View clinical trials related to Tibial Fractures.
Filter by:In many cases, the existing locking bolts and screws in intramedullary nails do not provide sufficient stability. The play between screw and nail can result in loss of reduction and the instability due to the interfragmentary movement can result in malunions or nonunions. Therefore, an Angular Stable Locking System for Intramedullary Nails (ASLS) was developed to enhance axial and angular fracture stability. ASLS provides angular-stable fixation between nails and screws with resorbable sleeves used as dowels in the nail locking holes. Preliminary results of a pre-study show a trend towards reduced time to pain-free full weight bearing in patients being treated with ASLS. This hypothesis will be tested in the present randomized controlled study.
The purpose of this study is to determine the effect of reamed intramedullary nails in tibial shaft fractures (as a standard treatment), in raising intracompartmental pressures and therefore determine if they are a risk factor for compartmental syndrome.
In many cases, the existing locking bolts and screws in intramedullary nails do not provide sufficient stability. Due to the play between screw and nail, the reduction can be lost and the instability can result in malunions, nonunions, or pseudoarthrosis. Consequently, secondary angular fracture dislocation (defined as a difference of the angle of 10° or more from the post-operative to the follow-up x-rays) can be observed in approximately 30% of patients after conventional intramedullary nailing of proximal third tibial fractures and in approximately 0-2% in patients with distal third tibial fractures. Therefore, an Angular Stable Locking System for Intramedullary Nails (ASLS) was developed to reduce the risk of secondary loss of reduction by providing axial and angular stability. ASLS provides angular stable fixation between nails and screws with resorbable sleeves used as dowels in the nail locking holes. The present study evaluates the handling of ASLS and the surgeon's compliance as well as any complications occurring during the baseline and the follow-up period in patients with proximal and distal tibial, femoral and humeral fractures treated with intramedullary nails. Furthermore, the relationship of any occurred complications to ASLS will be assessed.
The purpose of this study is to find out the good and bad effects of an investigational drug called CP-533,536 in patients with closed fracture of the tibial shaft undergoing internal fixation using reamed inter-locked IM nailing procedure
The treatment of open tibial shaft fracture is often complicated by delayed union or non-union. The objective of this study is to evaluate the efficacy of autologous concentrated bone-marrow to accelerate healing of open tibial shaft fractures and to reduce the need for secondary intervention. In a prospective, randomized, controlled, single-blind study, 186 patients with an open tibial will be randomized to receive either the standard of care (fixation by nail or external fixator and routine soft-tissue management), or the standard of care with percutaneous injection, one month after fracture, of autologous concentrated bone-marrow. Randomization will be stratified by severity of the open wound. The primary outcome measure will be the proportion of patients requiring secondary intervention because of delayed union or nonunion within twelve months post-fracture.
This study looks at two types of surgical treatments and hopes to answer the question: which is the best way to surgically treat a proximal tibia fracture? Both procedures being studied are standard of care (used routinely) and use FDA approved devices. All medical and surgical treatment will be the same for participants as non-participants.
Study hypothesis :Hyperbaric Oxygen may prevent complications and improve outcomes in severe lower limb trauma. We propose to investigate this hypothesis by conducting an International multi centre randomised control trial of standard trauma/orthopaedic care with or without a concurrent course of hyperbaric oxygen treatments.
This trial is conducted in Africa, Europe and Middle East. This trial investigates the efficacy and safety of three dose levels of Norditropin® (growth hormone) as compared to placebo in the treatment of tibia fractures. The trial will be conducted in two parts: in the first part, the patients will be evaluated with regard to efficacy (fracture healing) and safety at short time intervals until week 24 post-surgery. In the second part, long-term safety and fracture healing up to 12 months post-surgery will be evaluated.
Mesenchymal stem cells are found in bone marrow, and have the ability to differentiate into different tissue types. The primary objective of the study is to examine the safety of using such cells to treat patients suffering from distal tibial shaft fractures. The cells will be isolated from the patient's bone marrow, loaded onto a carrier and implanted locally at the fracture site.
Demonstrate a larger proportion of subjects with healed fractures among subjects treated with InductOs and reamed, locked intramedullary nailing compared to subjects treated with reamed, locked intramedullary nailing alone.