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Computed tomographic colonography compared with colonoscopy or barium enema for diagnosis of colorectal cancer in older symptomatic patients: two multicentre randomised trials with economic evaluation (the SIGGAR trials)

Computed tomographic colonography compared with colonoscopy or barium enema for diagnosis of colorectal cancer in older symptomatic patients: two multicentre randomised trials with economic evaluation (the SIGGAR trials)
Computed tomographic colonography compared with colonoscopy or barium enema for diagnosis of colorectal cancer in older symptomatic patients: two multicentre randomised trials with economic evaluation (the SIGGAR trials)
Background

Computed tomographic colonography (CTC) is a relatively new diagnostic test that may be superior to existing alternatives to investigate the large bowel.

Objectives

To compare the diagnostic efficacy, acceptability, safety and cost-effectiveness of CTC with barium enema (BE) or colonoscopy.

Design

Parallel randomised trials: BE compared with CTC and colonoscopy compared with CTC (randomisation 2?:?1, respectively).

Setting

A total of 21 NHS hospitals.
Participants

Patients aged ??55 years with symptoms suggestive of colorectal cancer (CRC).
Interventions

CTC, BE and colonoscopy.

Main outcome measures

For the trial of CTC compared with BE, the primary outcome was the detection rate of CRC and large polyps (??10?mm), with the proportion of patients referred for additional colonic investigation as a secondary outcome. For the trial of CTC compared with colonoscopy, the primary outcome was the proportion of patients referred for additional colonic investigation, with the detection rate of CRC and large polyps as a secondary outcome. Secondary outcomes for both trials were miss rates for cancer (via registry data), all-cause mortality, serious adverse events, patient acceptability, extracolonic pathology and cost-effectiveness.

Results

A total of 8484 patients were registered and 5384 were randomised and analysed (BE trial: 2527 BE, 1277 CTC; colonoscopy trial: 1047 colonoscopy, 533 CTC). Detection rates in the BE trial were 7.3% (93/1277) for CTC, compared with 5.6% (141/2527) for BE (p?=?0.0390). The difference was due to better detection of large polyps by CTC (3.6% vs. 2.2%; p?=?0.0098), with no significant difference for cancer (3.7% vs. 3.4%; p?=?0.66). Significantly more patients having CTC underwent additional investigation (23.5% vs. 18.3%; p?=?0.0003). At the 3-year follow-up, the miss rate for CRC was 6.7% for CTC (three missed cancers) and 14.1% for BE (12 missed cancers). Significantly more patients randomised to CTC than to colonoscopy underwent additional investigation (30% vs. 8.2%; p?<?0.0001). There was no significant difference in detection rates for cancer or large polyps (10.7% for CTC vs. 11.4% for colonoscopy; p?=?0.69), with no difference when cancers (p?=?0.94) and large polyps (p?=?0.53) were analysed separately. At the 3-year follow-up, the miss rate for cancer was nil for colonoscopy and 3.4% for CTC (one missed cancer). Adverse events were uncommon for all procedures. In 1042 of 1748 (59.6%) CTC examinations, at least one extracolonic finding was reported, and this proportion increased with age (p?<?0.0001). A total of 149 patients (8.5%) were subsequently investigated, and extracolonic neoplasia was diagnosed in 79 patients (4.5%) and malignancy in 29 (1.7%). In the short term, CTC was significantly more acceptable to patients than BE or colonoscopy. Total costs for CTC and colonoscopy were finely balanced, but CTC was associated with higher health-care costs than BE. The cost per large polyp or cancer detected was £4235 (95% confidence interval £395 to £9656).

Conclusions

CTC is superior to BE for detection of cancers and large polyps in symptomatic patients. CTC and colonoscopy detect a similar proportion of large polyps and cancers and their costs are also similar. CTC precipitates significantly more additional investigations than either BE or colonoscopy, and evidence-based referral criteria are needed. Further work is recommended to clarify the extent to which patients initially referred for colonoscopy or BE undergo subsequent abdominopelvic imaging, for example by computed tomography, which will have a significant impact on health economic estimates.

Trial registration

Current Controlled Trials ISRCTN95152621.

Funding

This project was funded by the NIHR Health Technology Assessment programme and will be published in full in Health Technology Assessment; Vol. 19, No. 54. See the NIHR Journals Library website for further project information. Funding was also provided by the UK Department of Health, which stipulated a randomised controlled design but had no involvement in the collection, analysis or interpretation of data, in writing the report, or in the decision to submit for publication. This was also the case for manufacturers who donated equipment for the study (Bracco UK Ltd, High Wycombe, UK; Viatronix Inc., Stony Brook, NY, USA; Medicsight plc, London, UK; Barco Ltd, Bracknell, UK).
1366-5278
1-134
Halligan, S.
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Dadswell, E.
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Wooldrage, K.
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Wardle, J.
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von Wagner, C.
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Lilford, R.
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Yao, G.L.
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Zhu, S.
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Atkin, W.
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Halligan, S.
d4660e12-21e6-498c-b52c-96a3262a914c
Dadswell, E.
65749d23-cdf5-47a1-87a7-e7116132dd15
Wooldrage, K.
687420a9-4583-4a25-94b1-cf772dc3e80c
Wardle, J.
495e80aa-d1b7-4b02-8b1e-8596e5df2550
von Wagner, C.
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Lilford, R.
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Yao, G.L.
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Zhu, S.
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Atkin, W.
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Halligan, S., Dadswell, E., Wooldrage, K., Wardle, J., von Wagner, C., Lilford, R., Yao, G.L., Zhu, S. and Atkin, W. (2015) Computed tomographic colonography compared with colonoscopy or barium enema for diagnosis of colorectal cancer in older symptomatic patients: two multicentre randomised trials with economic evaluation (the SIGGAR trials). Health Technology Assessment, 19 (54), 1-134. (doi:10.3310/hta19540). (PMID:26198205)

Record type: Article

Abstract

Background

Computed tomographic colonography (CTC) is a relatively new diagnostic test that may be superior to existing alternatives to investigate the large bowel.

Objectives

To compare the diagnostic efficacy, acceptability, safety and cost-effectiveness of CTC with barium enema (BE) or colonoscopy.

Design

Parallel randomised trials: BE compared with CTC and colonoscopy compared with CTC (randomisation 2?:?1, respectively).

Setting

A total of 21 NHS hospitals.
Participants

Patients aged ??55 years with symptoms suggestive of colorectal cancer (CRC).
Interventions

CTC, BE and colonoscopy.

Main outcome measures

For the trial of CTC compared with BE, the primary outcome was the detection rate of CRC and large polyps (??10?mm), with the proportion of patients referred for additional colonic investigation as a secondary outcome. For the trial of CTC compared with colonoscopy, the primary outcome was the proportion of patients referred for additional colonic investigation, with the detection rate of CRC and large polyps as a secondary outcome. Secondary outcomes for both trials were miss rates for cancer (via registry data), all-cause mortality, serious adverse events, patient acceptability, extracolonic pathology and cost-effectiveness.

Results

A total of 8484 patients were registered and 5384 were randomised and analysed (BE trial: 2527 BE, 1277 CTC; colonoscopy trial: 1047 colonoscopy, 533 CTC). Detection rates in the BE trial were 7.3% (93/1277) for CTC, compared with 5.6% (141/2527) for BE (p?=?0.0390). The difference was due to better detection of large polyps by CTC (3.6% vs. 2.2%; p?=?0.0098), with no significant difference for cancer (3.7% vs. 3.4%; p?=?0.66). Significantly more patients having CTC underwent additional investigation (23.5% vs. 18.3%; p?=?0.0003). At the 3-year follow-up, the miss rate for CRC was 6.7% for CTC (three missed cancers) and 14.1% for BE (12 missed cancers). Significantly more patients randomised to CTC than to colonoscopy underwent additional investigation (30% vs. 8.2%; p?<?0.0001). There was no significant difference in detection rates for cancer or large polyps (10.7% for CTC vs. 11.4% for colonoscopy; p?=?0.69), with no difference when cancers (p?=?0.94) and large polyps (p?=?0.53) were analysed separately. At the 3-year follow-up, the miss rate for cancer was nil for colonoscopy and 3.4% for CTC (one missed cancer). Adverse events were uncommon for all procedures. In 1042 of 1748 (59.6%) CTC examinations, at least one extracolonic finding was reported, and this proportion increased with age (p?<?0.0001). A total of 149 patients (8.5%) were subsequently investigated, and extracolonic neoplasia was diagnosed in 79 patients (4.5%) and malignancy in 29 (1.7%). In the short term, CTC was significantly more acceptable to patients than BE or colonoscopy. Total costs for CTC and colonoscopy were finely balanced, but CTC was associated with higher health-care costs than BE. The cost per large polyp or cancer detected was £4235 (95% confidence interval £395 to £9656).

Conclusions

CTC is superior to BE for detection of cancers and large polyps in symptomatic patients. CTC and colonoscopy detect a similar proportion of large polyps and cancers and their costs are also similar. CTC precipitates significantly more additional investigations than either BE or colonoscopy, and evidence-based referral criteria are needed. Further work is recommended to clarify the extent to which patients initially referred for colonoscopy or BE undergo subsequent abdominopelvic imaging, for example by computed tomography, which will have a significant impact on health economic estimates.

Trial registration

Current Controlled Trials ISRCTN95152621.

Funding

This project was funded by the NIHR Health Technology Assessment programme and will be published in full in Health Technology Assessment; Vol. 19, No. 54. See the NIHR Journals Library website for further project information. Funding was also provided by the UK Department of Health, which stipulated a randomised controlled design but had no involvement in the collection, analysis or interpretation of data, in writing the report, or in the decision to submit for publication. This was also the case for manufacturers who donated equipment for the study (Bracco UK Ltd, High Wycombe, UK; Viatronix Inc., Stony Brook, NY, USA; Medicsight plc, London, UK; Barco Ltd, Bracknell, UK).

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More information

Published date: July 2015
Organisations: Primary Care & Population Sciences

Identifiers

Local EPrints ID: 380903
URI: http://eprints.soton.ac.uk/id/eprint/380903
ISSN: 1366-5278
PURE UUID: 7e09f0da-a44c-4bba-9186-18f26d11deb6

Catalogue record

Date deposited: 14 Sep 2015 15:26
Last modified: 14 Mar 2024 21:06

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Contributors

Author: S. Halligan
Author: E. Dadswell
Author: K. Wooldrage
Author: J. Wardle
Author: C. von Wagner
Author: R. Lilford
Author: G.L. Yao
Author: S. Zhu
Author: W. Atkin

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