Osteosyntheses employed in treating fractures at the upper end of the femur play a critical role in facilitating a swift recovery by minimizing immobilization periods and enabling early rehabilitation of the affected joints, thereby promoting a speedy return to normal walking function. Osteosynthesis alters the mechanical dynamics of the bone segment, which undergoes continual changes during the consolidation and mobilization phases of recovery. Throughout these stages, a range of mechanical complications may arise, posing challenges despite the successful prevention of infections. Non-infectious complications associated with the presence of osteosynthesis materials, especially in weight-bearing areas like the lower limb, remain a concern. In light of these considerations, surgeons must exercise meticulous care in selecting synthetic materials to mitigate the risk of osteosynthesis failures. In cases where internal fixation fails, the standard recourse often involves converting to total hip arthroplasty (THA). However, it is essential to note that THA subsequent to complications arising from proximal femur osteosynthesis presents a higher incidence of both intraoperative and postoperative complications compared to the implantation of primary total hip prostheses. Thus, while osteosynthesis remains a valuable intervention for femur fractures, careful attention to material selection and postoperative management is crucial in optimizing patient outcomes and minimizing complications.
See this in plain English?
AI-rewrites the medical criteria so a patient or caregiver can understand them. Always confirm with the trial site.
Surgical Approach
Timeframe: from enrollment to the of treatment 6 years
Preparation of the Patient
Timeframe: from enrollment to the of treatment 6 years
Anesthesia
Timeframe: from enrollment to the of treatment 6 years
Type of Surgical Revision
Timeframe: from enrollment to the of treatment 6 years
Types of Prosthesis
Timeframe: from enrollment to the of treatment 6 years