We present a novel method to image the vasculature of the anterior segment of the eye using a non-invasive optical coherence tomography angiography (OCTA) system with a modified lens system. This system utilises the Heidelberg Spectralis OCTA and a 3D printed lens mount holding a simple biconvex lens in place to allow capture of images in the anterior segment.
Keywords: AS-OCTA; Heidelberg; Optical coherence tomography angiography; SLO; anterior segment; cornea; fluorescein; iris; neovascularisation; scanning laser ophthalmoscope; slit lamp biomicroscope; spectralis; vasculature.