View clinical trials related to Wounds and Injuries.
Filter by:Wound is defined by the breach in dermis of the skin. It can be caused by road traffic accidents, tumor excision, chronic illness like diabetes, bed sores in bedridden patients, burns, insects' bites etc. Treatment goals for wound coverage includes earliest debridement, dressings, local antibiotics, limb elevation, fracture fixations and wound coverage. Skin graft functions both as occlusive dressing, as a skin replacement and as a stimulus for healing. Even though the usage of flaps to cover the wounds has been increased recently still skin grafting serves as an easiest and simplest way of covering the wound. However, skin grafting introduces another wound in addition to the existing wound, the donor site wound (DSW). A secondary donor-site wound (DSW) is formed after harvesting split thickness skin graft which adds up with the primary wound to increase the total size of the wounds for the healing process. This donor site wound cause itching, pain and cosmetic embarrassment. That is why the proper and timely healing of the donor site wound is of great importance. Basic management of DSWs includes conventional dressings that provides absorption of bleeding solely.
Traumatic Brain Injury (TBI) represents a significant public health risk in the United States leaving many survivors with significant long term cognitive deficits and at risk for neurodegenerative diseases. Despite extensive research there are no pharmacological therapies which have demonstrated significant improvement in neurological or cognitive recovery. Changes in glucose metabolism are considered the hallmark metabolic response to TBI and ketosis has been proposed as a therapy to ameliorate metabolic dysfunction. This trial investigates the therapeutic potential of a ketogenic or modified Atkins diet on neurocognitive outcome following moderate-severe TBI.
A common therapeutic intervention after spinal cord injury (SCI) is prolonged standing in a standing frame. For people with SCI, standing for 40 minutes or more, three to four times weekly improves several health-related issues including well-being, circulation, skin integrity, reflex activity, bowel and bladder function, digestion, sleep, pain, and fatigue. However, a person who experiences orthostatic hypotension (OH)-defined as a decrease of 20mm hg in systolic blood pressure or a decrease of 10mm hg in diastolic pressure within 3 minutes of standing from a sitting or supine position-secondary to SCI may not tolerate positioning in a standing frame, thus resulting in a loss of access to these health benefits. OH is common for people with SCI. It results from central nervous system dysregulation causing pooling of blood in the lower extremities that can lead to dizziness, light-headedness, blurred vision, weakness, fatigue, nausea, palpitations, headache, and/or syncope. Although an array of physical and pharmacologic interventions are available to people in the general population for managing OH, few such interventions have been evaluated for use by people with SCI, especially when the level of injury is C5 or above. One possible intervention that may be effective for people with OH secondary to SCI is functional electrical stimulation (FES) because its application results in a dose-dependent increase in blood pressure. An unanswered question is whether the placement of FES electrodes on various parts of the body has differential effects. Therefore, the purpose of this study is to evaluate blood pressure responses among people with OH secondary to cervical SCI when receiving FES intervention involving the placement of electrodes in three different positions as well as when receiving no FES intervention during tilt table sessions. The selected positions for electrode placement are: (a) the calves, (b) the quads and abdominals, and (c) the quads, abdominals, and calves. The researchers hypothesize that FES intervention, regardless of placement, will result in better control of OH than no FES intervention and that no significant blood pressure difference will occur across the three FES placements.
Coronavirus disease was first diagnosed in December 2019, in the city of Wuhan, China. The World Health Organization recently declared coronavirus disease 2019 (COVID-19) as a pandemic. The infection is caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). It is a single-stranded RNA virus, which in humans causes mild respiratory symptoms and generally has a good prognosis. However, in a certain group of patients it manifests as severe pneumonia, respiratory distress syndrome, multiple organ dysfunction and death. The factors associated with a worse prognosis are older than 60 years, the presence of diabetes, cardiovascular disease and obesity. According to studies carried out in the Eastern world, the prevalence of liver injury in patients with COVID-19 disease varies between 14% and 53%, being more prevalent in patients with severe symptoms of COVID-19 disease. It is not really known whether the liver involvement of patients with SARS-CoV-2 infection is secondary to the direct effect of the virus on the liver. One of the mechanisms of action of SARS-CoV-2 is through the binding to the angiotensin-converting enzyme receptor, which is present in cholangiocytes, this could explain its excretion in faeces. However, liver injury could be due to the immune response generated in the body by the virus with systemic inflammatory response syndrome and the release of inflammatory cytokines such as IL6, generating direct cytopathic damage to the liver. On the other hand, it could be the product of hepatotoxic drugs administered during hospitalization, such as antibiotics, antivirals or non-steroidal anti-inflammatory drugs. Liver biopsy described microvacuolar steatosis, and a mild portal and lobular inflammatory infiltrate . Therefore, the aim this study is to assess the prevalence of liver complications (liver injury, decompensation of cirrhosis) in patients diagnosed with COVID-19 in Latin America. As secondary objectives, the investigators will describe the clinical characteristics of COVID-19 disease and identify risk factors associated with poor prognosis,
The purpose of this study is to evaluate the possibility to use electromyography in acute phase after a traumatic spinal cord injury to measure quantitatively and objectively the bulbocavernosus reflex. This study also aims to determine if there is a relationship between the bulbocavernosus reflex and neuro-functional recovery 3 months after a traumatic spinal cord injury. To do so, 20 patients admitted for acute traumatic spinal cord injury will be recruited prospectively. Within 72 hours post-trauma, the bulbocavernous reflex of all participants will be assessed according to the International Standards for Neurological Classification of Spinal Cord Injury (ISNCSCI) and by electromyography. Neurological improvement during the rehabilitation process and functional status at 3 months following the traumatic spinal cord injury will also be assessed.
The study will evaluate the effect of intradermal injection of stromal vascular fraction into suture line on wound healing and scarring.
2.1. Objective: • Primary Objective: To compare outcomes of patients with extremity injuries presenting with or without pre-hospital tourniquet placement. 2.2. Study Outcome Measures - Primary Outcome: Incidence of arrival in shock (SBP <90) - Secondary Outcomes: Demographics, comorbidities, mechanism of injury, cause of injury, diagnosis codes, procedure codes, Injury Severity Scale, Abbreviated Injury Scale, operative management vs. non-operative management, radiologic findings, pathologic findings, tourniquet effectiveness (as determined both subjectively by trauma surgeon and objectively by presence vs. absence of pulse below level of tourniquet application), total number of units of blood products transfused within first 24 hrs, total number of units of blood products for index admission, type of blood products or other fluid given, hospital length of stay, ICU length of stay, ventilator days, infectious complications, other complications, discharge disposition, 24 hr mortality, overall mortality.
To analyze the present situation and influencing factors of gratitude level and quality of life of patients with spinal cord injury, and to explore the methods of Thanksgiving intervention for patients with spinal cord injury so as to provide scientific basis for improving the quality of life of patients with spinal cord injury. Investigation and research design and experimental research design
Hypothesis of the clinical study: There are differences between the Water Polo Group and the Non-Water Polo Group in terms of shoulder parameters and core (lumbopelvic) parameters and there are differences between the throwing and non-throwing sides in terms of shoulder parameters in Water Polo Group.
The purpose of this study is to determine the efficacy and safety of compression bandaging with fractional ablative carbon dioxide laser (FACL) compared to compression and standard dressings alone for healing of post-operative wounds of the leg. This is a randomized, SMART design, clinical trial. Approximately 80 participants will be randomized to initially receive compression bandages or standard wound dressings after surgery on the lower leg. After 4 weeks, the group assigned to compression bandages will be further randomized to either continue with the compression bandages only or continue with the compression bandages and also receive (FACL). The study is designed as an 6-month study. This study was a pilot study designed to determine feasibility of these procedure. Subjects currently living in the Chicago metropolitan area and meet inclusion/exclusion criteria will be considered for enrollment.