Validation of Hydraulic Mechanism during Blowout Trauma of Human Orbit Depending on the Method of Load Application

Abstract: The more we know about mechanisms of the human orbital blowout type of trauma, the better we will be able to prevent them in the future. As long as the buckling mechanism’s veracity is not in doubt, the hydraulic mechanism is not based on equally strong premises. To investigate the correctness of the hydraulic mechanism’s theory, two different methods of implementation of the hydraulic load to the finite element method (FEM) model of the orbit were performed. The intraorbital hydraulic pressure was introduced … Show more

“…23 On the other hand, the highest displacement was observed in the orbital floor on both sides of the infraorbital groove and the displacement was higher in the models with orbital tissues than in the bone models. 23…”

“…The highest stress value and displacement were observed in the medial orbital wall in the bone models. 23 On the other hand, the highest displacement was observed in the orbital floor on both sides of the infraorbital groove and the displacement was higher in the models with orbital tissues than in the bone models. 23 In the same study, the hydraulic pressure generated by intraorbital tissues was transferred to the orbital floor and medial orbital wall only.…”

“…23 Based on these results, the authors proposed a new concept of “strut mechanism,” rather than the “hydraulic mechanism” because the nature of the known hydraulic mechanism was far from the expected hydraulic pressure examined in their study. 23…”

“…As mentioned above, the finite element analysis had been used for evaluating the striking forces by each of the buckling and hydraulic mechanisms. 14,15,23 However, the majority of the studies used this method for the comparison of patterns of the stress and fractures produced by the buckling and hydraulic mechanisms. Nagasao et al 33,34 evaluated an interaction of the buckling and hydraulic mechanisms using finite element analysis.…”

“…22 They showed that the average fracture threshold was 26.5 N and the deconvoluted fracture energy was 2350 mJ. 22 Zmuda Trzebiatowski et al 23 compared the stress distribution and bone displacement between models of the bone and those with the bone and orbital tissue elements in the finite element analysis. The highest stress value and displacement were observed in the medial orbital wall in the bone models.…”

Mechanisms of Development of Orbital Fractures: A Review

“…23 On the other hand, the highest displacement was observed in the orbital floor on both sides of the infraorbital groove and the displacement was higher in the models with orbital tissues than in the bone models. 23…”

“…The highest stress value and displacement were observed in the medial orbital wall in the bone models. 23 On the other hand, the highest displacement was observed in the orbital floor on both sides of the infraorbital groove and the displacement was higher in the models with orbital tissues than in the bone models. 23 In the same study, the hydraulic pressure generated by intraorbital tissues was transferred to the orbital floor and medial orbital wall only.…”

“…23 Based on these results, the authors proposed a new concept of “strut mechanism,” rather than the “hydraulic mechanism” because the nature of the known hydraulic mechanism was far from the expected hydraulic pressure examined in their study. 23…”

“…As mentioned above, the finite element analysis had been used for evaluating the striking forces by each of the buckling and hydraulic mechanisms. 14,15,23 However, the majority of the studies used this method for the comparison of patterns of the stress and fractures produced by the buckling and hydraulic mechanisms. Nagasao et al 33,34 evaluated an interaction of the buckling and hydraulic mechanisms using finite element analysis.…”

“…22 They showed that the average fracture threshold was 26.5 N and the deconvoluted fracture energy was 2350 mJ. 22 Zmuda Trzebiatowski et al 23 compared the stress distribution and bone displacement between models of the bone and those with the bone and orbital tissue elements in the finite element analysis. The highest stress value and displacement were observed in the medial orbital wall in the bone models.…”

Mechanisms of Development of Orbital Fractures: A Review