With high morbidity, branch retinal vein occlusion (BRVO) is a common retinal vascular disease in the clinic. Although the classic characteristics of BRVO have been recognized for a long time, the traditional understanding of BRVO has been challenged along with development and application of new imaging technologies, including the reasonable classification and staging of the disease, and the vascular characteristics at the occlusive site via multimodal imaging, etc. Thus, re-summarizing and refining these features as well as further improving and optimizing traditional imaging evaluation, can not only deepen the correct acknowledge of the entity, but also find biomarkers of prognosis of visual function, which is helpful to establish better diagnosis and treatment strategy. In the meanwhile, it is necessary that clinical characteristics of BRVO on imaging and the reliability of these imaging techniques are worth correct understanding and objective assessment.
As a newly developing technology of adaptive optics (AO), the combination of AO technology with traditional fundus imaging devices, such as fundus camera, scanning laser ophthalmoscope as well as optical coherence tomography, can image photoreceptor cells, retinal pigment epithelial cells, retinal ganglion cells, and retinal vascular system. Currently, AO technology is applied in the diagnosis, monitor and management of retinal diseases, enabling the observation of early changes of photoreceptor cells and analyzing vascular parameters in inherited retinal diseases, age-related macular degeneration, retinal vascular diseases such as diabetic retinopathy and retinal vein occlusion, inflammatory retinal diseases and central serous chorioretinopathy. Major breakthrough brought by AO technology along with rapid progress driven by ophthalmic imaging devices can help clarify the pathogenesis of eye diseases. and offer a comprehensive understanding of the new perspectives provided by AO technology for fundus imaging. Of course, limitation of popularizing application of AO device exists due to small scan range and optic media opacity. Thus, a comprehensive understanding of AO technology provides a new horizon for retina imaging. A comprehensive understanding of AO technology provides updated vision for fundus imaging, and is expected to promote the clinical application of AO technology in ophthalmology, and to enable cellular-resolution imaging of the living human retina.