View clinical trials related to Wounds and Injuries.
Filter by:Mild traumatic brain injury (MTBI) is a common injury that involves loss of consciousness or alteration in mental status induced by an external mechanical force to the head. Education about symptoms and reassurance of a prompt recovery usually results in full recovery. However, a subgroup appears to have persistent symptoms and disability. This study will recruit MTBI patients from two Emergency Departments with the aim of identifying modifiable patient characteristics that can delay or prevent full recovery. A secondary aim is to determine if providing education in writing or in-person makes a difference.
The purpose of this study is to determine whether testosterone plus finasteride treatment will improve musculoskeletal health, neuromuscular function, body composition, and metabolic health in hypogonadal men who have experienced ambulatory dysfunction subsequent to incomplete spinal cord injury. The investigators hypothesize that this treatment will improve bone mineral density, enhance muscle size and muscle function, and improve body composition, without causing prostate enlargement.
Current guidelines for the clinical management of acute spinal cord injury (SCI) recommend maintenance of mean arterial blood pressure (MAP) at 85 to 90 mmHg for the first seven days after SCI as a clinical option. Unfortunately, the medical evidence to support this recommendation exists only at the clinical case series level (Class III data). Furthermore, maintenance of sustained systemic hypertension, as per clinical guidelines, may be associated with risks to the patient via adverse medical events. Given this equivocal evidence, the investigators group has questioned the merit of sustained induced hypertension following acute SCI and has previously conducted a randomized, prospective controlled feasibility study to further examine this issue. This prior pilot study randomized patients with acute SCI to a spinal cord perfusion pressure (SCPP = MAP - intrathecal pressure (ITP)) target of ≥ 75 mmHg or to a control group (hypotension avoidance, MAP ≥ 65 mmHg). The primary endpoint measure was defined as the change in American Spinal Injury Association (ASIA) motor score from baseline. No difference in the primary outcome was noted at one-year post-SCI in this study. In light of this pilot data, the investigators hypothesize that maintenance of normotension (MAP ≥ 65mmHg) is not inferior to induced hypertension (MAP ≥ 85mmHg) for 7 days following acute SCI. As such, the investigators propose to conduct a Phase III non-inferiority prospective, randomized clinical trial in acute SCI patients. Subjects will be randomized into one of two MAP management groups for 7 days; Group 1 will be managed with a target MAP ≥ 65 mmHg, while Group 2 will be managed with a target MAP ≥ 85 mmHg. The primary endpoint will be change in ASIA motor score from baseline at 12 months post injury. A difference of ≤10 ASIA motor points change from baseline between groups will be considered as non-inferiority. Secondary endpoints will include ASIA sensory score, proportion of patients achieving a one grade improvement in ASIA impairment scale, quality of life assessment (as measured by Short-Form-36 [SF-36]) and functional outcome (as measured by the Spinal Cord Independence Measure (SCIM) and Functional Independence Measure (FIM). These will be measured at baseline, 72 hours and 3, 6 and 12 months from injury. Adverse events will be meticulously recorded. The information gleaned from this trial will provide valuable information for the acute treatment of traumatic SCI and will serve the objective of optimizing current clinical practice and thus maximizing medical and neurological outcome for individuals following acute traumatic SCI.
Dyspnea is "a subjective experience of breathing discomfort that consists of qualitatively distinct sensations that vary in intensity". It is known that sensory information from the respiratory system activates regions of the cerebral cortex to produce the perception of dyspnea but far less is known about the neurophysiology of dyspnea than about vision, hearing, or even pain. Dyspnea likely arises from multiple nervous system sources, but the exact locations have not been well identified. Investigations of the mechanisms underlying respiratory sensations have included studies of airway anesthesia, chest wall strapping, exercise, heart-lung transplantation, hyperventilation, and opioid use. Study of the perception of breathing sensations in individuals with a spinal cord injury presents additional opportunity. The goal of the proposed project is to examine the effects of increasingly severe levels of spinal cord injury on the perception of breathing sensations in participants who are able to breathe without the use of a ventilator. The investigators hypothesize that the perception of breathing varies with the extent of somatosensory information that reaches cerebral cortex.
This is an HDE probable benefit, open-label, non- randomized, single-arm, multicenter study to evaluate the safety and probable benefit of the poly(lactic-co-glycolic acid)-b-poly(L-lysine) Scaffold ("Scaffold") in subjects with thoracic AIS A traumatic spinal cord injury at neurological level of injury of T2-T12.
The aim of this study will be to evaluate the safety and the efficacy of a new robotic exoskeleton device in subjects with Spinal Cord Injury (SCI) and in subjects with other neurological disease with an impairment of lower limbs.
This study will compare ketamine and hydromorphone as alternative patient-controlled interventions for trauma-related pain. Patients receiving ketamine PCA are expected to require less total and breakthrough opioid and to have similar or improved objective pain scores. Patients receiving ketamine are also expected to have shorter duration of supplemental oxygen requirement, fewer episodes of oxygen desaturation, improved pulmonary toilet, lower use of antiemetics, and shorter times to first bowel movement. Ketamine is further expected to be associated with decreased intensive care unit and hospital lengths of stay, faster time to maximum allowable ambulation, decreased opioid dosage at discharge, and lower report of chronic pain syndromes.
The purpose of this study is to compare Exparel, a new, long-lasting numbing medication and a shorter-acting nerve block to a traditional single-shot nerve block in patients having hand, wrist or finger surgery.
The proposed study will investigate the effect of sodium bicarbonate on the prevention of acute kidney injury in children undergoing cardiac surgery with cardio-pulmonary bypass. The investigators hypothesize that the occurrence of acute kidney injury will be less in children treated with sodium bicarbonate in the perioperative period when compared to placebo. The specific aims of this proposal are as follows: 1. To institute a prospective, randomized, double-blinded, placebo-controlled trial in pediatric subjects undergoing cardiac surgery to determine the efficacy of sodium bicarbonate on prevention of acute kidney injury as measured by pRIFLE criteria. 2. To examine whether treatment with sodium bicarbonate modifies the duration of acute kidney injury, fluid balance, hospital length of stay, need for dialysis, and progression to kidney failure. 3. To determine the relevance of NGAL as a biomarker to predict development of acute kidney injury.
The main objective of the intervention in the study is devise feasibility using high-count microelectrode arrays implanted into peripheral nerves of patients with limb amputations or peripheral nerve injury. These microelectrodes will be custom-made and are not available for commercial distribution. The investigators hypothesize that recording neural signals from a large number of microelectrodes will provide selective motor information in high enough numbers to allow control over future artificial devices with many moving parts, i.e. artificial limbs with shoulder, elbow, wrist, and/or individual fingers that move. These studies will also investigate to what extent microstimulation of nerve fibers can provide sensory feedback from a prosthetic limb. The investigators will also conduct up to three acute surgeries where a Utah slanted Electrode Array (USEA) will be implanted in volunteers who are about to undergo limb amputations. These acute implantations will provide Dr. Hutchinson with human surgical experience in implanting USEAs and evaluating the containment system we will be using to immobilize the implanted USEA in the nerve.