View clinical trials related to Wounds and Injuries.
Filter by:Lower limb amputation is common in the United States, with approximately 150,000 amputations annually. Most individuals walking with a prosthesis demonstrate asymmetrical loading-i.e., they favor the amputated side by placing more weight and increased ground reaction forces through the intact limb-which likely contributes to increased metabolic cost of walking. Lack of adequate muscular strength in the lower limb to attenuate these forces places increased stress on the joints, which may be displaced proximally, and may play a role in reported knee and hip pain in the intact limb. Lower limb muscle weakness following amputation has been well documented. Increasing quadriceps strength is important after an amputation because it is positively correlated with gait speed. Gait speed may also be associated with successful community mobility, which leads to improved quality of life following amputation. Individuals with amputation who resume an active lifestyle are able to maintain strength. However, these individuals represent a minority of persons with lower limb amputation; most individuals report more barriers than motivators to adopt an active lifestyle. Ischemic conditioning (IC) may strengthen leg muscles and reduce the metabolic cost of activity after amputation. In IC, the limb is exposed to brief, repeated bouts of ischemia (reduced blood flow) immediately followed by reperfusion. IC has been shown to improve muscle performance in healthy and diseased populations. IC has also been used more recently in patients with peripheral artery disease (PAD) as an intervention to improve function, such as walking ability. Acute exposure to IC increases muscle strength and activation, both in healthy, active individuals and in those with severe neuromuscular dysfunction, such as stroke survivors. IC also attenuates muscular fatigue. Increased fatigue resistance at submaximal contraction levels following IC may be due to increased neural activation of skeletal muscle. Changes in neural activation of muscle may be particularly beneficial during cortical reorganization after amputation. Reduced quadriceps fatigue during submaximal activities may also drive changes in gait kinematics, such as increased knee flexion during loading and mid-stance. Exposure to IC may also increase the oxidative properties of skeletal muscle, offering a direct pathway to reduce metabolic cost. Therefore, IC may lead to cellular changes that lower the metabolic cost of activity. The primary aim of this study is to quantify the benefits of acute and chronic IC on quadriceps strength and walking economy in individuals with PAD and history of lower limb amputation.
Continent Cutaneous Urinary Deviation (CUD), using the Mitrofanoff, Yang-Monti or Casale principle, is offered to patients with neurological diseases who are unable to perform intermittent catheterisation through the native urethra due to upper limb disability. There is very little data in the literature examining the long-term efficacy and complications of this technique. The main objective of this study is to evaluate the effectiveness of long-term CUDs in spinal cord injury patients. The secondary objectives are to evaluate the surgical complications and the impact on the patient's quality of life. For each patient, several data will be collected and analyzed: age at operation, sex, Body Mass Index (BMI), ASA score, ASIA score, type of bladder dysfunction assessed by urodynamic evaluation, urinary abnormalities assessed by morphological examination (ultrasound and / or computed tomography) and cystoscopy, creatinine clearance, operative indications, initial mictional mode, surgical assembly and any immediate or late complications. In a second stage, a questionnaire survey will be conducted by telephone.
The clinical investigation plan will include a Screening/Baseline visit (V1) in which patients will be screened on the basis of inclusion/exclusion criteria and clinically evaluated. Screened and eligible patients will be randomly assigned in one of the two groups: Group 1 will receive ConnettivinaBio Plus cream whereas Group 2 will receive ConnettivinaBio cream. Lesions will be cleaned and a photo will be acquired with a digital camera. In both groups, the schedule treatment will consist of daily medication changes. Wound Bed Score, clinical signs of localized infection, measurement of the wound area, collection of the swab, according to the Levine's technique, EQ-5D questionnaire to the patient will be assessed on Day 1 (V1, baseline visit), 7 (V2), 14 (V3), 21 (V4) and 28 (V5) post-baseline. Treatments in both groups (ConnettivinaBio Plus or ConnettivinaBio) will be applied for a maximum period of 28 days. The easiness of treatment application will be also recorded at V5.
The NeurO2 study is a multicenter observational study looking at NIRS monitoring in neurocrocritically ill patients during the acute phase of care following an acute brain injury. The study is nested within the HEMOTION Trial and the SAHaRA Trial
This is a prospective, randomized, two-arm, controlled 30-day investigational pilot trial using the gammaCore Sapphire S non-invasive vagus nerve stimulation (nVNS) device + standard of care (SOC) in newly-hospitalized patients with mild-to-moderate traumatic brain injury (TBI) to prevent the progression towards immunokine storms, systemic inflammatory response syndrome (SIRS), severe respiratory distress, and requirement for invasive mechanical ventilation, and death, when compared to SOC alone (the control arm).
The primary objective of this study is to evaluate the feasibility and safety of using the ketogenic diet (KD) in children who sustained moderate to severe traumatic brain injury (TBI). The secondary objective is a preliminary evaluation of the outcomes of children who have had the standard of care plus the KD, compared to those with standard of care alone. Outcome measures for the secondary objective will include: need for ventriculoperitoneal shunt, duration of unconsciousness, need for any type of craniotomy, duration of post-traumatic amnesia, acute hospitalization length of stay, and cognitive and motor function at 12 months after injury. If this study demonstrates feasibility and safety, the information related to outcomes will be used to inform the planning of a future, larger, randomized study of the efficacy of the KD in children and adolescents with TBI. Specifically, this information will be used to assist with sample size calculations for this future study.
Sleep wake disturbances compound recovery in over half of pediatric traumatic brain injury survivors, leading to impaired quality of life, and few effective interventions exist to treat this important morbidity. Therefore, this study will conduct a randomized controlled trial evaluating a melatonin intervention started during hospitalization and continued after discharge compared to placebo. The trial will investigate if this intervention is feasible, acceptable, and effective at reducing sleep wake disturbances as measured on the Sleep Disturbances Scale for Children 1-month after hospital discharge. Participants will be randomly assigned to receive the intervention (melatonin) or to the control group (placebo) with a goal of equal numbers of participants in each group and all will receive sleep education. Participants will be followed closely after consent and outcomes will be assessed at hospital discharge, and 1-month. Outcomes will focus on feasibility (ability to recruit patients into the trial) and acceptability (patient safety and satisfaction), but will also assess the effectiveness of the intervention to reduce sleep disturbances after discharge. The investigators will assess sleep using questionnaires and actigraphy (watch-like activity monitors). Exploratory outcomes will include global health outcomes.
Traumatic brain injury (Traumatic brain injury, TBI) can be derived from various forms of injury, including blunt trauma, penetrating or acceleration/deceleration force caused by head injury.There are some study data show that acupuncture treatment has a superficial effect on the prognosis of traumatic brain injury and can limit the progression of secondary brain injury, but the effect of early bloodletting at the Jing-points on TBI patients still unknown. In our study, the investigators have proposed a randomized, controlled study design and plan to evaluate the efficacy and safety of Jing-point puncture to improve consciousness and neurological function in patients with TBI. In addition, an objective meridian instrument analysis was added to analyze the energy distribution in the meridian of TBI patients.
Rotator cuff injury patients treated with ERAS were included. The control group was given routine nursing. The observation group was given the Internet plus nursing home rehabilitation mode. Relying on mobile app and wechat, patients can get online guidance of rehabilitation training video through app and wechat, and get professional rehabilitation guidance at any time.
Facial fractures make up a significant proportion of injuries in trauma patients (1, 2). Approximately 3 million individuals suffer craniofacial trauma in the United States on a yearly basis, and approximately 50% of all wounds presenting to emergency rooms involve the head and neck (1, 2). Treatment of these fractures often results in standard surgical interventions. While up to the early 1980's perioperative antibiotic prophylaxis in maxillofacial surgery was controversial, its efficacy is well accepted today (3). Previous research work showed that the administration of antibiotics one hour preoperatively and eight hours after the intervention reduces the incidence of infectious complications in facial fractures from 42.2% to 8.9% (4). However there is still no consensus about the duration of the postoperative administration. In literature postoperative prophylaxis in facial fractures varies from single-shot up to duration of 7 and even ten days postoperatively. The use of antibiotics can be associated with allergic or toxic reactions, adverse effects, drug interactions and increasing bacterial resistance (5). In addition some authors assume that a prolonged administration of antibiotics might increase the risk of infectious complications via superinfection. On the other hand a short term or single shot administration might not be enough to prevent the onset of a postoperative infection. Up to date there is no standard to support the duration of antibiotic administration after surgical repair of a facial fracture. In this proposal, Investigators are aiming to investigate if either the utility of antibiotics administered for 3 days or 5 days make a difference in the clinical outcomes after facial fractures.