Most general practitioners and physicians are familiar with the risk factors, clinical presentation, and management of retinopathy in patients with diabetes mellitus, commonly termed diabetic retinopathy. Fewer doctors are fully informed about other ocular and systemic causes of retinopathy or the clinical significance of retinopathy in patients without diabetes (referred to as non-diabetic retinopathy in this review). However, retinopathy is fairly common in adults without diabetes,1-4 and doctors routinely encounter such patients in whom clinical or laboratory evidence of hyperglycaemia is consistently absent.
Although some patients with retinopathy will have an obvious aetiology (for example, severe anaemia, systemic lupus erythematosis, or underlying carotid disease), many do not have an easily identifiable cause for their retinal signs. What course of action should the doctor take when faced with retinopathy in a patient without diabetes? What are the common ocular and systemic causes of retinopathy? What is the clinical significance of these retinopathy lesions? These and other matters are discussed in this review.
Sources and selection criteria
We reviewed studies on ocular and systemic causes of “retinopathy” from Medline and textbooks. We specifically excluded “diabetic retinopathy.”
Non-diabetic retinopathy
Non-diabetic retinopathy has been defined in different studies to include microaneurysms, retinal haemorrhages (dot, blot, and flame shaped), hard exudates, cotton wool spots, retinal venular abnormalities (venous beading and tortuosity), intraretinal microvascular abnormalities, and new vessels.1-3 The ocular and systemic causes of retinopathy in people without diabetes are varied (see table on bmj.com).
Ocular causes of non-diabetic retinopathy
Retinal vein occlusion
Central retinal vein occlusion and branch retinal vein occlusion can present with non-diabetic retinopathy. The appearance on funduscopy is usually characteristic, with flame shaped haemorrhages present within the distribution of the affected vein (fig 1). The patient may complain of a sudden painless unilateral loss of vision or visual field (for example, inferior field defects for superior branch retinal vein occlusion) or may be asymptomatic. If loss of vision is severe a relative afferent pupillary defect may exist, indicating retinal ischaemia. Important systemic risk factors for retinal vein occlusion include hypertension, diabetes mellitus, and other conditions such as hyperhomocystinaemia.5 Glaucoma is an important ocular risk factor. The prevalence of retinal vein occlusion was noted in one study to be 1.6% in people above 49 years of age.6 Given the possible severe associations of this condition and its relatively high prevalence, retinal vein occlusion should not be overlooked.
Fig 1.
Branch retinal vein occlusion in a patient with hypertension
Summary points
Many people without diabetes may have signs of retinopathy (microaneurysms, retinal haemorrhages, cotton wool spots)
Ocular conditions associated with retinopathy in non-diabetic patients include retinal vein occlusions, retinal telangiectasia, and retinal macroaneurysms
Systemic conditions associated with retinopathy in non-diabetic patients include systemic hypertension, carotid atherosclerotic diseases, blood dyscrasias, systemic infections, and past radiotherapy to the head
Doctors should be aware of the common causes and clinical significance of these conditions, as retinopathy may be associated with visual loss (for example, retinal vein occlusion) or increased incidence of cardiovascular diseases (for example, hypertensive retinopathy)
Appropriate investigations and referral, if necessary, are advisable in the management of patients presenting with non-diabetic retinopathy
Retinal telangiectasia
Patients with retinal telangiectasia may present with retinopathy. In younger patients this is referred to as Coats' disease. It usually occurs in young men aged less than 20 years (median age 5 years7). Vision may be greatly affected in advanced cases. A milder form of the same disease, termed Leber's miliary aneurysms, can present later in life as a localised cluster of dilated capillaries, aneurysms, and telangiectasia, typically in the temporal quadrants of the retina. Either of these conditions should be suspected in young patients with retinopathy. About 8% of cases are asymptomatic.
Retinal macroaneurysm
Retinal macroaneurysm refers to an isolated aneurysmal dilatation of a major arterial or arteriolar branch that is often associated with leakage of exudate and multiple retinal haemorrhages. It usually occurs in older women and is strongly associated with hypertension and an increased incidence of cardiovascular and atherosclerotic vessel disease.8
Systemic causes of non-diabetic retinopathy
Hypertension
Hypertension is probably the best known systemic condition associated with non-diabetic retinopathy. In people with hypertension, retinopathy is often referred to as hypertensive retinopathy, although this definition has sometimes been expanded to include retinal arteriolar signs such as arteriovenous nicking and focal and generalised arteriolar narrowing.9 Retinopathy has been found to be present in about 11% of hypertensive non-diabetic people over 43 years of age.2
An appreciable proportion (average 6%) of normotensive non-diabetic people may also have retinopathy.1-3 In two population based studies, more than 50% of the participants with non-diabetic retinopathy did not have a history of hypertension.2,3 Retinopathy may thus represent the cumulative effects of elevated blood pressure throughout life in people not classified as having hypertension.
Atherosclerosis
The relation between atherosclerosis and retinopathy is not well studied. Carotid atherosclerotic vessel disease causing greater than 90% occlusion of the carotid artery system is known to cause ocular ischaemic syndrome, which may manifest as retinopathy.10 Several large epidemiological studies of non-diabetic retinopathy in relation to less severe atherosclerotic vessel disease have recently shown retinopathy to be linked to the presence of carotid artery plaques,4,11 increased intima-media thickness of the common and internal carotid arteries,4 and high concentrations of serum total cholesterol.11 One study found abdominal obesity, as measured by the waist:hip ratio, to be independently associated with the incidence of non-diabetic retinopathy developing after 10 years.1 Increased waist:hip ratio may be a manifestation of the metabolic syndrome encompassing conditions including atherosclerosis, diabetes, and hypertension.
Systemic vasculitis
Various systemic connective tissue diseases may also manifest in the eye as retinopathy. Cotton wool spots and intraretinal haemorrhages constitute the most common ocular manifestations of systemic lupus erythematosis.12 Although the clinical features may be similar to those of diabetic retinopathy, this retinopathy is usually associated with less ischaemia and visual loss. Other ocular features of systemic lupus erythematosis may provide clues, including scleritis, keratitis, and, rarely, corneal perforation.12 Retinopathy may improve after treatment of the systemic disease; however, exacerbations of retinopathy are common during relapses.13
Patients with the antiphospholipid antibody syndrome—typically women under the age of 50—commonly present with non-diabetic retinopathy independent of their systemic lupus erythematosis status.14 Screening for the antiphospholipid and anticardiolipin antibodies may thus be useful in such patients presenting with non-diabetic retinopathy, to direct appropriate subsequent management.
Behcet's disease characteristically presents with white patches of retinitis associated with cotton wool spots and retinal haemorrhages,15 as well as retinal vein occlusion and venous inflammation. Cotton wool spots may also be seen in other systemic vasculitides, such as polyarteritis nodosa, temporal arteritis, or Wegener's granulomatosis. Many of these conditions have multiple systemic manifestations that may aid in the diagnosis.
Blood dyscrasias
Severe anaemia of any cause is a known cause of retinopathy. Specific types of anaemia, such as sickle cell disease, may mimic diabetic retinopathy in its proliferative form.16 Pre-proliferative sickle cell retinopathy has a predilection for the peripheral retina and is usually asymptomatic in the early stages. Aplastic anaemia may manifest as non-diabetic retinopathy and may even present initially with preretinal haemorrhages in up to 13% of patients.17 Leukaemia can similarly present with cotton wool spots before diagnosis.18 Haematological and hypercoagulable states, such as deficiency of protein C or protein S, have also been reported to cause retinopathy and retinal vein occlusion (fig 2).5 Because some of these conditions are life threatening, a careful clinical examination and appropriate investigations may be necessary.
Fig 2.
Central retinal vein occlusion in a patient with protein C deficiency
Systemic infections
Patients with AIDS often develop retinal microangiopathy, typically resulting in isolated or multiple cotton wool spots and haemorrhages.19 This must be differentiated from signs of cytomegalovirus retinitis,19 which commonly occurs when the CD4 count falls below 200 cells/mm3. Toxoplasmosis may occasionally present with cotton wool spots and retinal vasculitis, usually adjacent to a classical punched-out white chorioretinal scar with associated pigment. Other clinical findings may include iritis, vitritis, swelling of the optic disc, and secondary retinal vein occlusion. Old, inactive “toxo” lesions in the other eye are common.
Patients with infective endocarditis may have Roth spots, which are pale-centred retinal haemorrhages caused by a localised thrombus. Other less common causes of non-diabetic retinopathy include infections such as tuberculosis and syphilis. Appropriate investigation of infectious causes is essential, as many conditions are treatable.
Radiation
Retinopathy due to radiation is known to occur up to 10 years after cranial or maxillary radiation and may not be readily distinguished from diabetic retinopathy on clinical examination.20 Hard exudates have been found to be more prevalent after brachytherapy, whereas intraretinal haemorrhages and microaneurysms are more commonly found after teletherapy.20 A careful history will often exclude this diagnosis.
Clinical significance of non-diabetic retinopathy
Whereas diabetic retinopathy is often associated with impairment of vision and blindness, the clinical significance of retinopathy in patients without diabetes is varied, particularly in cases of systemic disease.
Retinal vein occlusion and other retinal vascular disorders
Retinal vein occlusions and other retinal vascular disorders with signs of retinopathy are potentially sight threatening conditions. Ischaemic central retinal vein occlusion is associated with an increased risk of new vessel formation in the iris and subsequent secondary neovascular glaucoma, which can develop up to 24 months after initial presentation.5 Branch retinal vein occlusion can also lead to new vessel formation in the retina or optic disc, and both central retinal vein occlusion and branch retinal vein occlusion may lead to persistent macular oedema, causing permanent loss of vision. Prompt diagnosis and referral to an ophthalmologist for consideration of appropriate laser treatment are warranted. Retinal macroaneurysms may resolve spontaneously by thrombosis, or may be associated with recurrent leakage with retinal and vitreous haemorrhage. Laser photocoagulation may be indicated.8 Early treatment of Coats' disease can reduce the extent of visual loss.21
Severity of hypertension, cardiovascular disease, and mortality
Retinopathy is a prognostic marker in patients with hypertension. In the Keith-Wagener-Barker classification, presence of retinal haemorrhages and cotton wool spots, when present with other retinal changes, is categorised as grade 3 retinopathy, signifying severe hypertensive disease.9 In epidemiological studies, retinopathy has consistently been reported to occur more often in people with uncontrolled or undetected and untreated hypertension than in normotensive people and those with adequately treated hypertension.2,3,22
Retinopathy has been linked with lower glomerular filtration rates and microalbuminuria, and it occurs in parallel with left ventricular hypertrophy early in the course of blood pressure elevation.8 More recent studies have also shown an independent association between the presence of retinopathy and cerebrovascular disease.22 Furthermore, retinopathy has been found to be independently associated with increased all cause mortality.23 The association between non-diabetic retinopathy and ischaemic heart disease, however, is not well established.4
Preclinical diabetes
An interesting question is whether retinopathy is a marker of future risk of diabetes. Few data are available on this subject. One study found that retinopathy was associated with increasing fasting blood sugar concentrations in people not classified as having diabetes mellitus,24 although another study did not find this association.3
Other systemic diseases
Retinopathy in a patient with systemic lupus erythematosis is a known marker for the active phase of the disease.12 Severe retinopathy and other ischaemic retinal changes have also been associated with central nervous system systemic lupus erythematosis.25 White patches of retinitis in Behcet's disease may be indicative of reactivation of the disease process.15
Non-diabetic retinopathy in an AIDS patient is associated with increased systemic severity of the disease.19 A specific correlation of the number of cotton wool spots with increasing systemic severity of AIDS and decreased cerebral blood flow is not well established.
Clinical approach to management
Retinopathy has many severe implications and grave associations. It would thus be prudent for the doctor to investigate thoroughly and ascertain the aetiology in a patient presenting with non-diabetic retinopathy, to allow for the early institution of appropriate treatment. Figure 3 and the box present an algorithm, relevant aspects of which can be incorporated in the individual management of a patient with non-diabetic retinopathy. This approach should consist of a thorough history, medical examination, and appropriate laboratory investigations. Referral to an ophthalmologist for a full ophthalmic examination, including the use of fundus fluorescein angiography, should be considered.
Fig 3.
Initial management of non-diabetic retinopathy
Conclusion
Retinopathy lesions are commonly seen in middle aged and elderly people without diabetes. Common ocular conditions associated with retinopathy in non-diabetic patients include retinal vein occlusions, retinal telangiectasia, and retinal macroaneurysms. Common systemic causes include systemic hypertension, carotid atherosclerotic diseases, blood dyscrasias, systemic infections, and past radiotherapy. Doctors should be aware of these conditions and should appropriately investigate, refer, and manage these patients.
Additional education resources
Websites for doctors
www.emedicine.com—comprehensive, established, and regularly updated website containing extensively peer reviewed articles written by specialists on diseases spanning 62 medical specialties, including retinopathy
www.revoptom.com/HANDBOOK/default.htm—good site developed by optometrists outlining salient clinical and management principles of ocular disease, including many of the conditions predisposing to retinopathy
www.eyeweb.org—site developed and maintained by resident ophthalmologists at the American University of Beirut Medical Centre, providing short outlines of common ophthalmological conditions, including hypertensive retinopathy and retinal vein occlusion, tailored to primary care physicians
Websites for patients
www.emedicinehealth.com—recently developed branch website of the established web based medical reference emedicine.com, providing basic, well reviewed medical information on many conditions, including some diseases associated with retinopathy
www.intelihealth.com/IH/ihtIH/WSIHW000/408/408.html—website providing patients with basic information on various medical conditions, including some retinopathy related diseases, from sources such as Harvard Medical School
www.pennhealth.com/ency/content/index.html—website managed by the University of Pennsylvania Health System, containing information for patients on a multitude of medical conditions, including some retinopathy related diseases
www.eyemdlink.com/Conditions.asp—website dedicated to providing relevant information, contributed by American board certified ophthalmologists, to patients on ocular conditions, including retinopathy
Investigation of retinopathy
Medical history
Diabetes mellitus
Hypertension
History of cardiovascular disease (stroke, ischaemic heart disease, peripheral vascular disease)
History of thrombosis
Anaemia (for example, sickle cell disease)
Drug history (for example, aplastic anaemia)
Connective tissue disease (for example systemic lupus erythematosis)
Radiotherapy (for example, central nervous system or nasopharyngeal tumours, thyroid eye disease)
Malignancy (for example, leukaemia)
AIDS
Physical examination
General health (pallor, cachexia, lymphadenopathy)
Blood pressure assessment
Cardiovascular assessment
Neurological assessment
Investigations
Full blood count, erythrocyte sedimentation rate
Fasting glucose concentrations and oral glucose tolerance test
Lipids (total cholesterol, high density lipoprotein cholesterol, low density lipoprotein cholesterol, triglycerides)
Infectious disease investigations (for example, chest x ray, syphilis and HIV serology)
Neurological investigations (for example, carotid ultrasound)
Connective tissue investigations (C reactive protein, antinuclear antibodies, anti-dsDNA)
Haematological investigations (activated protein C resistance, protein C activity, protein S activity, antithrombin III activity, antiphospholipid antibodies, and anticardiolipin antibodies)
Further special diagnostic investigations as indicated from preliminary results
Supplementary Material
A table appears on bmj.com
We thank Tien Y Wong for his critical review of the paper.
Contributors: JV conducted the literature review and wrote the initial and final drafts. PM reviewed the manuscript and provided additional intellectual content and overall supervision.
Funding: None.
Competing interests: None declared.
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