Objective:To establish a new bile duct injury and repair model in mice by generating bile duct distal stricture and proximal dilatation.Methods:The mice were randomly divided into sham operation group, bile duct stricture (BDS) group and bile duct ligation (BDL) group. The dilated bile duct of BDS mice was injured and then repaired 14 days after the modeling operation. Biochemical markers were detected and histopathological changes were analyzed.Results:14 days after the establishment of the model, the body mass in BDL group was significantly lower than that of the sham group ( P<0.05), while the body mass in BDS group was similar to sham group. Compared with the sham group, the bile duct and gallbladder of the BDS group and BDL group were both prominently dilated, but the sum of the diameters of bile duct and gallbladder in BDS group was significantly smaller than that in the BDL group ( P<0.05). Indocyanine green fluorescence imaging confirmed that biliary tract of BDS group could still drain bile. Serum ALT, AST and TBil levels in the BDS group were slightly higher than those in the sham group (all P<0.05), but significantly lower than those in the BDL group ( P<0.05). Bile ducts of BDS mice were injured by notching and repaired with bile duct path. 30 days after the repairing, HE staining showed that the bile duct epithelium around the patch was arranged in orderliness. Immunohistochemistry confirmed the positive staining of green fluorescent protein (EGFP) and CK19 in those groups. Conclusion:This model of bile duct injury and repair in mice can provide a new model for the study of the mechanism of bile duct injury and repair and the evaluation of tissue engineering bile duct.