View clinical trials related to Fractures, Bone.
Filter by:Fracture immobilization with Buddy taping is not inferior to Splint immobilization for non-displaced extra-articular paediatric finger fractures. However, whether the same applies for reduced finger fractures is unclear.
Background : Type 1 diabetes is associated with an increased risk of fractures. The mechanisms accounting for this bone fragility are not yet fully understood. The lower bone mineral density (BMD) observed in individuals with type 1 diabetes cannot solely explain the higher fracture incidence. Bone microarchitecture defects significantly contribute to bone fragility. Few studies assessed spine fractures in type 1 diabetes. This cross-sectional multicenter case-control study aims (1) to evaluate the prevalence of asymptomatic vertebral fractures in individuals with type 1 diabetes in comparison to age- and sex-matched healthy controls; (2) to compare individuals with diabetes with vertebral fractures and those without vertebral fracture using clinical, biochemical and radiological parameters.
Currently, there are approximately 300,000 hip fractures per year in the US with a mortality rate of 20% within 1 year. In Hong Kong, around 6,000 hip fractures occur yearly with costs approximately 52 million USD, and these numbers are projected to double by 2050. The treatment of osteoporotic fractures is a major challenge as bone healing is delayed due to the impaired healing properties with respect to bone formation, angiogenesis and mineralization. Failure to unite results in pain, weakness, reduced mobility and fixation failure, and these complications are most common in elderly patients. Enhancement of osteoporotic fracture healing even after surgical fixation is therefore critical as a major goal in modern fracture management. Low-magnitude high-frequency vibration (LMHFV) is a biophysical intervention that provides non-invasive, systemic mechanical stimulation and we are the first group to study its effect on fracture healing. Our previous animal studies have shown LMHFV to enhance healing from the early inflammation stage to the late phases of remodeling in osteoporotic diaphyseal fracture healing. Using our newly developed clinically relevant metaphyseal fracture model, we further proved the efficacy of LMHFV. Our results show LMHFV significantly enhanced fracture healing in both osteoporotic and normal rats radiologically by X-ray and micro-CT, histologically and biomechanically. Justified with our preclinical studies, we hypothesize LMHFV can accelerate the time to fracture healing and enhance functional recovery. In this study, we propose to study the efficacy of LMHFV in trochanteric hip fracture healing by conducting a randomized double-blinded placebo-controlled clinical trial. Elderly patients aged 65 years or older of either gender, after surgical fixation, will be treated with LMHFV at 35Hz, 0.3g, 20 minutes/day, 5 days/week for 6 months. Results will be evaluated by clinical assessments, radiologically with X-rays, Computed Tomography (CT) and dynamic perfusion Magnetic Resonance Imaging (MRI) for blood circulation evaluation, Dual-energy X-ray absorptiometry (DXA), functional outcomes, and mortality. Positive findings from the study would have huge impact and change clinical practice.
Aim: - Determine if external fixation decreases soft tissue complications compared to splinting. - Determine if external fixation decreases time to definitive surgical stabilization and improves final fixation compared to splinting. - Determine if external fixation improves functional outcomes as evaluated by validated functional scoring systems. Hypothesis: - External fixation improves definitive fixation and functional outcomes of acute calcaneal fractures with decreased complication rates compared to splinting
- Evaluate the role of VAC in decreasing the time needed for soft tissue coverage and definitive fixation in open IIIB tibial fractures
The aim of this prospective randomised study was to shed more light on the issue by comparing the capacity of long plaster casts (above-elbow, LC) and short plaster casts (below-elbow, SC) to maintain the reduction of extra-articular distal radius fractures with dorsal displacement (2R3A2.2, according to the AO/OTA classification). The initial hypothesis was that the short cast would be equally as effective as the long cast in treating this type of fracture. The secondary objective of the study was to determine whether or not there is a direct correlation between radiological parameters and functional outcomes in such patients.
The purpose of this study is to establish the feasibility of initiating a ketamine pain control protocol in the emergency department for the treatment of acute pain in patients with long bone fractures and to compare the efficacy of the ketamine pain protocol to bolus morphine for pain control in the first 6 hours of patient stay in the emergency department.
This clinical study is being conducted to demonstrate the safety and effectiveness of the Bone Healing Accelerant (BHA) product when applied to tibia (leg bone) fractures with an external wound or skin break (also called open tibia fractures). It is hypothesized that by 6 months, the number of subjects with successful bone healing will be greater in the BHA-treated group compared to subjects treated with standard of care alone. Open tibia fractures were chosen for this study because healing rates are typically longer than for other bone fractures due to the limited vascular supply, limited soft tissue coverage, and higher risk of infection.
Fractures of the shoulder, the so-called proximal humeral fractures, can be treated with locking plates that have shown good results in clinical practice, but complications can occur. In order to further improve the treatment of proximal humerus fractures and decrease the rate of fixation failures, further research is necessary. As a first step, the reasons for potential implant failures need to be understood. This study has been initiated by scientists at the AO Research Institute Davos (ARI), Switzerland, which is the research center of the AO Foundation (www.aofoundation.org), an international non-profit organization led by surgeons specialized in fractures such as these. Researchers at the ARI have been developing a computational simulation tool to predict fixation failure and demonstrated its efficiency in laboratory conditions. This clinical study has been organised to validate this tool using patient data, by comparing the risk of mechanical failure predicted by the computer simulated model with the clinically observed fixation failure. In future, this computer simulation tool is expected to help surgeons to select the best fixation for a given patient and to develop improved implants.
The steady increase in the incidence of geriatric hip fracture places an increasing burden on health care service in Hong Kong. Post fracture limitations are prominent and restrain many of the elderly from returning to community, rehabilitation is therefore important for reducing their long-term disability. By integrating the results from pilot application of video guided training and tele-physiotherapy program in different phases of rehabilitation, a Mobile Application (app) is developed aiming to improve hip fracture patients' and their carers' experience throughout the healthcare journey and empower them to manage their own health. A steering group comprised of physiotherapists, informatics and university research expert is formed to co-design the app, compose education content and formulate the promulgation and evaluation strategies. Meetings are also held with all involved clinicians to refine the app before implementation. This app provides features for hip fracture rehabilitation including "Understanding Hip Fracture", "Hip Fracture Care", "Training" and "Companion". Patients and their carers can obtain hip fracture care related information through the app anywhere, anytime, instead of coming to the clinics in person or reading the information on pamphlets. Physiotherapists can use the app to set training program for discharged patients with "Push Reminder" function and training record can be saved in "Progress Summary", which facilitates them and carers to get a grip on the patients' rehabilitation progress. Clinical study is therefore planned to be conducted to evaluate the effectiveness of the app from different perspectives, including the users' acceptance and satisfaction, patients' program compliance and functional recovery.