Biomechanical study of anterior and posterior pelvic rings using pedicle screw fixation for Tile C1 pelvic fractures: Finite element analysis

To present a novel internal fixation device for stabilizing unstable pelvic fractures using supra-acetabular spinal pedicle screws and a subcutaneous connecting rod (INFIX). Level I trauma center. Case series. Twenty-four patients with rotational or vertically unstable pelvic fractures that reported to a level I trauma center. METHODS/INTERVENTION: Surgical treatment of unstable pelvic fractures included reduction, appropriate posterior fixation where indicated, and an anterior subcutaneous internal fixator. Healing time, quality and loss of reduction, ease of nursing, incidence of complications, including nonunion, infection, and patient mobility and comfort. In the present clinical series, all fractures healed without significant loss of reduction. There were no infections, delayed unions or nonunions. Nursing care was observed to be easier especially in the intensive care unit setting. Complications included unilateral anterior thigh paresthesias in 2 patients, and 1 patient each required repositioning of the pedicle screw and readjustment of screw rod junction. Patients tolerated the procedure well and were fairly mobile after the procedure. The reported technique allows for a definitive and stable anterior fixation of vertically and rotationally unstable pelvic fractures when combined with the appropriate posterior fixation if indicated. The potential complications are acceptable with this technique and good outcomes were achieved. A second operative procedure is required for removal of the device. It is our view that its best indication is in obese individuals, in whom other options have shortcomings.

Open pelvic fractures constitute one of the most devastating injuries in musculo-skeletal trauma and must be treated aggressively, incorporating a multidisciplinary approach. Early treatment, focusing on prevention of haemorrhage and sepsis, is essential. The management of associated soft tissue injuries must also be aggressive, including early administration of broad-spectrum antibiotics and repeated, meticulous wound debridement and irrigation. Selective faecal diversion, based on wound location, is compulsory and safe, minimising the risk of sepsis and reducing mortality rates.

Previous finite element studies of the pelvis, including subject-specific studies have made extensive simplifications with regards to the boundary conditions used during analysis. Fixed boundary conditions are generally utilised at the pubis and superior part of the ilium. While it can be demonstrated that these models provide a close match for certain in vitro experiments that use similar boundary conditions, the resulting stress-strain fields in the cortex in particular are unlikely to be those found in vivo. This study presents a finite element analysis in which the pelvis is supported by muscular and ligamentous boundary conditions, applied using spring elements distributed over realistic attachment sites. The analysis is compared to an analysis in which the pelvis is restrained by fixed boundary conditions applied at the sacro-iliac joints. Striking differences in the stress-strain fields observed in cortical bone in particular, are found between the two analyses. The inclusion of muscular and ligamentous boundary conditions is found to lower the occurrence of stress concentrations within the cortex.