Purpose: To assess if injured eyes develop ocular blood flow disturbances that may contribute to development of traumatic glaucoma. Materials and Methods: 25 patients hospitalized for eye injury and elevated IOP were evaluated 24 months after the trauma. All injured and fellow eyes underwent IOP measure, visual field (HFAII, Central 30/2SITA), pulsatile ocular blood flow analysis (POBF, OBF Labs UK), CDI examination (PSV, EDV, and RI) of Ophthalmic Artery, Central Retinal Artery, Short Posterior Ciliary Arteries. Results: IOP was significantly higher in injured eyes (15.1 vs 13.0±2.7mmHg) (P= 0,01), but only 2 eyes (8.8%) were under medical treatment POBF values were significantly lower in injured eyes: 11,25 μl/s in traumatised eyes and 15,40 μl/s in fellow eyes (P = 0.002). Resistivity Index (RI) of all investigated retrobulbar vessels was very significantly higher in injured eyes than in fellow eyes (P= 0.0001). There is no significant correlation between IOP and ocular blood flow disturbances. Th Purpose: To assess if injured eyes develop ocular blood flow disturbances that may contribute to the development of traumatic glaucoma. Materials and Methods: 25 patients hospitalized for eye injury and elevated IOP were evaluated 24 months after the trauma. All injured and fellow eyes underwent IOP measure , visual field (HFAII, Central 30 / 2SITA), pulsatile ocular blood flow analysis (POBF, OBF Labs UK), CDI examination (PSV, EDV, and RI) of Ophthalmic Artery, Central Retinal Artery, Short Posterior Ciliary Arteries. IOP was significantly higher in injured eyes (15.1 vs 13.0 ± 2.7 mmHg) (P = 0,01), but only 2 eyes (8.8%) were under medical treatment POBF values ​​were significantly lower in injured eyes: 11,25 μl / s in traumatised eyes and 15, 40 μl / s in fellow eyes (P = 0.002). Resistivity Index (RI) of all investigated retrobulbar vessels was very significantly higher injured muscles than fellow eyes (P = 0.0001). correlation between IOP and ocular blood flo w disturbances. Th