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General Practice

Adding retinal photography to screening for diabetic retinopathy: a prospective study in primary care

BMJ 1996; 312 doi: https://doi.org/10.1136/bmj.312.7032.679 (Published 16 March 1996) Cite this as: BMJ 1996;312:679
  1. J P O'Hare, consultant physiciana,
  2. A Hopper, senior medical photographera,
  3. C Madhaven, staff grade ophthalmologistb,
  4. M Charny, director of public healthc,
  5. T S Purewal, senior registrara,
  6. B Harney, consultant ophthalmologistb,
  7. J Griffiths, consultant ophthalmologistb
  1. a Department of Medicine, Royal United Hospital, Combe Park, Bath BA1 3NG
  2. b Department of Ophthalmology, Royal United Hospital
  3. c Wiltshire and Bath Health Commission, Devizes, Wiltshire SN10 5EQ
  1. Correspondence to: Dr O'Hare.

    Abstract

    Objective: To evaluate whether adding retinal photography improved community screening for diabetic retinopathy.

    Setting: Mobile screening unit at rural and urban general practices in south west England.

    Subjects: 1010 diabetic patients from primary care.

    Design: Prospective study; patients were examined by ophthalmoscopy by general practitioners or opticians without fundal photographs and again with photographs, and assessments were compared to those of an ophthalmologist.

    Main outcome measures: Whether fundal photography improved the sensitivity of detection of retinopathy and referrable diabetic retinopathy, and whether this sensitivity could be improved by including a review of the films by the specialist.

    Results: Diabetic retinopathy was detected by the ophthalmologist in 205 patients (20.5%) and referrable retinopathy in 49 (4.9%). The sensitivity of the general practitioners and opticians for referrable retinopathy with opthalmoscopy was 65% and improved to 84% with retinal photographs. General practitioners' sensitivity in detecting background retinopathy improved with photographs from 22% to 65%; opticians' sensitivity in detecting background retinopathy improved from 43% to 71%. The sensitivity of detecting referrable retinopathy by general practitioners improved from 56% to 80% with photographs; for opticians it improved from 75% to 88%.

    Conclusion: Combining modalities of screening by providing photography with specialist review of all films in addition to direct ophthalmoscopy through dilated pupils improves assessment and referral for diabetic retinopathy by general practitioners and opticians. With further training and experience, primary care screeners should be able to achieve a sensitivity that will achieve an effective, acceptable, and economical community based screening programme for this condition.

    Key messages

    • Ophthalmoscopy alone in primary care misses early diabetic retinopathy and is insensitive as a screening modality

    • Using photography in addition to ophthalmoscopy, general practitioners and opticians can increase the correct and early diagnosis of sight threatening and background retinopathy

    • The sensitivity of screening is further improved by having a specialist assess the photographs

    • This method is highly cost effective: it costs £12.50 per patient screened to provide photographs—an estimated £1100 per patient whose sight is saved

    Introduction

    Diabetes mellitus is the most common cause of blindness in people of working age in the United Kingdom.1 Diabetic retinopathy accounts for 90% of diabetes related blindness. About 2% of all diabetic patients are currently registered as blind or partially sighted, but many more have not been registered but are greatly handicapped by reduced vision.2 With effective laser treatment, diabetic retinopathy detected and referred early can be treated and most diabetic patients who would otherwise lose vision or become blind can have their vision saved.3 4 Even so, the number of registered legally blind diabetic patients in Avon has remained the same for 20 years.5 Ineffective screening with existing systems may be the major factor in this disappointing performance.6

    Experts agree that organised retinal screening programmes of sufficient sensitivity would be highly desirable for diabetic patients and should be extremely cost effective.7 An effectively managed community based screening programme encompassing detection, referral, treatment, and follow up would prevent about 260 new cases of blindness in diabetic patients under the age of 70 each year in England and Wales.7

    The method for effective screening remains a subject of debate.8 9 10 11 12 13 The largest study comparing existing methods, including a health economic analysis, studied 3318 patients in three centres in the United Kingdom. It found an overall sensitivity of 53% (range 41-67%) of ophthalmoscopic screening for sight threatening retinopathy by general practitioners and 48% (26-69%) by ophthalmic opticians. Fundal photography alone achieved a sensitivity of 55% (35-67%). Combined screening with the ophthalmoscope and fundal photographs interpreted by the ophthalmologist improved the detection of sight threatening retinopathy in all groups in all centres to 75% for general practitioners and 67% for opticians.9 An approach combining modalities, based on this retrospective and other smaller prospective studies, was recently recommended.14 15

    Mobile retinal screening units with a fundal camera mounted in a converted vehicle allow the facility of the retinal camera to be available to rural general practices. Large studies have shown that these improve on existing methods of screening used in the hospital and community setting.16 17 We studied 1010 patients with diabetes cared for in primary care, evaluating whether the combination of retinal photography and ophthalmoscopy through dilated pupils when carried out by interested general practitioners or opticians is superior to either modality alone. The study had four end points: whether fundal photos improved sensitivity of detection of both retinopathy and referrable diabetic retinopathy; whether this sensitivity could be improved further by including a review of the films by the specialist; whether, when compared to a reference standard, the performance of general practitioners differed from that of opticians; and whether specialist photographic assessment alone was different from the result of the combined approach.

    Method

    General practitioners and ophthalmic opticians already using ophthalmoscopy as part of their clinical annual review of diabetic patients were invited to take part in the study. Instruction was arranged for each general practitioner and optician in the study to explain the method of classifying diabetic retinopathy and the criteria for referrable retinopathy (box). Each was provided with a reference manual of photographs as examples of diabetic retinopathy to illustrate typical fundal appearances, with the grading and referral action clearly explained. These classifications and referral criteria followed the advice of the ophthalmologists involved in the study. The reference standard of the study was the ophthalmologists' categorisation after fundal examination and review of photographs taken at screening. The fundal photographs were later assessed in a single blinded manner by the ophthalmologist.

    Criteria for referral of diabetic patients screened for retinopathy

    Referrable criteria are grades 2B-5; general practitioners, opticians, and ophthalmologists used this form to record findings on examination.

    View this table:

    Patients who had been seen in hospital diabetic or ophthalmological clinics in the past 12 months were excluded, as were those already blind and those unable to mount the steps of the retinal screening van.

    STUDY PROTOCOL

    The mobile retinal screening unit (funded by the British Diabetic Association) with driver-photographer and staff grade ophthalmologist travelled out to participating practices. Patients had their corrected visual acuity recorded and then had the fundi dilated with 0.5% tropicamide (two drops to each eye). A single photograph centred on the macula was taken with a retinal camera with instantaneous picture development (Canon CR445NM). Patients were then examined by the general practitioner or optician by ophthalmoscopy; findings and need for referral were recorded on Form A (box). The general practitioners or opticians were then given the fundal photographs to evaluate; with this information they reassessed the previous grading and referral decision and completed a second form (form B). The identical procedure was then carried out by the ophthalmologist (forms C and D).

    STATISTICAL ANALYSIS

    The study design allowed the assessment of sensitivity, specificity, positive predictive value, and negative predictive value for general practitioners and opticians with and without photographs. A sample size of 1000 assumed a referrable retinopathy rate of 5% to achieve sufficient numbers. Confidence intervals based on the sensitivities of each practice screened were calculated.

    Results

    A total of 1010 patients (517 examined by general practitioners and 493 by opticians) were studied. Eleven practices were screened by 31 general practitioners and patients from 12 practices were screened by 17 opticians.

    Table 1 shows the sensitivity of screening for retinopathy for the general practitioners and opticians. Providing photographs to general practitioners and opticians clearly improved both the correct classification and the appropriate referral of patients with sight threatening diabetic retinopathy (from 65% to 73% for all patients). Specificity (table 2) for referrable retinopathy was high at 97% for general practitioners and 93% for opticians. The difference in specificity meant that opticians referred 52 patients, 21 appropriately, whereas general practitioners referred 31 patients, 15 appropriately.

    Table 1

    Sensitivity (%) of general practitioners and opticians screening diabetic patients for retinopathy

    View this table:
    Table 2

    Specificity and positive and negative predictive values of general practitioners and opticians screening diabetic patients for retinopathy

    View this table:

    To improve the sensitivity of detection of sight threatening retinopathy, the photographs were also reviewed by a specialist. For referrable, potentially sight threatening retinopathy this review further improved sensitivity from 73% to 84% (table 1). Later review of the photographs alone achieved 71% sensitivity.

    The combination of ophthalmoscopy and photograph review by the general practitioner or optician with subsequent assessment of photographs by a specialist correctly classified 43 of the 49 referrable patients identified by the ophthalmologist's categorisation. Of the six patients missed, one with maculopathy went on to receive laser treatment within one year and one patient with pre-proliferative retinopathy, two with early maculopathy, and one with moderate background retinopathy continued hospital ophthalmic review; one patient was returned to primary screening.

    For all appropriate referrals (diabetic retinopathy and cataracts) the sensitivity of the primary care screeners was improved by the addition of photographs (from 63% to 70%). When, in addition, the photographs were reviewed by the specialist this increased to 79%, but it was only 54% when photographs alone were seen.

    When general practitioners' and opticians' performances were separated, the general practitioners performed with a lower sensitivity (56%) for detecting sight threatening retinopathy than did the opticians (75%), but the wide confidence intervals for each group indicate a considerable heterogeneity of performance between practices (table 3). There was no significant difference between the sensitivity of general practitioners (practice mean 53%; 95% confidence interval 26% to 81%) and of opticians (83%; 66% to 109%).

    Table 3

    Mean (95% confidence interval) sensitivity (%) of screening for retinopathy in diabetic patients. Data for practices have been aggregated

    View this table:

    Discussion

    Many studies have compared different modalities of screening for diabetic retinopathy2 8 9 10 11 12 13 14 15 16 17; this study assessed the combination of a single retinal photograph taken through dilated pupils and ophthalmoscopy. It was carried out by interested general practitioners or ophthalmic opticians in the primary care setting. The results show that adding retinal photographs improves the sensitivity of screening without affecting specificity in detecting all grades of retinopathy and particularly in detecting sight threatening retinopathy. Review of the films by an ophthalmological specialist further improves the sensitivity of screening.

    Our study clearly shows that the performance of general practitioners and opticians in detecting the earliest stages of retinopathy requires considerable improvement and that the addition of retinal photography almost doubles the sensitivity achieved by both groups. Screening has traditionally focused on detecting sight threatening retinopathy, but recent studies show that improved metabolic control slows progression of retinopathy; this means that effective screening must now also detect early background changes.18 General practitioners will need further training in the use of the ophthalmoscope, particularly in better focusing and visualising a wider area of the retina, to improve standards.

    Although no power calculation was made before the study, we assumed that among 1000 patients, 50 would have sight threatening retinopathy and that this number would give enough confidence for the interpretation of results. While this is true for the addition of photography, the numbers when comparing the performance of general practitioners and opticians are too small for any difference to be viewed with much confidence. The wide confidence intervals in the performance between practices and the possibility of a selection bias imply that it would be unwise to assume a true difference between the performance of general practitioners and of opticians. The best screeners in each group achieved similar sensitivities; furthermore, the addition of the specialist's review of the photographs tended to equalise their performance.

    The sensitivity for any screening should ideally match the reference standard, but in the Exeter limb of the three centre study9 the hospital physicians detected sight threatening retinopathy with a sensitivity of only 67%. It has been claimed that an adequately supervised hospital diabetic clinic might be able to act as a sensitive method of screening, but there have been few studies or audits to evaluate performance in standard hospital diabetic clinics and those that have been carried out have been in centres with a particular interest. In the large Newcastle study of retinal photography, fundal photographs added to ophthalmoscopy considerably improved hospital doctors' screening in diabetic clinics,16 implying that in many hospital diabetic clinics the screening sensitivity is not dissimilar to the 67% obtained in Exeter.

    WHO SHOULD SCREEN?

    A further objective of the study was to see if there was a difference between the performance of general practitioners and opticians as primary care screeners for diabetic retinopathy. General practitioners and opticians studied equal numbers of patients, and the number of positive results on screening shows that results in the groups were similar and that the patient populations studied were comparable. Different total numbers of general practitioners and opticians (31:17) in the area agreed to take part in the study—the study had to rely on using those who volunteered, and it is possible that a selection bias exists because of this.

    For the population of an average health district (250000) the service will identify 100-125 diabetic patients whose sight is threatened and who need ophthalmological review, and 50 will need laser treatment. If 80% of sight threatened patients are saved by treatment from losing vision this service will be highly cost effective—each patient saved from visual loss will cost £1095. Our cost for adding photographs (including capital replacement costs) was £12.50 per patient screened. For a district with a diabetic population of 3500 the total cost for adding retinal photographs would be £43 750; the cost for screening these patients in a hospital eye or diabetes clinic would be about £266000, based on a charge for new patients in an outpatient clinic in 1996 of £76. On the basis of this study, Wiltshire Health Commission has funded the operational costs of the screening service for diabetic patients in primary care since 1993 in the area served by the Royal United Hospital, Bath (£35000 a year for 3500 patients screened).

    We believe that an organised, primary care based, screening programme for diabetic retinopathy that combines ophthalmoscopy and retinal photography could reduce new cases of blindness caused by diabetes. Such programmes could meet the target set by the St Vincent's Declaration19 of reducing this preventable tragedy by one third or more by the year 2000.

    We acknowledge with gratitude the help of the many general practitioners, opticians, and diabetic patients who participated and thank Dr Lyn Higgs, Dr P Mansell, and Dr J Reckless for their encouragement and support.

    Footnotes

    • Funding British Diabetic Association.

    • Conflict of interest None.

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