There was no correlation between the antibody concentration and the thickness of macular structure (p>0.05). Conclusion There was no significant difference in the thickness of choroid, retina, ganglion cell complex and retinal fiber layer in different macular areas after COVID-19 vaccine injection. (164 eyes) were included in the analysis. There were 63 males and 101 females. The average age was 65.99 8.43 years. There was no significant difference in age and sex among the groups (p>0.05). The average axial length of 164 eyes was 23.56 1.46mm, and no significant difference between the groups (p>0.05). Non parametric test and ANOVA test for the thickness of choroid, retina, ganglion cell complex and retinal nerve fiber layer in each division of CPI-268456 ETDRS showed no significant difference in the four groups of un-injection, no-antibody, IgM and IgG CPI-268456 (p>0.05). There was no correlation between the antibody concentration and the thickness of macular structure (p>0.05). Conclusion There was no significant difference in the thickness of choroid, retina, ganglion cell complex and retinal fiber layer in different macular areas after COVID-19 vaccine injection. There was no linear correlation between the thickness of choroid, retina, ganglion cell complex and retinal fiber layer and the antibody concentration produced after COVID-19 vaccine injection. It suggests that the injection of COVID-19 vaccine might have no significant effect on the macular structure of eye. Keywords: COVID-19 vaccine, antibody, macula, ETDRS zoning, retina Background Novel coronavirus disease 2019 (COVID-19) is a global health disaster and a great challenge for mankind. The prevalence of COVID-19 has greatly impacted the global health system, disrupted the worldwide economy and caused incalculable losses (1). In the face of serious epidemic situation, in addition to avoiding contact with infectious sources as much as possible, the COVID-19 vaccination has brought new hope for the alleviation of epidemic. China is currently using five vaccine development technologies to develop and produce COVID-19 vaccines: whole virus inactivated vaccine, adenovirus vector vaccine, recombinant subunit vaccine, mRNA vaccine and attenuated influenza virus vector vaccine. Several studies have shown the effectiveness of different COVID-19 vaccines in inhibiting COVID-19. A meta-analysis by Zeng et?al. evaluated the effectiveness of eleven COVID-19 vaccines against different variants of severe acute respiratory syndrome coronavirus DUSP10 2 (SARS-CoV-2) (2). Another study reported that the efficacy of nine COVID-19 vaccines against symptomatic COVID-19 exceeded 50% (3). COVID-19 is characterized by fever, fatigue and muscle soreness. As the disease progresses, dyspnea, respiratory failure, shock and multiple organ dysfunction may occur (4). Although ocular tissues are relatively less involved, some studies have reported ocular manifestations in patients with COVID-19 (5C9). Some studies found RNA of SARS-Cov-2 in the human ocular tissues (10C12). At present, conjunctivitis is the earliest ocular disorder caused by COVID-19 reported in the literature (13C15). COVID-19 conjunctivitis is similar to other viral conjunctivitis. At present, there is no case report of conjunctivitis affecting vision. However, the greater threat to vision is the vitreoretinopathy CPI-268456 associated with COVID-19 infection, such as the manifestation of cotton wool spots and bleeding spots (16), flaming hemorrhage and ischemic lesions (cotton wool spots and retinal fan pallor) (17), retinal vein occlusion and retinal artery occlusion (18), resulting in macular lesions or change of thickness (16, 19C22). COVID-19 vaccine is of great significance for the epidemic control, but its safety cannot be ignored. Some studies have reported the effects of COVID-19 vaccine CPI-268456 on the eyes, mainly involving the posterior segment of the eyeball. The uvea, choroid and retinal vessels are most frequently affected. CPI-268456 The median time of ocular pathological manifestations was 4 days after vaccine injected (23). The main manifestations are uveitis, white spot syndrome, central serous chorioretinopathy, retinal vein occlusion, acute macular neuroretinopathy and acute paracentric middle-level maculopathy. Other ocular manifestations include eyelid edema and rash, optic neuritis, oculomotor paralysis, etc (23). However, the causal relationship between the appearance of ocular pathology and the COVID-19 vaccine has not been confirmed by large sample and multi center research data. This study intends to analyze the macular structure of age-related cataract (ARC) patients with different antibody levels after COVID-19 vaccine injection, so as to obtain the effect of COVID-19 vaccine on the macular structure, and speculate whether the COVID-19 vaccine has adverse effects on the macular structure. Methods Recruitment of patients, and inclusion and exclusion criteria This retrospective study is conducted in the Peking University International Hospital (PUIH), Beijing, China. The study is approved by the local ethical review board in accordance with the Declaration of Helsinki, and all patients provided the informed consent. In this study, ARC patients who were admitted to PUIH for ARC surgery, who were examined by optical coherence tomography (OCT) in the macula area and detected by COVID-19 antibody before surgery, were included. The vaccine is.