are several limitations to this study. The majority of practices participating in the project were listed on university research networks, and it is possible that these practices were not representative of general practices as a whole. Similarly, practices agreeing to take part in the project may have had a special interest in colorectal cancer and therefore more experience in selecting appropriate referrals. Despite efforts to interview GPs in each of the 25 practices to gather constructive feedback, only six GPs agreed. Although GPs and receptionists preferred the GP-prompted methodology, we did not talk to patients on their attitudes towards recruitment into a research study during a consultation.

Overall, this study did show that of the three methods trialled in the pilot, the GP-prompted method was the most efficient and least disruptive means of recruiting patients into a trial in primary care. This method was not without its own problems, and issues concerning adherence to the assessment tool will need to be dealt with in any future work. Because recruitment was low, it is difficult to make any firm conclusions on the benefit of using the CAPER score in practice. This pilot project, however, was not intended to demonstrate the validity of the CAPER score, but to investigate the feasibility of its use in general practice.

Implications for future work

Several barriers can prevent effective implementation of clinical guidelines in primary care (Grimshaw and Eccles, Reference Grimshaw and Eccles1998). These barriers may exist at a practice-based level, or may arise from the actions of the health care professional. In this study, the results suggest that the main barriers to effective implementation of the assessment tool were GP scoring of CAPER during and after the index consultation and the involvement of receptionists in patient recruitment. In order to design an effective future trial to test the CAPER score in practice, these barriers should be taken into account.

Improvements need to be made both to the design and to the delivery of the assessment tool in primary care. Practical instructions on when to order tests and exclude patients from the trial will guide GPs on use of the CAPER score and recruitment. Computerizing the assessment tool and making it available on all practice computers may well improve compliance. Computer prompts could direct GPs to fill in each part of the CAPER score, with reminders to order tests and fill in results as they arrive at the practice. There is some evidence that GPs are interested in having guidelines and decision aids available on a computer; however, there still can be barriers to implementation, such as forgetting that aids are available if they are not used regularly (Watkins et al., Reference Watkins, Harvey, Langley, Gray and Faulkner1999; Short et al., Reference Short, Frischer and Bashford2004). These issues need to be considered when designing a pragmatic version of the assessment tool.

Overall, the receptionists and GPs participating in this pilot study did not fully engage with the research project. Research considering the attitudes of receptionists participating in research is minimal (Lock et al., Reference Lock, Kaner, Heather, Gilvarry and Mcavoy2000), and it is likely that recruitment into research studies by receptionists is a low priority due to pressure of time. Future projects involving receptionists in research should consider the daily impact of the study on their workload (Lock et al., Reference Lock, Kaner, Heather, Gilvarry and Mcavoy2000). Factors influencing a GP’s willingness to participate in research may include relevance of the research, personal interest in the topic and the time commitment required (Silagy and Carson, Reference Silagy and Carson1989; Ward, Reference Ward1994). However, because only six generally positive GPs agreed to be interviewed, the reasons behind the GPs lack of engagement in this project are largely unknown.

Conclusion

This pilot study comparing three methods of patient recruitment in primary care found that although overall recruitment was lower than initially projected, recruiting patients during a GP consultation was the most effective method. Primary care researchers should be cautious when attempting to recruit patients by handing out study materials in practice waiting rooms. There is a need for high-quality research in primary care to look at mechanisms to improve referrals and achieve earlier diagnosis of colorectal cancer. It is vital to engage the clinicians and practice staff to participate in research in primary care. This study emphasizes the importance of conducting pilot work, as potentially significant issues can be identified and taken into account when designing a main trial.

Contributors

Coordinating centre and writing team: Joan Austoker, Willie Hamilton, Nada Khan, Peter Rose, Eila Watson and Alison Ward.

Members of the Colorectal Subgroup of the NCRN Primary Care Clinical Studies Development Group took part in the design and implementation of the study, and approved the final manuscript. The membership of the Colorectal Subgroup of the NCRN Primary Care Clinical Studies Development Group includes Joan Austoker, Christine Campbell, Michael Gordon, Willie Hamilton, Moyez Jiwa, Peter Rose, Greg Rubin, Eila Watson, Alison Ward and David Weller.

Acknowledgements

We are grateful to the participating general practices. We would like to thank David Chinn, Brigitte Colwell, Nicky Hall, Vicky Hammersley and Sally Stapley who collected data from the general practices.

Declarations

Funding body: This project was supported by the Research and Development branch of the Department of Health (ref.: 004/0075). It was also supported by the Thames Valley Primary Care Research Partnership, Oxford.

Ethics committee and reference number: Ethical approval was granted by the Oxfordshire REC C (ref.: 05/Q1606/108).

Competing interests: The author(s) declare that they have no competing interests.

Appendix 1.

References

Barrett, J., Jiwa, M., Rose, P.Hamilton, W. 2006: Pathways to the diagnosis of colorectal cancer: an observational study in three UK cities. Family Practice 23, 1519.CrossRefGoogle Scholar
Cancer Research UK. 2005: CancerStats. Incidence – UK.Google Scholar
Carter, S.Winslet, M. 1998: Delay in the presentation of colorectal carcinoma: a review of causation. International Journal of Colorectal Disease 13, 2731.CrossRefGoogle ScholarPubMed
Chaplin, A., Curless, R., Thomson, R.Barton, R. 2000: Prevalence of lower gastrointestinal symptoms and associated consultation behaviour in a British elderly population determined by face-to-face interview. British Journal of General Practice 50, 798802.Google Scholar
Cleary, J., Peters, T.J., Sharp, D.Hamilton, W. 2007: Clinical features of colorectal cancer before emergency presentation: a population-based case-control study. Family Practice 24, 36.CrossRefGoogle ScholarPubMed
Crosland, A.Jones, R. 1995: Rectal bleeding: prevalence and consultation behaviour. British Medical Journal 311, 486488.CrossRefGoogle ScholarPubMed
Cuffy, M., Abir, F., Audisio, R.A.Longo, W.E. 2004: Colorectal cancer presenting as surgical emergencies. Surgical Oncology 13, 149157.CrossRefGoogle ScholarPubMed
Dent, O.F., Goulston, K.J., Zubrzycki, J.Chapuis, P.H. 1986: Bowel symptoms in an apparently well population. Diseases of the Colon and Rectum 29, 243247.CrossRefGoogle Scholar
Eccersley, A.J., Wilson, E.M., Makris, A.Novell, J.R. 2003: Referral guidelines for colorectal cancer – do they work? Annals of the Royal College of Surgeons of England 85, 107110.CrossRefGoogle ScholarPubMed
Flashman, K., O’Leary, D.P., Senapati, A.Thompson, M.R. 2004: The Department of Health’s “two week standard” for bowel cancer: is it working? Gut 53, 387391.CrossRefGoogle ScholarPubMed
Funch, D.P. 1985: Diagnostic delay in symptomatic colorectal cancer. Cancer 56, 21202124.3.0.CO;2-V>CrossRefGoogle ScholarPubMed
Gatta, G., Capocaccia, R., Sant, M., Bell, C.M.J., Coebergh, J.W.W., Damhuis, R.A.M., Faivre, J., Martinez-Garcia, C., Pawlega, J., de Leon, M.P., Pottier, D., Raverdy, N., Williams, E.M.I.Berrino, F. 2000: Understanding variations in survival for colorectal cancer in Europe: a EUROCARE high resolution study. Gut 47, 533538.CrossRefGoogle ScholarPubMed
Grimshaw, J.Eccles, M. 1998: Clinical practice guidelines. In Silagy, C. and Haines, A., editors, Evidence based practice in primary care, first edition. London: BMJ Books, 110122.Google Scholar
Hamilton, W. 2007: Derivation of a score for identifying colorectal cancer in primary care. Gut 56 (Suppl II), A148.Google Scholar
Hamilton, W., Round, A., Sharp, D.Peters, T.J. 2005: Clinical features of colorectal cancer before diagnosis: a population-based case-control study. British Journal of Cancer 93, 399405.CrossRefGoogle ScholarPubMed
Jones, R., Rubin, G.Hungin, P. 2001: Is the two week rule for cancer referrals working? British Medical Journal 322, 15551556.CrossRefGoogle ScholarPubMed
Lock, C.A., Kaner, E.F.S., Heather, N., Gilvarry, E.Mcavoy, B.R. 2000: Changes in receptionists’ attitudes towards involvement in a general practice-based trial of screening and brief alcohol intervention. British Journal of General Practice 50, 111115.Google Scholar
Mulcahy, H.E.O’Donoghue, D.P. 1997: Duration of colorectal cancer symptoms and survival: the effect of confounding clinical and pathological variables. European Journal of Cancer 33, 14611467.CrossRefGoogle ScholarPubMed
NICE. 2005: Referral guidelines for suspected cancer. London: NICE.Google Scholar
Rai, S.Kelly, M.J. 2007: Prioritization of colorectal referrals: a review of the 2-week wait referral system. Colorectal Disease 9, 195202.CrossRefGoogle ScholarPubMed
Sant, M., Aareleid, T., Berrino, F., Bielska, L.M., Carli, P.M., Faivre, J., Grosclaude, P., Hedelin, G., Matsuda, T., Moller, H., Moller, T., Verdecchia, A., Capocaccia, R., Gatta, G., Micheli, A., Santaquilani, M., Roazzi, P.Lisi, D. 2003: EUROCARE-3: survival of cancer patients diagnosed 1990—94 – results and commentary. Annals of Oncology 14 (Suppl 5), v61v118.CrossRefGoogle Scholar
Short, D., Frischer, M.Bashford, J. 2004: Barriers to the adoption of computerised decision support systems in general practice consultations: a qualitative study of GPs’ perspectives. International Journal of Medical Informatics 73, 357362.CrossRefGoogle Scholar
Silagy, C.A.Carson, N.E. 1989: Factors affecting the level of interest and activity in primary care research among general-practitioners. Family Practice 6, 173176.CrossRefGoogle ScholarPubMed
Tekkis, P.P., Kinsman, R., Thompson, M.R.Stamatakis, J.D. 2004: The Association of Coloproctology of Great Britain and Ireland study of large bowel obstruction caused by colorectal cancer. Annals of Surgery 240, 7681.CrossRefGoogle ScholarPubMed
Thompson, W.G., Heaton, K.W., Smyth, G.T.Smyth, C. 2000: Irritable bowel syndrome in general practice: prevalence, characteristics, and referral. Gut 46, 7882.CrossRefGoogle ScholarPubMed
Ward, J. 1994: General-practitioners experience of research. Family Practice 11, 418423.CrossRefGoogle ScholarPubMed
Watkins, C., Harvey, I., Langley, C., Gray, S.Faulkner, A. 1999: General practitioners’ use of guidelines in the consultation and their attitudes to them. British Journal of General Practice 49, 1115.Google Scholar
Figure 0

Table 1 Scoring system for CAPER

Figure 1

Figure 1 Summary of recruitment methods

Figure 2

Table 2 Summary of patients recruited by the recruitment method

Figure 3

Table 3 Compliance with the assessment tool