View clinical trials related to Wounds and Injuries.
Filter by:Gait impairment in people with acquired brain injury (ABI) and spinal cord injury (SCI) can be very heterogeneous. For this reason, STELO has been developed: a new concept of exoskeleton based on modular technology for gait assistance. It allows a personalised configuration according to the functional capacity of each patient, as the therapist can choose which robotic joints to use depending on the therapeutic goal and on the patient recovery phase. The objective is to analyse the usability of the STELO modular exoskeleton in people with ABI and SCI.
The role of hamstring has been studied in anterior cruciate ligament (ACL) injury prevention, mainly to counteract the anterior tibial translation , especially when contracting eccentrically, but also with passive stiffness. However, little is known about the passive hamstring stiffness after ACL reconstruction (ACLR). The primary objective of this study is to evaluate the passive stiffness of hamstring muscles after ACLR by using an isokinetic device. Secondary, we aimed to test the individual and surgical characteristics associated with hamstring stiffness and the impact of hamstring stiffness on RTS and knee re-injury. The hypotheses are that hamstring stiffness will be lower in the ACLR leg compared to the uninjured leg and to healthy individuals. Also, we hypothesized that hamstring stiffness will be lower after hamstring autograft compared to patellar tendon autograft and will increase progressively after ACLR to be symmetrical at the time for RTS. Also, we hypothesized that hamstring stiffness could be associated with better outcomes at RTS (RTS at same level and lower re-injury rates)
This study aims to compare the injuries that occurred in the football players after the isolation and lack of training caused by New Coronavirus Disease (COVID-19), with the previous season, based on the example of a professional football team in Turkey.
This study will utilize a pre/post mix method design Quantitative data will be gathered through surveys (including satisfaction questionnaires) administered pre/post workshops. Qualitative data will be obtained through interviews post- workshop and consultations.
Falls are the leading cause of accidental injury and injury-related death among older adults. Despite evidence that falls can be prevented, fall related injuries have not declined over time. Current fall injury prevention techniques targeting mobility and bone strength have merit yet their effectiveness is limited. Indeed, a recent Patient Centered Outcomes Research Institute/National Institute on Aging funded pragmatic trial of individualized multifactorial strategy to prevent serious fall injuries in over 5500 seniors revealed no difference in fall injuries between the intervention and standard care arm. The inconclusive results of the investigation may be due in part to focusing on fall prevention rather than mitigation of fall-related impact acceleration and forces - the "fundamental variables" for injury prevention. A fall-related injury occurs when the body hits the ground with force that is greater than tissue strength. Development of innovative approaches that focus on fundamental variables of injury prevention is needed.
Basketball is an impact, coordination-opposition sport with continuous contact among players and it is considered a sport of medium-high injury incidence. Players are force to have a physical condition appropriate to their practice and the demand to which they must respond due to the intensity of the efforts this sport requires. In order to achieve this, it is necessary to establish an evaluation protocol that allows the detection of functional deficiencies, to guide and conduct in a specific and early way every moment of players' health and growth. The purpose of this study is to design, apply and analyze the effectiveness of a specific and individualized therapeutic exercise program (Basketball Pre-injury Attack) based on the approach of the functional deficiencies detected by the Basketball Injury Defense, to reduce the susceptibility to injury of youth basketball players (U14 - U17).
Spinal cord injury (SCI) is a devastating condition that often leads to paralysis and multiple health problems such as muscle wasting, bone loss and spasticity. Despite the paralysis, functional electrical stimulation (FES) on the skin surface muscles may produce muscle contractions. People who have had an SCI for a long time (chronic SCI) already use FES cycling to exercise, and it is known that it can reverse muscle atrophy and has a wide range of health benefits. Furthermore, animal research suggests that starting exercise training early after new SCI may promote spinal cord recovery. However, not much is known about early FES cycling in humans. Therefore, the investigators propose to study if early FES cycling could prevent muscle wasting, pain or spasticity, and help with spinal cord recovery. The study will recruit 36 participants with a new, acute SCI, between 14 and 21 days after their injury into 3 groups. An Early-FES group starts FES cycling early after injury (between 14 and 21 days after injury), and for a duration of 6 months. A Delayed-FES group starts FES cycling 3 months after enrolling in the study, and for a duration of 3 months. A Control group does not perform FES cycling. This pilot study will allow us to study if early FES cycling, in addition to normal care, has greater benefits on the preservation and recovery of the leg muscles and spinal cord function than delayed FES cycling or standard care only. The results of this pilot study may lead to the development of a larger study with early FES cycling after new SCI.
Acute kidney injury (AKI) is one of the most common complication after restricted fluid therapy for major surgery. The aim of this study is to evaluate the incidence of AKI as defined by Kidney Disease Improving Global Outcomes (KDIGO) criteria in living liver donor hepatectomy in which applied intraoperative protocolized fluid restriction targeting a low central venous pressure (CVP) level and high pulse pressure variation (PPV) / systolic pressure variation (SPV).
The purpose of this study is to evaluate continuous ultrasound treatment with diclofenac coupling patch during routine care of musculoskeletal injuries which failed conservative treatment to better understand clinical utilization of the treatment on types of injuries, how the treatment helps patients (pain, function and quality of life), and information on healthcare provider ordering the therapy and general workflow. Low-intensity continuous ultrasound (LICUS) is a bio regenerative technology used when normal rehabilitation is insufficient, applied with a wearable device (SAM, Zetroz Systems LLC) for daily use. The treatment provides long-duration ultrasound for approximately four hours. The objective of this study is to examine the real-world outcome data on symptoms improvement and return to function using SAM during routine care.
Randomized controlled parallel designed clinical study aimed to compare vestibule depth gain and dimensional changes of wound area in individuals who underwent vestibule deepening surgery using diode laser and conventional technique