View clinical trials related to Wounds and Injuries.
Filter by:The purpose of this study is to determine if individuals with incomplete spinal cord injury (SCI) who remain unable to walk normally 1 year after their SCIs are able to sense and move the affected legs better after 10-13 weeks of treatment with a new robotic therapy device. The hypothesis is that using the AMES device on the legs of chronic subjects with incomplete SCI will result in improved strength, sensation in the legs, and improved functional gait in the treated limbs.
This study will evaluate the effects of omega-3 fatty acid supplementation on inflammation in trauma patients. The main hypothesis is that such supplementation will reduce the presence of biomarkers of systemic inflammation, as compared to placebo
The purpose of this study is to find out how well the current drug regimen (including low Prograf dose and Myfortic, which is usually recommended to prevent any further deterioration in the kidney function) works and how safe it is when compared to a combination of Zortress and Myfortic in patients with chronic kidney injury associated with Prograf or Neoral use.
Transfusion-related acute lung injury (TRALI) is the most common cause of transfusion-related morbidity and mortality in the United States. It is very common and often unrecognized in the critically ill with the greatest incidence occurring in bleeding patients with liver disease. Plasma is the most blood component associated with this deadly complication and therefore patients with liver disease who frequently receive transfused plasma are at increased risk. The optimal plasma transfusion strategy for bleeding patients with liver disease is unknown and the investigators will evaluate this clinical question in a small pilot randomized controlled trial. The invstigators hypothesize that targetting a more restrictive INR Target (2.5) vs. an INR Target (1.8) will result in less hypoxemia, a TRALI surrogate without increasing bleeding complications.
Bone fractures in traumatic brain-injured and spinal cord-injured patients often heal faster than in other patients. However, such patients are also occasionally prone to bone formation in soft tissues such as muscle. This process is called heterotopic ossification and tends to occur around joints. Patients with heterotopic ossification often suffer from complications such nerve compression, ankylosis, chronic pain, osteoporosis, and infections. Loss of movement can also interfere with function and the quality of life of patients already experiencing difficulties associated with their trauma. Positioning, transfers, and hygiene become difficult and even impossible, which worsens the loss of autonomy. Previous research has suggested that an osteoinductive factor (which has the capacity to induce the formation of bone) may be released into the bloodstream following a head or spinal cord injury. The investigators laboratory has shown that a growth factor called BMP-9, when injected into a damaged mouse muscle, has the ability to cause strong ossification in damaged muscle. The investigators would like to find out whether the levels of BMP-9 and/or its receptor (which is called ALK1) increase after traumatic brain and spinal cord injuries that occur at the same time as serious orthopaedic traumas. The main goal of the investigators study is thus to determine whether BMP-9 levels increase in the serum of trauma patients.
The study objectives are to evaluate safety and efficacy of topical administration of RPh201 oil solution (botanical extract) for treatment of patients with hard to heal chronic ulcerated wounds.
Background: - A person who has a traumatic brain injury (TBI) -- also called concussion -- can have serious and long-lasting effects. Doctors who treat TBI need more information about how the brain changes over time in people with TBI and how well a person recovers from it. To make existing TBI treatments more effective and develop new ones, researchers want to look more closely at how TBI affects people both physically and psychologically. Objectives: - To collect medical information from people with recent traumatic brain injury and compare this information to that of healthy volunteers and of persons who have had injuries to other parts of their bodies besides their heads (such as broken bones, orthopedic injuries, after surgery). Eligibility: 3 groups of people between the ages of 18 and 70 years will be asked to take part. - Persons who have had a traumatic brain injury (or concussion ) within the past 30 days, OR - Persons who are healthy and have never had a traumatic brain injury, OR - Persons who have had an injury within the past 30 days to a part of their body other than the head (such as a broken bone, orthopedic injury, surgery) Design: - This study requires two outpatient visits each lasting 1 1/2 days. The 2 visits will be about 30 days apart. Persons with TBI and non-TBI injuries must have their first visit within 30 days of their injury. - Screening: Participants will be screened with a medical history, physical examination, blood tests and electrocradiogram (ECG a routine heart test). - The research will involve: 1. Giving blood samples (no more than 75 ml each visit). 2. Having tests of memory, attention, concentration, and thinking (neuropsychological testing). 3. Having imaging studies of the head including magnetic resonance imaging (MRI) and positron emission tomography (PET) scans. - Persons with TBI will have the same tests at Visit 1 and 2. Healthy controls and persons with non-TBI injuries will have the same tests at Visit 1 as listed above. But, at Visit 2, they will not have brain MRIs or PETs. - No treatments will be provided as part of this research protocol.
Background: - Many people who have had a traumatic brain injury have difficulty walking. Training on a treadmill is often used to help people with walking difficulties. Supporting a person s body weight with a harness while using the treadmill can help improve walking skills in people with brain injury. Varying the rate at which people walk on the treadmill may also help more than walking at a constant rate. Treadmill training with body weight support or walking at different speeds may improve walking skills in people who have had a traumatic brain injury. More research is needed to see if one method is better than the other. Objectives: - To compare the effects of two types of treadmill training in people who have had a traumatic brain injury. Eligibility: - People at least 18 years of age who have had a mild or moderate traumatic brain injury at least 6 months ago and have mild or moderate walking difficulty. Design: - Participants will be screened with a medical history and physical exam. They will also take a basic walking test (not on a treadmill). - Participants will be divided into two groups. The first group will have treadmill training at a constant speed. The second group will have treadmill training at different speeds. All participants will wear a support harness while walking on the treadmill. - At the first training visit, participants will have a gait assessment with different tests of walking. Then they will have a treadmill walking session. - After the first visit, participants will return twice a week for 6 weeks for treadmill training sessions (visits 3 through 12). They will also have grip strength and walking tests. - At the end of 6 weeks, participants will have a final treadmill training session, and will have a gait assessment exactly like the one in the first training visit. - At 6 months after the final session, participants will have a followup visit with a final gait assessment.
The purpose of this study is to investigate the effects of Transcranial Direct Current Stimulation (tDCS) combined with watching a visual illusion on chronic pain due to spinal cord injury. The investigators hypothesize that active tDCS will reduce pain in subjects with spinal cord injury when compared to sham stimulation. The investigators will also measure changes in EEG data (alpha and beta frequencies) as well as motor cortex excitability.
The purpose of this protocol is to evaluate the safety of a selective cytopheretic device (SCD) in patients that are on continuous renal replacement therapy (CRRT) for acute kidney injury (AKI).