Active clinical trials for "Wounds and Injuries"

The purpose of this study is to investigate the effectiveness of a programme based on inspiratory and expiratory muscle training to improve respiratory muscle strength, functional capacity and avoid pulmonary complications in adults with cervical or high dorsal spinal cord injury (C5-D5) in acute phase.

The goal of this clinical trial is to examine usability of a locally built adaptive rower for people with spinal cord injury using an established and tested design. The main questions it aims to answer are: What exercise intensity of activity do users achieve on the rower for steady state and interval rowing plans? What assistance is required for setup and usage of the adaptive rower? What do users think about the ease of use and what is their satisfaction with the adaptive rower? Participants will complete a one-time exercise session with two adaptive rower bouts (10-15 minutes each) with a rest period in between.

The purpose of this study is to compare porcine collagen membrane and bovine collagen wound dressing in human tooth extraction sites. The outcomes measured will be soft tissue thickness changes as well as bone density changes.

This pilot study will compare a yoga program to a non-yoga exercise program in adults with brain injuries. The investigators will measure possible improvements in balance and heartrate. The investigators also plan to measure changes in brain function and link balance and/or heartrate improvements to changes in brain function. Ideally, this work will create a foundation for a larger-scale study.

Severe acquired brain injury (sABI) is a group of disorders that cause long-term disability. Rehabilitation is essential to counteract bed immobilization, muscle failure, pain, and sensory deficits that can affect the clinical and rehabilitation pathway of these patients. Focal muscle vibration (FMV) is a tool that uses low-amplitude, high-frequency vibrations that when applied to muscle-tendon units. This technique, administered at specific frequencies, amplitudes and durations, can generate action potentials of the same frequency as the stimulus applied to the muscle or tendon. This makes it possible to activate selected afferent fibers and stimulate targeted brain areas with persistent effects over time (long-term potentiation). Regarding the effect of counteracting vibration spasticity, FMV is able to inhibit the reflex arc and induce reciprocal inhibition of functional agonist muscle. In addition, the strong proprioceptive stimulus generated by vibration is able to reach the primary motor and somatosensory cortex, enhancing cortical mechanisms that regulate co-contraction between agonist and antagonist muscles, thereby reducing muscle tone and joint stiffness. In many studies, this technique has been shown to be effective in reducing pain and joint stiffness by improving muscle contraction and motor control.

Carpal Tunnel Syndrome is a prevalent condition, up to 9% in women and 0.6% in men. Surgical decompression in the most effective treatment. After surgery, approximately 1,8% of the patients develop a wound infection. Possibly, the type of sutures used can influence the prevalence of wound infection. In this RCT the incidence of infection is investigated between the use of absorbable versus non-absorbable sutures in carpal tunnel release.

An Exploratory Interventional study to assess the effects of cranioplasty on brain network connectivity, neuropsychological and motor functioning in patients with severe acquired brain injury with pre-, post-cranioplasty and 6 months follow-up assessments.

The purpose of this study is to evaluate the safety and efficacy of autologous bone marrow-derived mononuclear cell transplantation in the management of neurological sequelae after traumatic brain injury

The main purpose of this study is to find out if scanning the foot using a 3D scanner influences the effectiveness of custom made insoles, compared to the more traditional approach of taking a foam-box impression cast of the foot. Both of these methods are currently used as standard care in the NHS Greater Glasgow and Clyde (GGC) Orthotic Department. In this study, insoles will be manufactured either from a direct 3D scan of the foot, or from a foam-box impression cast, and a series of questionnaires will be used to measure any changes in foot pain and foot function. The results from this study will be used to develop an information resource for both patients and Orthotists which will fill gaps in our current knowledge and hopefully guide us further in providing the best possible care for future patients who require insoles.

Annually over 7000 Australians are treated for severe trauma. Haemorrhage secondary to severe trauma is a major cause of potentially preventable death and poor outcomes in Australian adults. Severe trauma may trigger changes in blood clotting mechanisms and factor levels leading to inhibition of clot formation and reduced clot strength. This results in the inability of the severely injured trauma patient to form adequate clots to help stop bleeding. There is good evidence to suggest the loss of clotting factors during haemorrhage is associated with worse outcomes and it is thought the early replacement of these factors may reduce bleeding and improve patient outcomes. Fibrinogen is a key clotting factor that helps bind clots together and early fibrinogen replacement may improve outcomes. Currently fibrinogen is replaced using cryoprecipitate, a blood product made from blood donated by healthy donors which is a precious resource. It can take a significant amount of time to administer as it is frozen and stored in the blood bank. Timely administration of cryoprecipitate is difficult as it requires thawing prior to transfusion. The large doses of cryoprecipitate used in traumatic haemorrhage can put strain on local blood banks in supplying requested units in a timely manner. Additionally, the widely dispersed population of Australia introduces logistic challenges to the maintenance of adequate cryoprecipitate stocks to individual hospital blood banks, especially in remote regions. However, cryoprecipitate contains a number of other coagulation factors (not just fibrinogen) that may be instrumental in clot formation and resistance to fibrinolysis. Fibrinogen concentrate is an alternative product used to assist in blood clotting. It is a dry powder form of fibrinogen and can be reconstituted at the bedside and given quickly. The use of a fibrinogen factor concentrate with a long shelf life that is easy to use has significant implications for both large urban metropolitan areas and remote isolated communities. The timing and mode of fibrinogen replacement in traumatic haemorrhage has implications for patient outcomes, blood product availability, costs and the national blood supply. Despite the importance of fibrinogen replacement in traumatic haemorrhage, there have been no clinical trials powered for clinical outcomes directly comparing fibrinogen concentrate and cryoprecipitate. FEISTY II will evaluate the efficacy, safety and cost-effectiveness of Fibrinogen Concentrate vs Cryoprecipitate in trauma patients with major haemorrhage. FEISTY II is a phase III randomised trial which will enrol 850 patients from Australian and New Zealand major trauma centres, with a primary patient outcome of days alive out of hospital at day 90 after injury. Severely injured trauma patients who require blood transfusion and have evidence of low fibrinogen levels will be randomised to receive either fibrinogen concentrate or standard care with cryoprecipitate