View clinical trials related to Femoral Fractures.
Filter by:The purpose of this study is to prospectively compare post-operative pain relief in pediatric patients undergoing traumatic femur fracture repair who have received either a femoral nerve block with a lateral femoral cutaneous nerve block or a standard anesthetic for analgesia.
The purpose of this study is to evaluate the performance of Dynamic Locking Screws (DLS) used to stabilize the shaft component of distal femur fractures in comparison to standard locking screws (SLS). The hypothesis is that DLS will lead to better functional outcomes (WOMAC score) due to increased and more symmetrical callus formation and fewer non-unions.
The purpose of this study is to monitor the performance of the DeltaMotion cup system in the treatment of patients with hip joint disease requiring a total hip replacement.Patients who enter the study will be evaluated at regular intervals following hip surgery using patient, clinical and x-ray assessments.
Comminuted metaphyseal fractures (OTA classification A2/3 and C2/3) of the distal femur and distal tibia are difficult to treat and typically have more complications than other metaphyseal fractures. Delayed union, nonunion and need for secondary bone graft procedures are frequent outcomes. These A2/3 and C2/3 fractures of the distal femur and distal tibia treated with locked plates often have a critical sized fracture gap (poorly organized cortical pieces many of which are stripped of soft tissue). Optimal management strategies that minimize both fracture healing time and complication rates remain controversial. Primary bone grafts or early secondary bone grafts have been recommended for these comminuted open fractures, but have not been studied as the primary end point in a randomized trial. There is a need to study primary bone grafting during open reduction and internal fixation (plating) of these difficult fractures, to determine if shorter healing time, and thus less need for reoperation, can be achieved. Hypothesis Acute autogenous bone grafting at the time of fixation will hasten clinical and radiographic union with a lower need for secondary procedures
There are two surgical approaches (incision types) used by surgeons who do total hip replacements. The purpose of this study is to determine which type of surgical approach (incision type) produces the best results for patients who have a total hip replacement. Null Hypothesis : There is no difference in complication rate, functional outcome, surgical time, or blood loss when comparing outcomes in patients receiving THA to hemiarthroplasty or ORIF for femoral neck fractures.
The current method of incision localization in many surgical procedures requires a doctor to reference a medical image, such as an X-ray, to judge where on the body an incision should be made. However, the precise information of the scan is not shown on the patient's skin. Surgeons commonly use palpation to locate the point of incision. They may feel for the area directly or find landmarks under the skin and estimate the location from there. The following factors further complicate palpation: overweight patients, foreign bodies that are difficult to feel for under the skin, fractures with little displacement, or locations under dense muscles. These difficulties are compounded for new surgeons, since palpation is a skill derived through experience. In many circumstances the surgeon only needs to know where to insert the tool or place the incision - they do not necessarily need to know the depth of the area of interest. If palpation proves ineffective, they may be forced to use fluoroscopy. By referencing the fluoroscopy image the surgeon moves a radiopaque marker, such as their surgical tool, closer to the area of interest. Fluoroscopy is time-consuming, and exposes medical personnel and the patient to radiation. Many fluoroscopic images may be required in a single procedure. By identifying the efficacy of this new medical device, "Target Tape", there is the potential outcome of making smaller incisions, faster localization, a reduction in fluoroscopy use and a reduced chance in surgical error and the associated costs. Target Tape is a non invasive device that is in a grid or ruler format that is placed against the subject's skin. The grid/ruler pattern will then appear on the medical imaging scan. Standard surgical skin ink is then used to place these markings in a defined pattern on the skin. This pattern mimics the Target Tape grid or ruler pattern. The medical practitioner can correlate these skin markings to the medical scan image to make their incisions in more accurate locations.
The purpose of this study is to examine the efficacy of the use of Marcaine in femoral nerve blocks and hematoma blocks for post operative pain relief for femoral shaft fractures in a pediatric population.
The investigators aimed to compare the costs and consequences of 'routine perioperative fluid therapy' and 'GDHT in terms of morbidity, mortality, length of hospital stay, activity of daily living, health related quality of life, cognitive functions and need of social services and up till 12 months following operations of proximal femoral fracture at elderly. The primary hypothesis is that 'GDHT is a better strategy than 'routine fluid therapy' in terms of reduced frequency of postoperative complications.
The purpose of this study is to monitor the performance of the DePuy PROXIMA™ hip in the treatment of patients with hip joint disease requiring a total hip replacement. Patients who enter the study will be evaluated at regular intervals following hip surgery using patient, clinical and x-ray assessments.
Numerous geometric and bone mineral density (BMD) parameters can be derived from quantitative computed tomography (QCT) images of the proximal femur analyzed using dedicated software. The primary objective is to evaluate the contribution of QCT-image analysis to the prediction of the osteoporotic hip fracture risk, as compared to the reference standard, namely, dual energy X-ray absorptiometry (DXA). Study hypothesis: For predicting osteoporotic hip fracture, findings from QCT images of the proximal femur analyzed using dedicated software are superior over DXA measurements of proximal femoral BMD.