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Open Access 01-06-2017 | Review Article

The English National Screening Programme for diabetic retinopathy 2003–2016

Author: Peter H. Scanlon

Published in: Acta Diabetologica | Issue 6/2017

Abstract

The aim of the English NHS Diabetic Eye Screening Programme is to reduce the risk of sight loss amongst people with diabetes by the prompt identification and effective treatment if necessary of sight-threatening diabetic retinopathy, at the appropriate stage during the disease process. In order to achieve the delivery of evidence-based, population-based screening programmes, it was recognised that certain key components were required. It is necessary to identify the eligible population in order to deliver the programme to the maximum number of people with diabetes. The programme is delivered and supported by suitably trained, competent, and qualified, clinical and non-clinical staff who participate in recognised ongoing Continuous Professional Development and Quality Assurance schemes. There is an appropriate referral route for those with screen-positive disease for ophthalmology treatment and for assessment of the retinal status in those with poor-quality images. Appropriate assessment of control of their diabetes is also important in those who are screen positive. Audit and internal and external quality assurance schemes are embedded in the service. In England, two-field mydriatic digital photographic screening is offered annually to all people with diabetes aged 12 years and over. The programme commenced in 2003 and reached population coverage across the whole of England by 2008. Increasing uptake has been achieved and the current annual uptake of the programme in 2015–16 is 82.8% when 2.59 million people with diabetes were offered screening and 2.14 million were screened. The benefit of the programme is that, in England, diabetic retinopathy/maculopathy is no longer the leading cause of certifiable blindness in the working age group.

Diabetes care and research in Europe (1990) The Saint Vincent declaration. Diabet Med 7:360CrossRef

Iceland (2015) http://www.idf.org/membership/eur/iceland. Accessed 03 Feb 1017

Facts and Stats (2016) https://www.diabetes.org.uk/Documents/Position%20statements/DiabetesUK_Facts_Stats_Oct16.pdf. Accessed 03 Feb 2017

Screening for diabetic retinopathy in Europe—strategies for overcoming hurdles to progress (2011) http://www.drscreening2005.org.uk/gdansk_2011.html. Accessed 03 Feb 2017

Wilson J, Jungner G (1968) The principles and practice of screening for disease. Public Health Papers 34. Public Health Papers, WHO, Geneva

Scanlon P (2005) An evaluation of the effectiveness and cost-effectiveness of screening for diabetic retinopathy by digital imaging photography & technician ophthalmoscopy & the subsequent change in activity, workload and costs of new diabetic ophthalmology referrals. [M.D.]: London

Scanlon PH (2008) The English national screening programme for sight-threatening diabetic retinopathy. J Med Screen 15:1–4CrossRefPubMed

Pandit RJ, Taylor R (2002) Quality assurance in screening for sight-threatening diabetic retinopathy. Diabet Med 19:285–291CrossRefPubMed

Scanlon P (2005) An evaluation of the effectiveness and cost-effectiveness of screening for diabetic retinopathy by digital imaging photography and technician ophthalmoscopy and the subsequent change in activity, workload and costs of new diabetic ophthalmology referrals. UCL, London

10.

Harding SP, Broadbent DM, Neoh C, Vora J, Williams EMI (1994) The liverpool diabetic eye study—sensitivity and specificity of photography and direct ophthalmoscopy in the detection of sight threatening eye disease. Diabetic Med 79:S45

11.

Moss SE, Meuer SM, Klein R, Hubbard LD, Brothers RJ, Klein BE (1989) Are seven standard photographic fields necessary for classification of diabetic retinopathy? Invest Ophthalmol Vis Sci 30:823–828PubMed

12.

Diabetic eye screening: guidance on camera approval (2016). https://www.gov.uk/government/publications/diabetic-eye-screening-approved-cameras-and-settings/diabetic-eye-screening-guidance-on-camera-approval. Accessed 03 Feb 2017

13.

Basu A (2006) Digital image compression should be limited in diabetic retinopathy screening. J Telemed Telecare 12:163–165CrossRefPubMed

14.

Conrath J, Erginay A, Giorgi R et al (2007) Evaluation of the effect of JPEG and JPEG2000 image compression on the detection of diabetic retinopathy. Eye 21:487–493PubMed

15.

Li HK, Florez-Arango JF, Hubbard LD, Esquivel A, Danis RP, Krupinski EA (2010) Grading diabetic retinopathy severity from compressed digital retinal images compared with uncompressed images and film. Retina 30:1651–1661CrossRefPubMed

16.

Scanlon PH, Malhotra R, Thomas G et al (2003) The effectiveness of screening for diabetic retinopathy by digital imaging photography and technician ophthalmoscopy. Diabet Med 20:467–474CrossRefPubMed

17.

Scanlon PH, Malhotra R, Greenwood RH et al (2003) Comparison of two reference standards in validating two field mydriatic digital photography as a method of screening for diabetic retinopathy. Br J Ophthalmol 87:1258–1263CrossRefPubMedPubMedCentral

18.

Scanlon PH, Foy C, Malhotra R, Aldington SJ (2005) The influence of age, duration of diabetes, cataract, and pupil size on image quality in digital photographic retinal screening. Diabetes Care 28:2448–2453CrossRefPubMed

19.

Massin P, Erginay A, Ben Mehidi A et al (2003) Evaluation of a new non-mydriatic digital camera for detection of diabetic retinopathy. Diabet Med 20:635–641CrossRefPubMed

20.

Cavallerano JD, Aiello LP, Cavallerano AA et al (2005) Non mydriatic digital imaging alternative for annual retinal examination in persons with previously documented no or mild diabetic retinopathy. Am J Ophthalmol 140:667–673CrossRefPubMed

21.

Aptel F, Denis P, Rouberol F, Thivolet C (2008) Screening of diabetic retinopathy: effect of field number and mydriasis on sensitivity and specificity of digital fundus photography. Diabetes Metab 34(3):290–293CrossRefPubMed

22.

Vujosevic S, Benetti E, Massignan F et al (2009) Screening for diabetic retinopathy: 1 and 3 Nonmydriatic 45° digital fundus photographs vs 7 standard early treatment diabetic retinopathy study fields. Am J Ophthalmol 148:111–118CrossRefPubMed

23.

Scottish Diabetic Retinopathy Screening (DRS) Collaborative (2017). http://www.ndrs.scot.nhs.uk/Links/index.htm/. Accessed 04 Jan 2017

24.

Scanlon PH, Foy C, Chen FK (2008) Visual acuity measurement and ocular co-morbidity in diabetic retinopathy screening. Br J Ophthalmol 92:775–778CrossRefPubMed

25.

Corcoran JS, Moore K, Agarawal OP, Edgar DF, Yudkin J (1985) Visual acuity screening for diabetic maculopathy. Practical Diabetes 2:230–232

26.

Early Treatment Diabetic Retinopathy Study Research Group (1991) Fundus photographic risk factors for progression of diabetic retinopathy. ETDRS report number 12. Ophthalmology 98:823–833CrossRef

27.

Wilkinson CP, Ferris FL 3rd, Klein RE et al (2003) Proposed international clinical diabetic retinopathy and diabetic macular edema disease severity scales. Ophthalmology 110:1677–1682CrossRefPubMed

28.

Continuous professional development for screening—the new qualification (2017). https://cpdscreening.phe.org.uk/healthscreenerqualification. Accessed 04 Jan 2017

29.

Updates to test and training system benefit diabetic eye screening providers (2017). https://phescreening.blog.gov.uk/2016/08/23/updates-to-test-and-training-system-benefit-diabetic-eye-screening-providers/. Accessed 04 Jan 2017

30.

NHS public health functions agreement (2016–17) Service specification no. 22. NHS Diabetic Eye Screening Programme. https://www.england.nhs.uk/commissioning/wp-content/uploads/sites/12/2016/02/serv-spec-22.pdf. Accessed 04 Jan 2017

31.

Certificate of higher education in diabetic retinopathy screening (2017). http://drscreening.org/pages/default.asp?id=2&sID=3. Accessed 04 Jan 2017

32.

International test and training (2017). http://drscreening.org/pages/default.asp?id=27&sID=40. Accessed 04 Jan 2017

33.

Pathway standards for NHS diabetic eye screening programme (2016) https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/543686/Diabetic_eye_screening_pathway_standards.pdf. Accessed 04 Jan 2017

34.

Liew G, Michaelides M, Bunce C (2014) A comparison of the causes of blindness certifications in England and Wales in working age adults (16–64 years), 1999–2000 with 2009–2010. BMJ Open 4:e004015CrossRefPubMedPubMedCentral

35.

NHS screening programmes in England. 1 April 2015 to 31 March 2016 (2016). https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/574713/Screening_in_England_2015_to_2016.pdf. Accessed 04 Jan 2017

36.

Mackenzie S, Schmermer C, Charnley A et al (2011) SDOCT imaging to identify macular pathology in patients diagnosed with diabetic maculopathy by a Digital photographic retinal screening programme. PLoS ONE 6:e14811CrossRefPubMedPubMedCentral

37.

Stratton IM, Aldington SJ, Taylor DJ, Adler AI, Scanlon PH (2013) A simple risk stratification for time to development of sight-threatening diabetic retinopathy. Diabetes Care 36:580–585CrossRefPubMedPubMedCentral

38.

Scanlon PH, Aldington SJ, Leal J et al (2015) Development of a cost-effectiveness model for optimisation of the screening interval in diabetic retinopathy screening. Health Technol Assess 19:1–116CrossRefPubMedPubMedCentral

39.

Aspelund T, Thornorisdottir O, Olafsdottir E et al (2011) Individual risk assessment and information technology to optimise screening frequency for diabetic retinopathy. Diabetologia 54:2525–2532CrossRefPubMed

40.

Lund SH, Aspelund T, Kirby P et al (2016) Individualised risk assessment for diabetic retinopathy and optimisation of screening intervals: a scientific approach to reducing healthcare costs. Br J Ophthalmol 100:683–687CrossRefPubMed

41.

(2016) An observational study to assess if automated diabetic retinopathy image assessment software can replace one or more steps of manual imaging grading and to determine their cost-effectiveness. https://www.journalslibrary.nihr.ac.uk/hta/hta20920/#/full-report

42.

Silva PS, Cavallerano JD, Sun JK, Soliman AZ, Aiello LM, Aiello LP (2013) Peripheral lesions identified by mydriatic ultrawide field imaging: distribution and potential impact on diabetic retinopathy severity. Am Acad Ophthalmol 120:2587–2595

43.

Silva PS, Cavallerano JD, Tolls D et al (2014) Potential efficiency benefits of nonmydriatic ultrawide field retinal imaging in an ocular telehealth diabetic retinopathy program. Diabetes Care 37:50–55CrossRefPubMed

44.

Liegl R, Liegl K, Ceklic L et al (2014) Nonmydriatic ultra-wide-field scanning laser ophthalmoscopy (Optomap) versus two-field fundus photography in diabetic retinopathy. Ophthalmologica 231:31–36CrossRefPubMed

45.

Wilson PJ, Ellis JD, MacEwen CJ, Ellingford A, Talbot J, Leese GP (2010) Screening for diabetic retinopathy: a comparative trial of photography and scanning laser ophthalmoscopy. Ophthalmologica 224:251–257CrossRefPubMed

46.

Yogesan K, Constable IJ, Barry CJ, Eikelboom RH, McAllister IL, Tay-Kearney ML (2000) Telemedicine screening of diabetic retinopathy using a hand-held fundus camera. Telemed J 6:219–223CrossRefPubMed

47.

Al-Sheikh M, Akil H, Pfau M, Sadda SR (2016) Swept-source OCT angiography imaging of the foveal avascular zone and macular capillary network density in diabetic retinopathy. Invest Ophthalmol Vis Sci 57:3907–3913CrossRefPubMed

48.

Harding S, Greenwood R, Aldington S et al (2003) Grading and disease management in national screening for diabetic retinopathy in England and Wales. Diabet Med 20:965–971CrossRefPubMed

49.

Treatment Diabetic Retinopathy Study Research Group (1987) Treatment techniques and clinical guidelines for photocoagulation of diabetic macular edema. Early treatment diabetic retinopathy study report number 2. Early Ophthalmol 94:761–774CrossRef

Title: The English National Screening Programme for diabetic retinopathy 2003–2016
Author: Peter H. Scanlon
Publication date: 01-06-2017
Publisher: Springer Milan
Published in: Acta Diabetologica / Issue 6/2017
Print ISSN: 0940-5429
Electronic ISSN: 1432-5233
DOI: https://doi.org/10.1007/s00592-017-0974-1

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