Retinoblastoma (RB), the most common primary intraocular malignancy in infants and young children, poses a serious threat to visual function and the life of children when systemic metastasis occurs. Circular RNA (circRNA) is a recently discovered class of non-coding RNA that mainly functions as competitive endogenous RNA by regulating gene expression through competing with microRNA. circRNA can function as oncogenes or tumor suppressors, regulating various biological processes in RB cells, such as proliferation, migration, apoptosis, autophagy, and drug resistance, thereby providing new therapeutic targets for RB. In addition, the differential expression of circRNA in tumor tissues or exosomes is expected to be a potential biomarker for RB. Further studies and explorations are still needed for the functions and regulatory mechanisms of circRNA in RB to reveal their precise roles in organisms and potential clinical applications.
High myopia is a disease with a high incidence rate and an increasing trend, which could lead to irreversible visual impairment worldwide. Myopia traction maculopathy (MTM), belonging to one of the pathological changes of high myopia, could cause vision damage and even blindness in patients. Recently, a new classification of MTM based on optical coherence tomography can effectively evaluate the condition of patients and is helpful for the diagnosis and treatment of MTM. Moreover, the improvement of internal limiting membrane peeling method and the innovation of macular buckle material provide new ideas for the treatment of MTM based on traditional surgery. New treatment such as vitreal traction release laser surgery, enzymatic vitreolysis and posterior scleral crosslinking have gained increasing attention. By combining these new treatments with artificial intelligence, 3D printing technology and advanced vitrectomy equipment, it is hoped that a safer and more effective treatment for MTM will be found in the future.
Hydroxychloroquine is widely used in a variety of autoimmune diseases. However, long-term use of hydroxychloroquine can cause severe retinopathy, which has a complex pathogenic mechanism and diverse clinical manifestations, mainly manifested as photoreceptor and retinal pigment epithelial damage and irreversible vision loss. Identifying damage before retinitis pigment epithelium lesions preserve central vision, so early detection is crucial to slow disease progression and reduce vision loss. The development of multimodal imaging technology and the issuance of the latest treatment guidelines provide a powerful tool for the early screening and treatment of hydroxychloroquine retinopathy. Proficient in the latest guidelines for the treatment of hydroxychloroquine can better guide clinicians to do a good job in disease screening and management, recommend risks, safe dosages and appropriate screening procedures to patients and strengthen the prevention of hydroxychloroquine retinopathy, which will help save the vision of more patients and reduce the waste of medical resources.