Active clinical trials for "Leg Injuries"

This study evaluates scar tissue, normal range of motion of lowr extremity joints, lower extremity functions, functional capacity, functional mobility, kinesiophobia and quality of life in lower limb burn injury.

The main objective of this trial is to investigate the effects of a training protocol for the foot and ankle complex on the prevalence of running related injuries on long distance runners.

The increased metabolic and biomechanical demands of ambulation limit community mobility in persons with lower limb disability due to neurological damage. There is a critical need for improving the locomotion capabilities of individuals with stroke to increase their community mobility, independence, and health. Robotic exoskeletons have the potential to assist these individuals by increasing community mobility to improve quality of life. While these devices have incredible potential, current technology does not support dynamic movements common with locomotion such as transitioning between different gaits and supporting a wide variety of walking speeds. One significant challenge in achieving community ambulation with exoskeletons is providing an adaptive control system to accomplish a wide variety of locomotor tasks. Many exoskeletons today are developed without a detailed understanding of the effect of the device on the human musculoskeletal system. This research is interested in studying the question of how the control system affects stroke biomechanics including kinematic, kinetics and muscle activation patterns. By optimizing exoskeleton controllers based on human biomechanics and adapting control based on task, the biggest benefit to patient populations will be achieved to help advance the state-of-the-art with assistive hip exoskeletons.

Patients who have undergone lower limb or knee surgery are often required to participate in rehabilitative exercises to regain or maximise movement and function in the affected leg. Physiotherapy interventions for rehabilitation can be painful, uncomfortable, and tedious, reducing compliance and limiting the movement and function achieved by the patient. Clinical studies have reported improvements in pain, compliance and outcomes by incorporating Virtual Reality (VR) into care. Evidence suggests that more Immersive VR (IVR) is effective in rehabilitation, while being cost-effective, with few adverse side-effects. Previous research by this team with adult burn patients and paediatric upper limb rehabilitation patients indicate that IVR could help reduce pain, increase compliance and improve care experiences and outcomes. The objective of the study is to investigate the feasibility and perceived impact of the Immersive Virtual Reality (IVR) intervention as a tool in physiotherapy rehabilitation for children (aged 11-16) after lower limb or knee surgery.

The increased metabolic and biomechanical demands of ambulation limit community mobility in persons with lower limb disability due to neurological damage. There is a critical need for improving the locomotion capabilities of individuals who have walking impairments due to disease to increase their community mobility, independence, and health. Robotic exoskeletons have the potential to assist these individuals by increasing community mobility to improve quality of life. While these devices have incredible potential, current technology does not support dynamic movements common with locomotion such as transitioning between different gaits and supporting a wide variety of walking speeds. One significant challenge in achieving community ambulation with exoskeletons is providing an adaptive control system to accomplish a wide variety of locomotor tasks. Many exoskeletons today are developed without a detailed understanding of the effect of the device on the human musculoskeletal system. This research is interested in studying the question of how the control system affects human biomechanics including kinematic, kinetics and muscle activation patterns. By optimizing exoskeleton controllers based on human biomechanics and adapting control based on task, the biggest benefit to patient populations will be achieved to help advance the state-of-the-art with assistive hip exoskeletons.

There has been a wide variety of use of anaesthetic agents along with adjuncts during subarachnoid block. The quest for attaining adequate analgesia and anaesthesia has always been shadowed by the concurrent deleterious effect of the anaesthetic agent. Ropivacaine as an anesthetic agent has proven to meet the desired goals of anaesthesia while minimizing the potential side effects. The addition of different adjuncts has shown to enhance the analgesic property, prolong the duration of sensory blockade and decrease the dose related adverse effects of the local anaesthetics. Fentanyl in this regards has also shown some promising effects. Thus we compare the use of ropivcaine as a single agent versus ropivacaine along with an adjunct (Fentanyl) to attain the desired anesthetic effect while minimizing the associated side effects.

Primary objective: Demonstrate that in patients with acute leg wounds with skin defect, VistaCare® accelerates the formation of a quality granulation tissue and reduces preparation time to a cover gesture. Secondary objectives: Evaluate the success of hedging gesture Assess the quality of the bud by colorimetry Assess tolerance Collect medical and economic data on the care of patients included Evaluate the quality of life of patients Assess patient comfort Evaluate the ease of use for the caregiver

This study will look into the incidence of Transient neurological symptoms (TNS) after the intrathecal use of lidocaine in comparison to intrathecal Bupivacaine.

Male and female physical education students were subjected to a clinical test battery comprised of valid and reliable tests to measure different aspects of core stability at the start of the study. After a period of 2 months testing, the injury registration procedure started with the use of an online injury registration platform and regular call back moments. After 2 years of injury registration, all data was gathered and will be analysed statistically to link the measured core stability aspects as risk factors for certain lower extremity injuries.

The goal of the RAPID study is to fundamentally transform the way serious injuries are managed after earthquakes and other disasters by introducing a novel and cost-effective method for pain control. The study will enroll patients in the aftermath of a major earthquake to determine whether regional anesthesia, either with or without ultrasound-guidance, can reduce suffering from lower limb injuries, the most common earthquake-related injury, above and beyond the current standard of care for pain control in these settings.