View clinical trials related to Acetabular Fracture.
Filter by:Background: Acetabular fractures result from violent trauma, and their incidence has been increasing in recent years. The Kocher-Langenbeck surgical approach is used for the internal fixation of displaced fractures of the posterior structures of the acetabulum. The quality of the reduction and the stability of osteosynthesis directly influence the function of the repaired acetabulum. In the surgical management of acetabulum fractures, 3D printing of a bone model is increasingly used during preoperative planning by trauma surgeons worldwide. Questions: Is there a difference in the surgical time of the Kocher-langenbeck reduction and fixation of the posterior structures of the acetabulum between 3D printing (which allows for shaping of the reconstruction plate prior to surgery) and the conventional technique? Are there any differences in complications between the two techniques? Are there any short-term differences in the functional and radiographic scores between 3D printing and the conventional technique? Methods: 109 consecutive patients who sustained fractures of the acetabulum were screened for inclusion. 43 patient were studied. The first group (G1) consisted of 20 patients who underwent prior molding of the osteosynthesis plate on a 3D-printed model. The second group (G2 or control group) included 23 patients who underwent surgery using the conventional technique. We compared surgical time, intraoperative blood loss, the difference between pre- and postoperative hemoglobin, and the onset of early infection, paralysis of the sciatic nerve, and deep vein thrombosis.
Acetal fractures are joint fractures that occur in the hip. These fractures affect the functional prognosis of the hip in the short, medium and long term. In the acetabulum fractures operated on, there is a radiological score in the literature allowing the prognosis to be predicted depending on the quality of the postoperative reduction. This score is based on the quality of postoperative reduction assessed on pelvic radios. In addition, the thresholds for poor / good results were determined empirically.
The purpose of this study is to understand the trajectory of function and self-reported outcomes of patients following pelvic and acetabular, treated both operatively and nonoperatively.
Acetabular fractures are articular fractures involving the hip joint that needs anatomical reduction and a strict long follow up after fixation.
This study aim to describe the presence, type and size of Corona mortis (CMOR) in patients undergoing total extraperitoneal (TEP) inguinal hernia repair procedures. This study also aim to describe the preperitoneal vascular anatomy of inguinal area and provide in vivo knowledge about CMOR.
It is widely accepted in the literature that quality of acetabular fracture reduction is one of the most important factor for the outcome. To obtain best results, anatomical reduction has to be obtained. Intra-operative radiographic assessment depends mainly on plain x-ray. Plain x-ray alone is not enough for post-operative assessment as it depends mainly on reduction of the dome with concentricity of the hip.
Pelvic fractures are severe injuries which require advanced orthopedic surgical skills to treat. On the other hand, abdominal injuries are severe injuries, which might require quick general surgical treatment. The combination of both injuries is a challenge for orthopedic surgeons, as the abdominal injury might lead to a delayed surgical treatment of the pelvic fracture. Whether an associated abdominal injury influences the quality of care of pelvic fractures, is aim of this registry study.
This retrospective study investigates surgical treatment of acetabular fractures in elderly patients (>60 years of age), either undergoing joint-preserving surgery or joint- replacement. 1 year- outcome with regard to mobility and autonomy is assessed.
Management of acetabular (hip) fractures in the geriatric population can be very challenging because of pre-existing medical comorbidities, pre-existing osteoporosis and increased risk of mortality. The two most common treatment options for acetabular fractures are either surgical fixation using plates and screws to hold the fractured pieces in the correct position until the fracture has healed or surgical fixation in addition to a total hip replacement. Surgical fixation requires prolonged immobilization of the affected limb (typically around 6-12 weeks post-operatively), which can lead to disability and other complications. Such patients, especially those who are frail and cognitively impaired, are unable to adhere to the immobilization restrictions, leading to an increased risk of fixation failure. Patients who underwent open reduction internal fixation (ORIF) of an acetabular fracture were reported to have about 25 times greater incidence of hip replacement compared with general population matched controls. Additionally, performing a subsequent hip replacement after a previous surgical fixation (ORIF) of an acetabular fracture, especially in the elderly population, can present a number of technical difficulties including; difficult dissection due to previous incision(s) and scarring, dealing with retained hardware, bony deficiency and the possibility of infected hardware. The aim of the study is to perform a large cohort study to assess pain and physical function in patients 60 years and older who have sustained an acetabular fracture.
Assessement,evaluation of postoperativ reduction of posterior wall acetabular fractures in Assiut University Hospital