72   COMMUNITY EYE HEALTH JOURNAL | VOLUME 28 ISSUE 92 | 2015

Although traditionally the features of 
DR have been identified through direct 
ophthalmoscopy or slit lamp biomicroscopy, 
digital photography is more sensitive 
than direct ophthalmoscopy and is 
comparable to slit lamp examination by 
a trained observer.1 

A digital fundus camera has the 
following advantages:

• Fast and convenient imaging of the 
retina by a photographer

• Storage, archiving, and transmission 
of the images

• Use of the images for quality 
assurance (that is, having them 
checked by another person) to 
ensure that no cases of retinopathy 
go undetected

• Ability to enhance images – 
magnification, red-free, enhanced 
contrast, etc. 

When using the Scottish Grading Protocol2, 
just one retinal photograph is taken, which 
is centred on the fovea. The field must 
extend at least 2 disc diameters (DD) 
temporal to the fovea and 1DD nasal to 
the disc for adequate visualisation. 

Features of retinopathy
The signs of diabetic retinopathy are 
covered on page 65 and on pages 
70–71. For DR screening, certain signs 
are more important than others. 

Blot haemorrhages should be distin-
guished from microaneurysms, not just 
by their darker appearance but also by 
their size – the larger 
diameter of a blot haemor-
rhage should be equal in size 
to, or larger than, the 
diameter of the widest vein 
exiting from the optic disc.

Chronic retinal oedema 
results in precipitation of 
yellow waxy deposits of lipid 
and protein known as 
exudates. When blot 
haemorrhages and exudates 
are visible within the macular 
area, they are considered markers for 
macular oedema.

Signs of retinal ischaemia include blot 
haemorrhages, venous beading and 
intra-retinal microvascular anomalies 
(IRMA). Venous beading is a subtle 

change in the calibre (thickness) of the 
second and third order retinal veins which 
gives them an irregular contour resembling 
a string of beads. IRMA look like new 
vessels; however they occur within areas 
of capillary occlusion and do not form 
vascular loops. Unusual vessels with 
loops therefore, should be treated as NV. 

Grading of DR 
Most grading protocols are based on 
classification systems for DR which track 
the appearance and progression of 
disease (for example, the Early Treatment 
of Diabetic Retinopathy Study, or EDTRS, 

classification). Location 
(distance from fovea) is 
important when grading 
maculopathy. Visual acuity 
can be used as a marker for 
macular oedema, although it 
may be affected by other 
pathology such as cataracts or 
refractive error. 

The Scottish Grading 
protocol grades the severity of 
retinopathy from R0 to R4 and 
of maculopathy as a separate 

grade from M0 to M2 (Table 1). R6 is a 
stand-alone grade for poor quality images 
which cannot be graded. If patients have 
technical failures at photography they 
must undergo further screening by slit 
lamp biomicroscopy. 

GRADING DR

Grading diabetic retinopathy (DR) 
using the Scottish grading protocol

Sonia Zachariah
Associate Specialist: Diabetic Retinopathy 
Screening Service, Glasgow, Scotland.

William Wykes
Consultant Ophthalmologist and Clinical Director: 
Diabetic Retinopathy Screening Service, Glasgow, 
Scotland.

David Yorston
Consultant Ophthalmologist: Tennent Institute of 
Ophthalmology, Gartnavel Hospital, Glasgow, UK. 
dbyorston@btinternet.com

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Figure 1. R3M2, The photograph shows multiple blot 
haemorrhages, corresponding to the R3 grade. In 
addition there are exudates within 1 disc diameter to the 
fovea, so the complete grade is R3M2

Figure 2. R3. There are blot haemorrhages and cotton wool 
spots. In addition there is a venous loop inferotemporal to the 
fovea. These features indicate severe ischaemia, corresponding 
to R3. There are no exudates visible

‘For DR 
screening, 
certain signs 
are more 
important 
than others’

mailto:dbyorston%40btinternet.com?subject=


  COMMUNITY EYE HEALTH JOURNAL | VOLUME 28 ISSUE 92 | 2015  73

Grade Features Outcome

R0 No disease Rescreen in 12 months  

R1 Mild background DR 
Including microaneurysms, flame exudates, >4 blot haemorrhages in one or both 
hemifields, and/or cotton wool spots

Rescreen in 12 months  

R2 Moderate background DR 
>4 blot haemorrhages in one hemifield 

Rescreen in 6 months  

R3 Severe non-proliferative or pre-proliferative DR: >4 blot haemorrhages in both 
hemifields, intra-retinal microvascular anomalies (IRMA), venous beading 

Refer 

R4 Proliferative retinopathy
NVD, NVE, vitreous haemorrhage, retinal detachment

Refer

M0 No macular findings 12 month rescreening 

M1 Hard exudates within 1–2 disc diameters of fovea 6 month rescreening 

M2 Blot haemorrhage or hard exudates within 1 disc diameter of fovea Refer 

BDR – background diabetic retinopathy
Hemifield – field of image divided by an imaginary line running across the disc and fovea

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Table 1. The different grades of diabetic retinopathy (DR) in the Scottish Grading Protocol: features and outcomes 

Figure 3a. New vessels at the disc. There are new vessels at the 
optic disc, indicating high risk proliferative retinopathy. Note 
that there are few other signs of retinopathy, and you might 
miss the disc vessels if you are not looking for them

Figure 3b. New vessels at the disc (red-free). The red-free 
version of this photo shows the new vessels at the optic disc 
more clearly. Altering the images, e.g. by using red-free, is a 
valuable tool for detecting retinopathy

When grading, the graders first assess 
the quality of an image on the basis of the 
clarity of the nerve fibre layer. Images 
considered of good enough quality are 
then inspected systematically, starting 
with the optic disc, then the macula and 
then all other areas. Using the red free 
filter is mandatory as it is essential to 
highlight subtle features such as micro-
aneurysms and IRMA. Other tools such as 
the zoom and contrast enhancement are 
used to improve visualisation. A ruler is 

used to measure the size of blot haemorr-
hages and to measure the distance of 
exudates and blot haemorrhages from the 
fovea (in disc diameters) in order to set 
the maculopathy grade. Table 1 shows 
the different grades and their outcomes.3

Conclusion
Screening has proved to be a vital tool in 
the fight against DR-related visual loss. 
An important measure of the successful 
implementation of screening is the 

reduced incidence of blindness due to 
sight-threatening diabetic retinopathy.4  
 
References
1 Harding S, Greenwood R, Aldington S, Gibson J, Owens 

D, Taylor R, et al. Grading and disease management in 
national screening for diabetic retinopathy in England 
and Wales. Diabet Med 2003;20:965-71.  

2 http://www.ndrs-wp.scot.nhs.uk  
3 The NHS Diabetic Eye Screening Programme Revised 

Grading Definitions, 2012. Available from: http://www.
diabeticeye.screening.nhs.uk/gradingcriteria

4 Arun CS, Al-Bermani A, Stannard K, Taylor R. 
Long-term impact of retinal screening on significant 
diabetes-related visual impairment in the working age 
population. Diabet Med 2009;26:489-92.

© The author/s and Community Eye Health Journal 2015. This is an Open Access 
article distributed under the Creative Commons Attribution Non-Commercial License.

http://www.ndrs-wp.scot.nhs.uk 
http://www.diabeticeye.screening.nhs.uk/gradingcriteria
http://www.diabeticeye.screening.nhs.uk/gradingcriteria