Pterygium is a common ocular surface disease in Malaysia. Without treatment, it can lead to severe visual impairment. Recurrence is the commonest complication and novel treatment approaches are crucial to prevent vision loss. The biological processes underlying the formation of pterygium are complex, but central to its pathogenesis is the angiogenic cytokine vascular endothelial growth factor (VEGF). VEGF is upregulated under conditions of increased oxidative stress, which plays an integral role in pterygium development (Cardenas-Cantu et al., 2016, Karaman, 2018, Norrby, 1998, Rossino et al., 2020, Shibunya, 2011).Various biomarkers on pterygium have been identified and are useful to determine the effectiveness of new modality treatment for pterygium. These markers can be identified via histopathological stain such as Masson Trichrome to observe changes of collagen fibres. Other identifiable markers include the use of special immunohistochemical stain such as anti CD34 antibody for microvascular density and anti-8-OHdG antibody for oxidative changes in the pterygium tissue. By analyzing the changes with or without Ranibizumab injection in addition to observation of clinical recurrence rate of pterygium, we are able to conclude the effectiveness of anti-VEGF on pterygium recurrence. The aim of the study was to evaluate the association between collagen fibres changes, microvascular density changes and inflammation resultant from oxidative stress with the clinical recurrence of pterygium following intralesional Ranibizumab injection in comparison to control group.
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Microvascular Density (MVD) using anti-CD34 antibody staining, classified based on the Weidner scoring system.
Timeframe: After pterygium excision surgery, tissues were sent to the histopathological laboratory where microvascular density was assessed within two weeks