Safety and cost-effectiveness of individualised screening for diabetic retinopathy: the ISDR open-label, equivalence RCT
Safety and cost-effectiveness of individualised screening for diabetic retinopathy: the ISDR open-label, equivalence RCT
Aims/hypothesis: using variable diabetic retinopathy screening intervals, informed by personal risk levels, offers improved engagement of people with diabetes and reallocation of resources to high-risk groups, while addressing the increasing prevalence of diabetes. However, safety data on extending screening intervals are minimal. The aim of this study was to evaluate the safety and cost-effectiveness of individualised, variable-interval, risk-based population screening compared with usual care, with wide-ranging input from individuals with diabetes.
Methods: this was a two-arm, parallel-assignment, equivalence RCT (minimum 2 year follow-up) in individuals with diabetes aged 12 years or older registered with a single English screening programme. Participants were randomly allocated 1:1 at baseline to individualised screening at 6, 12 or 24 months for those at high, medium and low risk, respectively, as determined at each screening episode by a risk-calculation engine using local demographic, screening and clinical data, or to annual screening (control group). Screening staff and investigators were observer-masked to allocation and interval. Data were collected within the screening programme. The primary outcome was attendance (safety). A secondary safety outcome was the development of sight-threatening diabetic retinopathy. Cost-effectiveness was evaluated within a 2 year time horizon from National Health Service and societal perspectives.
Results: a total of 4534 participants were randomised. After withdrawals, there were 2097 participants in the individualised screening arm and 2224 in the control arm. Attendance rates at first follow-up were equivalent between the two arms (individualised screening 83.6%; control arm 84.7%; difference −1.0 [95% CI −3.2, 1.2]), while sight-threatening diabetic retinopathy detection rates were non-inferior in the individualised screening arm (individualised screening 1.4%, control arm 1.7%; difference −0.3 [95% CI −1.1, 0.5]). Sensitivity analyses confirmed these findings. No important adverse events were observed. Mean differences in complete case quality-adjusted life-years (EuroQol Five-Dimension Questionnaire, Health Utilities Index Mark 3) did not significantly differ from zero; multiple imputation supported the dominance of individualised screening. Incremental cost savings per person with individualised screening were £17.34 (95% CI 17.02, 17.67) from the National Health Service perspective and £23.11 (95% CI 22.73, 23.53) from the societal perspective, representing a 21% reduction in overall programme costs. Overall, 43.2% fewer screening appointments were required in the individualised arm.
Conclusions/interpretation: stakeholders involved in diabetes care can be reassured by this study, which is the largest ophthalmic RCT in diabetic retinopathy screening to date, that extended and individualised, variable-interval, risk-based screening is feasible and can be safely and cost-effectively introduced in established systematic programmes. Because of the 2 year time horizon of the trial and the long time frame of the disease, robust monitoring of attendance and retinopathy rates should be included in any future implementation.
Trial registration: ISRCTN 87561257 Funding: The study was funded by the UK National Institute for Health Research. [Figure not available: see fulltext.]
Diabetic retinopathy, Individualised, Personalised, Risk-based, Screening, Systematic, Variable interval
56-69
Broadbent, Deborah M.
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Wang, Amu
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Cheyne, Christopher P.
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James, Marilyn
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Lathe, James
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Stratton, Irene M.
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Roberts, John
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Moitt, Tracy
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Vora, Jiten P.
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Gabbay, Mark
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García-Fiñana, Marta
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Harding, Simon P.
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Broadbent, Deborah M.
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Wang, Amu
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Cheyne, Christopher P.
ec078d25-27f4-4e9f-a8ed-0066d33a492c
James, Marilyn
99de860b-029b-4379-9816-0a002d247888
Lathe, James
5c6b70bd-7e75-4942-b5ec-b118c4d78a27
Stratton, Irene M.
772f25b9-23c0-4240-a3f6-1e76b03b172f
Roberts, John
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Moitt, Tracy
d9bfa471-f346-4a7f-883e-1644ee1dd4f6
Vora, Jiten P.
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Gabbay, Mark
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García-Fiñana, Marta
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Harding, Simon P.
10091207-4f52-491b-b069-98bb37444f5b
the ISDR Study Group
(2020)
Safety and cost-effectiveness of individualised screening for diabetic retinopathy: the ISDR open-label, equivalence RCT.
Diabetologia, 64 (1), .
(doi:10.1007/s00125-020-05313-2).
Abstract
Aims/hypothesis: using variable diabetic retinopathy screening intervals, informed by personal risk levels, offers improved engagement of people with diabetes and reallocation of resources to high-risk groups, while addressing the increasing prevalence of diabetes. However, safety data on extending screening intervals are minimal. The aim of this study was to evaluate the safety and cost-effectiveness of individualised, variable-interval, risk-based population screening compared with usual care, with wide-ranging input from individuals with diabetes.
Methods: this was a two-arm, parallel-assignment, equivalence RCT (minimum 2 year follow-up) in individuals with diabetes aged 12 years or older registered with a single English screening programme. Participants were randomly allocated 1:1 at baseline to individualised screening at 6, 12 or 24 months for those at high, medium and low risk, respectively, as determined at each screening episode by a risk-calculation engine using local demographic, screening and clinical data, or to annual screening (control group). Screening staff and investigators were observer-masked to allocation and interval. Data were collected within the screening programme. The primary outcome was attendance (safety). A secondary safety outcome was the development of sight-threatening diabetic retinopathy. Cost-effectiveness was evaluated within a 2 year time horizon from National Health Service and societal perspectives.
Results: a total of 4534 participants were randomised. After withdrawals, there were 2097 participants in the individualised screening arm and 2224 in the control arm. Attendance rates at first follow-up were equivalent between the two arms (individualised screening 83.6%; control arm 84.7%; difference −1.0 [95% CI −3.2, 1.2]), while sight-threatening diabetic retinopathy detection rates were non-inferior in the individualised screening arm (individualised screening 1.4%, control arm 1.7%; difference −0.3 [95% CI −1.1, 0.5]). Sensitivity analyses confirmed these findings. No important adverse events were observed. Mean differences in complete case quality-adjusted life-years (EuroQol Five-Dimension Questionnaire, Health Utilities Index Mark 3) did not significantly differ from zero; multiple imputation supported the dominance of individualised screening. Incremental cost savings per person with individualised screening were £17.34 (95% CI 17.02, 17.67) from the National Health Service perspective and £23.11 (95% CI 22.73, 23.53) from the societal perspective, representing a 21% reduction in overall programme costs. Overall, 43.2% fewer screening appointments were required in the individualised arm.
Conclusions/interpretation: stakeholders involved in diabetes care can be reassured by this study, which is the largest ophthalmic RCT in diabetic retinopathy screening to date, that extended and individualised, variable-interval, risk-based screening is feasible and can be safely and cost-effectively introduced in established systematic programmes. Because of the 2 year time horizon of the trial and the long time frame of the disease, robust monitoring of attendance and retinopathy rates should be included in any future implementation.
Trial registration: ISRCTN 87561257 Funding: The study was funded by the UK National Institute for Health Research. [Figure not available: see fulltext.]
Text
s00125-020-05313-2
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More information
Accepted/In Press date: 8 September 2020
e-pub ahead of print date: 4 November 2020
Additional Information:
Funding Information:
This study was funded by the UK National Institute for Health Research (NIHR) (Programme Grants for Applied Research [RP-PG-1210-12016]). The views expressed are those of the authors, and not necessarily those of the NIHR or the Department of Health and Social Care. Acknowledgements Authors’ relationships and activities
We would like to acknowledge the outstanding attention to detail from the ISDR administrative team and the Liverpool Clinical Trials Research Centre, and the support of North West Coast Clinical Research Network and our other trained researchers for their immeasurable help in recruiting to target. Also, the Liverpool Diabetic Eye Screening Programme team are thanked for their support and assistance. We thank P. Vazquez-Arango (Department of Eye and Vision Science, University of Liverpool, Liverpool, UK) for invaluable project management support. The graphical abstract was redrawn by F. Vazquez-Arango, Technical and Scientific Illustrator. We would particularly like to thank our PPI members for their invaluable input and enthusiastic support for the trial. Some of the data were presented in an abstract at the 55th EASD Annual Meeting in 2019. All authors declare grant support from the UK?s National Institute for Health Research (NIHR) for the submitted work and no other relationships or activities that could appear to have influenced the submitted work. MG is part-funded by the NIHR Collaboration for Leadership in Applied Health Research and Care North West Coast.
Keywords:
Diabetic retinopathy, Individualised, Personalised, Risk-based, Screening, Systematic, Variable interval
Identifiers
Local EPrints ID: 486992
URI: http://eprints.soton.ac.uk/id/eprint/486992
ISSN: 0012-186X
PURE UUID: 2b9d5e47-f116-4951-a764-042959648c54
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Date deposited: 09 Feb 2024 17:34
Last modified: 18 Mar 2024 04:01
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Contributors
Author:
Deborah M. Broadbent
Author:
Amu Wang
Author:
Christopher P. Cheyne
Author:
Marilyn James
Author:
James Lathe
Author:
Irene M. Stratton
Author:
John Roberts
Author:
Tracy Moitt
Author:
Jiten P. Vora
Author:
Mark Gabbay
Author:
Marta García-Fiñana
Author:
Simon P. Harding
Corporate Author: the ISDR Study Group
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