View clinical trials related to Tibial Fractures.
Filter by:Although the majority of tibial fractures heal normally, some fractures may not heal within the usual time frame and is known as delayed bone healing within 4 to 6 months and absence of bone healing within 9 to 12 months in the most severe case of. Several factors can increase the risks of delayed healing complications like, for example, smoking, violent shocks (for example, due to a road accident) or even the type of fracture (an open fracture). The location of the fracture is also an important factor: among the bones of the arms and legs, the tibia is known for being the most at risk for complications. At tibial fracture with several risk factors could lead to delayed complications and interfere with patient daily life and reduce the quality of life. The study drug, ALLOB®, is constituted of bone cells produced from the bone marrow of healthy adult donors. Preclinical studies have shown that ALLOB® cells are capable of forming bone and repairing fractures. When directly injected into a fracture, ALLOB® should therefore promote the healing of the fracture by re-establishing a healthy environment and stimulating bone production. To date, there is no treatment for fractures considered at risk of delayed complications. The current practice on diagnosis of complications is to wait at least 6-12 months before considering alternative interventions to promote fracture healing. The injection of ALLOB® quickly after the fracture should stimulate bone healing, reduce healing time, reduce complications, and improve the quality of life for the patient. ALLOB® has already shown preliminary evidence of effectiveness in the treatment of delayed bone healing fractures (ALLOB-DU1 clinical trial), including tibial fractures (8 patients). With this study, the Sponsor will evaluate whether ALLOB® promotes the healing of tibial fractures compared with placebo.
Prospective registry and retrospective data collection study to assess the efficacy and safety of Vivigen Cellular Bone Matrix (Vivigen) in orthopaedic trauma patients who require bone grafting in the acute, delayed, non-union fracture as well as use in fusion procedure settings.
Prospective data will be collected in approximately 3500 patients (700 per 5 injury groups). Patients will be followed up according to the standard (routine) for up to 1 year after the treatment. Data collection will include underlying disease, treatment details, patient reported outcomes (PROs), anticipated or procedure-related adverse events (i.e. complications), and radiological outcomes.
A toddler's fracture is a fracture that occurs in the lower leg, oven the shin, of children 9 months to four years of age. It usually happens when a young child twists the leg while running or jumping. It is one of the most common injuries of the leg in this age group. In Canada and the United States there are about 80,000 cases per year that present to emergency departments. The good news is that these fractures are stable injuries and heal exceptionally well, without any reported concerns for problems in the future. Despite this, most children with this fracture are managed in a restrictive full circular cast, often including the entire leg, for three to six weeks. This cast management then also includes about two to three repeat visits to see a bone doctor, where the cast is often changed and new x-rays are taken with each visit. However, none of these things has ever been shown to change the way these young children's fractures heal. Further, casting can cause harm such as skin irritation or poor cast fit which may result in problems that are more distressing than the fracture itself. There are also costs to consider. The needless excess costs of the current management strategy in Canada alone can be estimated to be about 1.8 million dollars annually. And so, increasingly, some doctors are choosing to manage these stable fractures with a supportive device on the lower leg, a removable walking boot. This type of device can be taken off as needed by the parent and child and used only as long as the child needs it to manage the pain that results from this stable fracture. This makes caring for the child much easier and allows the child to return to activities when the child is ready. Further, families do not necessarily need to return to a bone doctor for cast changes or x-rays or reassessment. Since this fracture recovers so well, patients can see their family doctor to make sure their child is returning to activity as expected and have their questions about recovery answered. But, in order to be sure that the removable walking boot works as well as a cast in these fractures, we need to do a well-designed study to make sure we consider all the important aspects of making this change. As a result, in children with toddler's fractures, we will compare the traditional treatment of cast placement to a removable walking boot with respect to how each immobilization strategy controls pain and how quickly children return to their usual activities. We hope that children treated with a removable walking boot will still be able to achieve good pain control while their injury is healing. It is possible too those children will even return to their activities sooner and this newer strategy could save the health care system money.
This study will examine if there is a difference between the time to full union between the control group and the study group. Each group will be composed of patients who have an open fracture in the mid tibia. Both groups will undergo primary fixation via reamed intramedulary nailing (IMN), a common treatment for tibia shaft fractures in adults. The study group will have a bone graft applied to the open cortex of the fracture. The bone graft will be composed of the intramedullary reamings, which are a byproduct produced when the intramedullary canal is reamed in preparation for insertion of the IMN.
This study evaluates the effect of Vitamin D3 supplementation in healing rate of tibia fractures in adult patients with low vitamin D. Half of participants will receive Vitamin D3 supplementation while the other will receive placebo.
The aim of this study is to compare knee function and pain one year after treatment of intra-articular proximal tibia fracture using either osteosynthesis with a locking plate (ORIF) or primary total knee replacement (TKR) in patients over 65 years of age.
There is a elevated risk of acute compartment syndrome (ACS) related to tibial shaft fractures due to oedema and reduced blood flow in traumatised tissues. This may lead to lack of oxygen and even necrosis. Symptoms of ACS are severe pain, hypoaesthesia, pain during flexion of the ankle and swollen leg in clinical examination. Paralysis and lack of distal pulses are late symptoms of ACS. Many experts think that effective relief of pain caused by regional anaesthesia (RA) may hide the symptoms of the ACS. This may be incorrect. The evidence of dangers related to RA is based on old patient-series and single case-reports. Some of these studies report the symptoms of ACS (hypaesthesia and even pain) being caused by RA. Majority of the conclusions in these studies cannot be confirmed by an expert of RA. It is also possible that there are more hemodynamic changes related to general anaesthesia (GA) which may predispose to ACS. There are no modern, randomized and controlled studies of the safety of RA in patients with tibial shaft fracture.
The investigators are comparing two methods of standard treatments in distal tibial fractures. locked plating (M.I.P.O. technique) with intramedullary nailing. the investigators are hypothesizing that M.I.P.O group is superior to nailing in fractures of the distal third of the tibia.
Fractures of the tibial shaft (diaphysis) are some of the most common long bone fractures. They most frequently occur in males less than 40 years of age. Despite advancements in the surgical management of these fractures, the precarious blood supply and lack of soft-tissue cover of the shaft of the tibia make these fractures vulnerable to non-union and infection. These complications often require multiple procedures, extended time off of work, and can result in ongoing poor mobility. This is reflected in the surgical revision rate that the scientific literature has recorded as being between 20 and 30%. Pulsed electromagnetic field (PEMF) stimulation has been shown to be a safe and effective treatment for non-unions of the tibia. These are fractures in which the bone has failed to unite and the healing process has ceased. The PEMF is delivered via a device such as the EBI Bone Healing System®, which straps onto the limb overlying the fracture. It is lightweight and portable using a rechargeable battery for power. It is compatible with internal and external fixation and may also be worn over a plaster or fibreglass cast. It is usually kept in place for ten hours per day and used for a period of three months or until the fracture unites. In animal models, PEMF stimulation has been demonstrated to improve the time to fracture healing in acute fractures. There have been no demonstrated side effects of the therapy. The study hypothesis is that PEMF stimulation during the first twelve weeks after fracture, in addition to normal surgical care, will increase the union rate for these fractures and thereby significantly reduce the surgical revision rate within the first twelve months following fracture.