PURPOSE: The lack of powerful evidence to support the efficacy of anti-vascular endothelial growth factor (VEGF) therapy in human pterygium can be attributed to incomplete VEGF expression assessment by restrictive use of immunohistochemistry only and failure to use the molecular methods able to confirm immunohistochemical findings. By adding at least one more sensitive method to assess human pterygium VEGF expression, a more accurate selection of patients for bevacizumab therapy could be done and this would improve the efficacy of anti-VEGF therapy in human pterygium. METHODS: We assessed VEGF mRNA amplification on paraffin-embedded specimens by applying the RNAscope method for the first time in human pterygium, an in situ hybridization-based technique able to detect VEGF mRNA as a single gene copy on paraffin-embedded samples. RESULTS: Heterogeneous VEGF mRNA distribution and amplification inside the epithelial compartment of human pterygium were observed. Despite previous reports concerning the immunohistochemical expression of VEGF in the human pterygium fibrovascular compartment, no stromal components were characterized by VEGF mRNA amplification assessed by in situ hybridization in our study. A higher amplification score was observed in epithelium from recurrent pterygium, especially located in the basal and suprabasal epithelial cells. CONCLUSIONS: Based on our findings we consider that in situ hybridization assessment of VEGF for human pterygium specimens can be a useful tool for reconsidering the selection of pterygium patients to be enrolled in anti-VEGF therapy.
PURPOSE: The lack of powerful evidence to support the efficacy of anti-vascular endothelial growth factor (VEGF) therapy in human pterygium can be attributed to incomplete VEGF expression assessment by restrictive use of immunohistochemistry only and failure to use the molecular methods able to confirm immunohistochemical findings. By adding at least one more sensitive method to assess human pterygium VEGF expression, a more accurate selection of patients for bevacizumab therapy could be done and this would improve the efficacy of anti-VEGF therapy in human pterygium. METHODS: We assessed VEGF mRNA amplification on paraffin-embedded specimens by applying the RNAscope method for the first time in human pterygium, an in situ hybridization-based technique able to detect VEGF mRNA as a single gene copy on paraffin-embedded samples. RESULTS: Heterogeneous VEGF mRNA distribution and amplification inside the epithelial compartment of human pterygium were observed. Despite previous reports concerning the immunohistochemical expression of VEGF in the human pterygium fibrovascular compartment, no stromal components were characterized by VEGF mRNA amplification assessed by in situ hybridization in our study. A higher amplification score was observed in epithelium from recurrent pterygium, especially located in the basal and suprabasal epithelial cells. CONCLUSIONS: Based on our findings we consider that in situ hybridization assessment of VEGF for human pterygium specimens can be a useful tool for reconsidering the selection of pterygium patients to be enrolled in anti-VEGF therapy.