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Published 11/26/2020

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Type 2 Diabetic Retinopathy Screening in a
General Practice: A Five-Year Retrospective
Analysis
Anthony J. Chung   , My Nhi Dang 

1. Medicine and Surgery, Queen Elizabeth Hospital Woolwich, London, GBR 2. General Practice, Imperial College
London, London, GBR

Corresponding author: Anthony J. Chung, anthonyjychung@yahoo.co.uk

Abstract
Aim
To assess current standards of diabetic retinopathy screening in primary care against the National Institute
of Clinical Excellence (NICE) guidelines for type 2 diabetes mellitus. Moreover, to determine whether
individuals with diabetes were screened for diabetic retinopathy no later than three months from referral to
the local eye screening service and no later than one year from their last retinal screen.

Materials and methods
A single-center, retrospective audit was undertaken at a small general practice. Data was collected from the
health records of individuals placed on the type 2 diabetes register from 01/01/2013 to 01/01/2018.
Individuals who were diagnosed with diabetes whilst registered at a different practice, who had pre-diabetic
retinal screening or were referred onto a different screening pathway were excluded. A total of 50 records
were audited and data collection involved demographics, dates individuals were placed on the diabetes
register and dates of attendance and non-attendance to screening.

Results
16.0% of individuals with type 2 diabetes underwent retinal screening which adhered to the NICE guidelines.
Of the cohort which did not adhere, 59.5% experienced an interval greater than three months between
diagnosis and first retinal screening and 64.3% experienced a screening interval greater than one year.

Conclusions
Diabetic retinopathy screening of individuals must be improved to meet the NICE standards. Interventions
should be implemented to increase the awareness within general practitioners and practice nurses to ensure
all people with diabetes receive their first retinal screen within the first three months of diagnosis with
regular annual screening thereafter.

Categories: Endocrinology/Diabetes/Metabolism, Family/General Practice, Ophthalmology
Keywords: types 2 diabetes, diabetic retinopathy, diabetes mellitus, screening, primary care

Introduction
Diabetic retinopathy, a common complication of both type 1 and type 2 diabetes mellitus, is the single
largest cause of blindness before old age. However, it takes several years for diabetic retinopathy to progress
to a stage where sight is threatened. Diabetic Eye Screening, a national screening program introduced in
2003, was initiated with the aims of reducing the risk of sight loss through early detection and treatment,
where necessary, of sight-threatening retinopathy. This was achieved through examination of the retina via
mydriatic digital photography and is offered to all people with diabetes aged 12 years and over. By 2008, the
screening program achieved population coverage across the entirety of England. In 2015-16, the annual
uptake of the program was 82.8% [1].

In 2012, the Royal College of Ophthalmologists (RCOphth) authored Diabetic Retinopathy Guidelines,
providing valuable clinical guidance for the management of diabetic eye disease [2]. The RCOphth guidelines
make particular reference to the National Institute of Clinical Excellence (NICE) guidelines and supports the
use of population-based digital photography screening program for diabetic retinopathy in the United
Kingdom. The current standards outlined for adults with type 2 diabetes [3] state that on diagnosis, general
practitioners should immediately refer adults with type 2 diabetes to the local eye screening service; perform
screening as soon as possible and no later than three months from referral; arrange repeat structured eye
screening annually.

1, 2 2

 
Open Access Original
Article  DOI: 10.7759/cureus.11713

How to cite this article
Chung A J, Dang M (November 26, 2020) Type 2 Diabetic Retinopathy Screening in a General Practice: A Five-Year Retrospective Analysis.
Cureus 12(11): e11713. DOI 10.7759/cureus.11713

https://www.cureus.com/users/136567-anthony-j-chung
https://www.cureus.com/users/136858-my-nhi-dang


This retrospective audit was undertaken with the aim of determining whether current diabetic retinopathy
screening in patients registered to one general practice adhered with the NICE guidelines. In particular, this
audit assessed whether individuals with type 2 diabetes had undergone screening for diabetic retinopathy no
more than three months from referral to the local eye screening service. Furthermore, we investigated
whether people with diabetes had undergone retinal screening no later than a year from their most previous
screen. Compliance to these objectives would be determined by obtaining retinal screening dates from health
records.

This article was previously presented as an oral presentation at the Advanced Ophthalmologic Practice 2020
Annual Scientific Meeting on January 11, 2020.

Materials And Methods
A single-center audit was undertaken at a small general practice serving approximately 6000 patients. Data
was collected retrospectively and extracted using Vision healthcare software and Docman electronic
document management software. All cases read-coded as “Type 2 diabetes mellitus. Placed on register” over
the period of five years (1st January 2013 - 1st January 2018) were audited. The audit was registered and
approved in line with general practice processes.

A total of 89 people were added to the the type 2 diabetes register during the data collection period (Figure
1). After examining patient documentation, 29 individuals had been diagnosed with diabetes prior to the
data collection period despite being read-coded, and thus were excluded. Additionally, only individuals
registered to the practice prior to their diagnosis of diabetes were included. Individuals who had been
diagnosed with diabetes in other practices prior to registering with the audited practice were excluded.
Furthermore, one person was excluded due to attendance at pre-diabetic retinal screening and another
person was excluded due to referral onto a slit lamp biomicroscopy screening pathway. After exclusion, 50
cases were included in this study. The audit collected data on the following domains: age and gender, dates
individuals were placed on the diabetes register, dates of attendance and non-attendance to diabetic
retinopathy screening and postponements to screening appointments.

FIGURE 1: Flow chart of selection of patient records for inclusion in
audit analysis.

Results
Of the 60 people diagnosed with type 2 diabetes in this audit period, 50 fulfilled the relevant audit criteria
and were thus included in the analysis. As seen in Table 1, the overall mean age for people with type 2
diabetes at diagnosis was 59.5 years, with a range from 33 to 83 included. Additionally, there were a greater
number of males (n = 34) compared to females (n = 16) in this audit. 

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Variable Patients (n = 50)

Demographics  

     Age, years 59.5 (33-83)

     Female, n (%) 16 (68.3)

     Male, n (%) 34 (55.4)

TABLE 1: Clinical and demographic information for all patients included in analysis.

In the audit period, 16.0% of people with type 2 diabetes were screened for diabetic retinopathy in line with
NICE guidelines. No persons diagnosed with diabetes in 2013 and 2014 had retinal screening which fully met
the criteria defined by the NICE (Figure 2). From 2014 onwards, the percentage of individuals with diabetes
who underwent satisfactory screening increased with each consecutive year. There was a large increase in
the percentage of individuals fulfilling the NICE criteria between those diagnosed in 2015 (8.3%) and 2016
(40.0%). The increasing trend peaks with individuals diagnosed with diabetes in 2017 (45.5%).

FIGURE 2: Percentage of diabetic patients diagnosed between 2013-
2018 who underwent annual retinal screening in accordance with the
NICE guidelines.

Of the 42 individuals determined not to have met the NICE guidelines, 59.5% had a time period of greater
than three months between their diagnosis and their first appointment, 64.3% attended screening but had
screening intervals which were greater than a year and 26.2% did not attend their scheduled screening
appointments (Figure 3). One individual (2.4%) had formally postponed their screening appointment while
six patients’ records (14.3%) contained missing documentation regarding whether they were screened or not.

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FIGURE 3: Reasons why diabetic patients diagnosed between 2013-2018
were determined not to have met the NICE retinal screening guidelines.

Of the individuals who attended their first offered retinal screening appointment, the mean period of time
between diagnosis and their initial screening appointment was 108.7 days (Figure 4). In comparison,
individuals who did not attend their first offered retinal screening appointment underwent their first retinal
screen an average of 435.2 days following their date of diagnosis.

FIGURE 4: Average period of time between diabetes diagnosis and first
retinal screening appointment.

In summary, 16.0% of individuals included in this audit had diabetic retinal screening which completely
fulfilled the NICE criteria, this includes attending the diabetic screening program within three months from
their referral and screening within one year from their last retinal screening appointment. Of the individuals
who did not meet the NICE guidelines, 59.5% were due to the interval between the diagnosis date and first
screening being greater than three months, and 64.3% were due to screening intervals of greater than one
year in length. Moreover, there is a 326.5 day difference in the time taken from diagnosis to first retinal
screening appointment between individuals who attend their first appointment and those who do not attend
their first appointment.

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Discussion
This audit was undertaken with the aim of determining whether current diabetic retinopathy screening in
people with type 2 diabetes registered to one general practice in London adhered with the NICE guidelines.
Furthermore, by identifying areas of improvement, implementing an intervention and re-auditing at a later
stage, this audit provides the groundwork to evaluate whether progression has been made in aligning current
retinal screening practices with those imposed by the NICE as part of the United Kingdom's National Health
Service (NHS) retinopathy screening program.

Main findings
This audit revealed a positive trend between the year of diagnosis and the percentage of people with type 2
diabetes who underwent retinal screening in accordance with the NICE guidelines. As seen in Figure 2, no
people diagnosed with diabetes in 2013 and 2014 underwent retinal screening which fully complied with the
NICE guidelines. However, with each consecutive year of diagnosis from 2014, the percentage of individuals
compliant with the NICE guidelines progressively increases. This may be explained through several factors.
Firstly, reduced awareness of the NICE guidelines and lack of diabetic screening pathway training in
healthcare professionals in the past may have contributed to the low compliance rate. Additionally, changes
in patient attitudes towards attending screening programs may account for these results. Patient attitudes
may be influenced by greater patient education on the detrimental effects of diabetic retinopathy [4], social
media usage, NHS promotional materials and increased recommendations by healthcare providers [5].
Despite the improvement in compliance rate, people diagnosed with diabetes in 2017 still fell short of the
standards outlined by the NICE guidelines, with only 45.5% successfully undergoing retinal screening.

Our in-depth examination of the reasons underlying why diabetic retinopathy screening guidelines were not
being achieved identified two main causes (Figure 3). The primary reason was that, despite patient
attendance, screening intervals were greater than the NICE-recommended one-year period (64.3%).
Secondly, the time period between diagnosis and the first screening appointment was found to be greater
than the NICE-recommended maximum of three months (59.5%). Both findings may be explained through a
multitude of factors, including administrative errors, long waiting lists, delayed referrals and rescheduling
of appointments.

Furthermore, 26.2% of people with diabetes did not attend their scheduled screening appointments. It was
beyond the scope of our study to identify the reasons as to why people did not attend their screening
appointments, however, this topic has been explored in detail in the literature [6-8]. In particular, Strutton
et al. performed a quantitative analysis to identify explanations for why individuals registered to one South
London diabetic eye screening program had never attended a screening appointment [8]. The study
categorized factors given to non-attendance into patient-level factors and system-level factors. Patient-level
factors were factors determined to some extent by the patient while system-level factors were those
determined by the healthcare provider. The study established that reasons for non-attendance included
patients having other commitments, patient anxiety and miscommunication regarding the patient’s address
and clinical condition. The results of the study by Strutton et al. are useful in providing insight into our
study as our cohort are of similar demographic and geographic population [8].

It is important to highlight that 14.3% of people with diabetes had incomplete documentation regarding
diabetic screening appointments. This included lack of documentation concerning dates of screening
appointments and patient attendance. Whilst missing data is especially common in any retrospective study,
greater attention could be made in future to minimize the amount of missing data for re-audits. This can be
achieved through the implementation of a proforma which would aid healthcare professionals in submitting
completed documentation.

Our study emphasizes the importance of following up individuals with diabetes who do not attend their first
screening appointment. As seen in Figure 4, individuals who did not attend their first offered screening
appointment are seen on average 326.5 days later compared to individuals who did attend their first offered
appointment. It appears that non-attendance to the first offered screening appointment is a strong indicator
that the individual will not have their first screen until greater than a year’s length in time has passed.

Furthermore, our audit has revealed that despite attendance to the first offered screening appointment, the
average number of days between diagnosis and the aforementioned is 108.7 days. This is slightly greater
than the maximum three month interval as outlined by the NICE suggesting that system-level factors are the
predominant cause of the failure to adhere to the NICE criteria.

Strengths and limitations
There are many strengths associated with this study. This audit incorporated a large number of people with
diabetes during its phase one period, thus allowing it to stand in good stead for future comparisons among
other phases. Additionally, by collecting data over a five year period, this study had a vast data set and was
able to identify reliable trends. Finally, the retrospective nature of this study ensures that the data collected
was not influenced by any changes in behavior or patient care by healthcare providers.

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Whilst our study was able to provide valuable insights into the different factors as to why diabetic
retinopathy screening in primary care patients are not currently in line with NICE guidelines, there are some
limitations to note. Our study utilized the date individuals were placed on the diabetes register in substitute
of the date of referral to the local eye screening service. This likely resulted in an overestimation of people
determined to have not met the NICE criteria, as the date of referral is typically a few days after the date
individuals were placed on the diabetes register. 

Moreover, the shortcomings associated with the single-center study design of this audit should be
considered. The lack of external validity in single-center studies means that the results of this study may not
be representative of individuals registered to other practices. Differences in patient demographics, varying
attitudes and socioeconomic disparities make it difficult to generalize our results to the patient population.
This combined with the different priorities of healthcare providers across the country introduces further
challenges against the applicability of our results. Also, it would have been useful to collect data on travel
distance to the nearest screening center as this is a major factor influencing the elderly population of
diabetic individuals whom are at a greater risk of developing diabetic complications.

Conclusions
Overall, this audit explored the key factors that influence whether individuals with type 2 diabetes receive
retinopathy screening in accordance with the NICE guidelines. This includes long periods of time between
diagnosis and screening, screening intervals of greater than a year, non-attendance and lack of
documentation. Thus, several interventions are recommended to improve adherence with diabetic
retinopathy screening guidelines. Interventions can be classified into those aimed at healthcare
professionals and those aimed at individuals with diabetes.

Healthcare professionals in general practice need increased awareness of the diabetic retinopathy NICE
guidelines. This may be facilitated through annual training sessions, as well as including this as a mandatory
topic of discussion in general practice meetings. Targeted reminder notifications on Vision software to
prompt action from healthcare professionals may be helpful in practice. Additionally, implementation of a
proforma tailored towards people with diabetes will encourage complete documentation from healthcare
professionals. Regular audits are essential to assess compliance with the NICE standards. We also
recommend incorporation of regular follow ups for individuals with diabetes who do not attend their first
offered screening appointment as this cohort are particularly at risk of delayed retinopathy screening . This
could be through an escalation in contact methods including text messages, letters and phone calls. 

Additional Information
Disclosures
Human subjects: All authors have confirmed that this study did not involve human participants or tissue.
Animal subjects: All authors have confirmed that this study did not involve animal subjects or tissue.
Conf licts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the
following: Payment/services info: All authors have declared that no financial support was received from
any organization for the submitted work. Financial relationships: All authors have declared that they have
no financial relationships at present or within the previous three years with any organizations that might
have an interest in the submitted work. Other relationships: All authors have declared that there are no
other relationships or activities that could appear to have influenced the submitted work.

Acknowledgements
The authors thank the administrative staff with the search, the reception staff for their kind words of
encouragement and Dr Zehra Rashid and Dr Saikat Adhikari for their support in conducting the audit and in
contributing to and implementing the recommendations.

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	Type 2 Diabetic Retinopathy Screening in a General Practice: A Five-Year Retrospective Analysis
	Abstract
	Aim
	Materials and methods
	Results
	Conclusions

	Introduction
	Materials And Methods
	FIGURE 1: Flow chart of selection of patient records for inclusion in audit analysis.

	Results
	TABLE 1: Clinical and demographic information for all patients included in analysis.
	FIGURE 2: Percentage of diabetic patients diagnosed between 2013-2018 who underwent annual retinal screening in accordance with the NICE guidelines.
	FIGURE 3: Reasons why diabetic patients diagnosed between 2013-2018 were determined not to have met the NICE retinal screening guidelines.
	FIGURE 4: Average period of time between diabetes diagnosis and first retinal screening appointment.

	Discussion
	Main findings
	Strengths and limitations

	Conclusions
	Additional Information
	Disclosures
	Acknowledgements

	References