In clinical Ophthalmology, it takes a lot of time to improve a patient’s vision when surgical treatment is required. Most patients usually worry about his/her prognosis, and enough clinical explanations are required. Currently, ophthalmologists estimate a patient’s prognosis with medi-cal reports; however, the decision-making is based on experience-based. From the viewpoint of informed consent, accurate prediction of a patient’s prognosis is essential. This paper aims to make a mathematical model that can accurately predict a patient’s visual outcome. We focus on Macular Hole (MH) and Optical Coherence Tomography (OCT) images obtained from MH pa-tients. MH is aretinal disease, and OCT is usually used to evaluate the progression of MH, be-cause there are significant differences in retinal morphology among healthy, pre and post-operation. Regression analysis is applied to discuss whether it works well or not. We col-lected OCT images from 54 patient and their clinical information as experimental materials. In this paper, 53 features were extracted from the pre-operative OCT images and 5 features from pa-tient records. After this, the methods for feature selection and prevention of multicollinearity were applied to the given data, and finally 5 features were employed as an explanatory variable. In re-gression analysis, Ordinary Least Squares (OLS) are employed. The constructed model showed Adjusted R2 of 0.545, MAE of 0.105, and RMSE of 0.130. Also, the percentage of errors within 0.1 was 79.6%. The obtained performance is not extremely low, but this model should be im-proved for practical use. Also, the given data was imbalanced, as a result the model did not work well in poor vision range. On the other hand, we obtained a new insight that the morphological and structural features of the retina were suggested would be effective for prediction.