[Objective] To investigate the cardiopulmonary function in patients with congenital scoliosis (CS) , and further to discuss the effect of Cobb angle of the thoracic curve on cardiopulmonary function. [Methods] From October 2020 to October 2021, a total of 50 pa- tients who suffered from CS were included into this study. Based on the extent of scoliosis, 30 patients were fall into the severe groups with Cobb angle＜90°, while the remaining 20 patients were into the moderate group with Cobb angle of ≥40°~＜90°. The parameters related to cardiac structure, cardiac function and pulmonary function were measured and compared between the two groups. In addition, correlation analysis were conducted to search the relationships between the Cobb’s angle and parameters regarding the cardiac structure, cardiac func- tion and pulmonary function. [Results] Although the cardiac structure and function parameter in all patients of both groups remained in the normal ranges, the severe group proved significantly inferior to the moderate group in terms of atrial size, ventricular size and diastolic func- tion, including E/A and e’/a’ parameters (P＜0.05) . In addition, both groups got decreased pulmonary function in some extent, and the se- vere group was significantly inferior to the moderate group in terms of restrictive ventilation function, small airway function and ventilation function parameters (P＜0.05) . As results of correlation analysis, the Cobb angle in these CS patients proved significantly negatively related to the left atrial size, involving LA, LVD and LVS, as well as diastolic function, involving E/A and e’/a’. Moreover, the Cobb angle was also significnalty negatively correlated with restrictive ventilatory function parameters (P＜0.05) . [Conclusion] The Cobb angle does impact the cardiac structure and function, in which the diastolic function and diameter of LA and LV decreases with the increasing of Cobb angle. Fur- thermore, the Cobb angle also influence pulmonary function, the larger Cobb angle, the worse pulmonary function.