Aim of The Study To evaluate different structural retinal changes using OCT and OCT-A in patients with SLE ; newly diagnosed patients and patients on treatment and compare parameters with normal subjects
Systemic lupus erythematosus (SLE) is a chronic autoimmune inflammatory disease that involves different organs and systems. The heterogeneous nature of the disease represents a great challenge in its diagnosis and management. Studies reported that the percentage of SLE patients demonstrating ocular manifestations can reach up to 30%. The pathogenesis of the ocular involvement is still unclear, but immune complex vasculopathy and inflammatory mediators might be implicated. The most common ocular manifestation in SLE was found to be kerato-conjunctivitis sicca(KCS) followed by retinopathy, where is the most severe manifestation was the optic nerve involvement, which might end up with irreversible blindness while anterior uveitis is a rare manifestation in SLE. Retinal involvement can vary from subclinical vascular changes to vaso- occlusive vision-threatening retinopathy. Lupus retinopathy is secondary to IgG complex-mediated micro-angiopathy that leads to small vessels infarcts. Currently, there is no agreement on existing biomarkers to identify SLE patients who have subclinical retinal involvement, or to identify whether micro-vascular changes in the retina are attributable to SLE. Lupus retinopathy is usually associated with high disease activity especially nephritis and cerebritis. On the other side, hydroxychloroquine,(HCQ) a cornerstone in lupus treatment, rarely causes ocular toxicity at doses of less than 6.5 mg/kg per day. Moreover, HCQ is found to be associated with retinopathy after a prolonged time of treatment (\>5 years). HCQ binds to melanin pigments in the retinal pigment epithelium (RPE). This binding may serve to concentrate the agents in the cell and contribute to their long-term effects. The classic pattern of retinal toxicity of HCQ is RPE depigmentation with foveal sparing, known as bull's-eye maculopathy. Although visual acuity in these patients seems intact, patients complain from para-central scotomas associated with reading difficulties. Besides, reduced color perception can be seen as retinopathy symptoms. That is why it is important to evaluate the eyes before starting therapy and during follow-up visits. Modern imaging techniques have provided easier and more accurate evaluation as Optical coherence tomography (OCT) is a noninvasive imaging technology, which picks up cross-sectional pictures of the retinal layers, detect thinning of retinal nerve fiber layer and macula. Optical coherence tomography angiography (OCTA) is a relatively new technique that allows visualization of the retina capillary bed and its subtle changes.
Study Type
OBSERVATIONAL
Enrollment
150
Optical coherence tomography
Minia university hospital
Minya, Egypt
RECRUITINGMeasurement of vessel density
comparison of vessel density of superficial and deep layers of retina in 150 subjects divided into 3 groups newly diagnosed SLE patients and SLE patients on treatment and normal subjects using OCT Angiography.
Time frame: 3 months
Measurement of foveal avascular zone
1\) comparison of foveal avascular zone between 3 groups using OCT Angiography.
Time frame: 3 months
Measurement of macular thickness
comparison of macular thickness between 3 groups using OCT.
Time frame: 3 months
Measurement thickness of retinal nerve fiber layer
Comparison of thickness of retinal nerve fiber layer between the 3 groups using OCT.
Time frame: 3 months
Measurement of thickness of ganglion cell layer complex
Comparison of thickness of ganglion cell layer complex between the 3 groups using OCT.
Time frame: 3 months
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