View clinical trials related to Wounds and Injuries.
Filter by:Acute kidney injury (AKI) is common in intensive care unit (ICU) patients and is associated with longer hospital stays and worse survival. The mortality rate of critically ill patients in the ICU who receive renal replacement therapy for AKI ranges between 50-80%, cardiovascular disease being the second largest cause of death. A previous pilot study from the investigator's group showed that myocardial stunning occurs in AKI patients during continuous renal replacement therapy (CRRT) and may explain the high cardiovascular mortality in this population. In the chronic intermittent dialysis setting, mild dialysate cooling was shown to improve intradialytic hemodynamic stability and prevent myocardial stunning. The aim of this study is to find out whether cooling the blood in the CRRT circuit is an effective intervention to prevent myocardial stunning in AKI patients undergoing CRRT and improve patient outcomes.
This is a 64-patient, 90-day, open -label study on adult patients undergoing below knee amputation for various etiologies. The objective of this study is to assess surgical wound healing and wound bioburden using combination treatment of Next Science SurgX™ Antimicrobial Wound Gel and BlastX™ Antimicrobial Wound Gels as compared to standard of care.
The purpose of this study is to determine whether using hyperbaric oxygen (HBO) improves wound healing for patients who have a crush injury. The comparison of the prospective intervention group to the retrospective matched cohort aims to show that HBO can improve wound healing and decrease poor outcomes for patients with crush injuries. The information gained from this small study will serve as a basis for a follow-up prospective, randomized control trial to further delineate the role of HBO in a larger patient population.
Incomplete spinal cord injuries (SCI) are the most frequent neurologic category, comprising 66.7% of all SCI cases. People with incomplete SCI may retain some ability to move the legs and therefore the capacity to regain walking. Studies that show functional improvement in locomotion via electrical stimulation of lumbosacral circuits suggest that the underlying mechanisms are neuromodulation of lumbosacral spinal cord automaticity and sensory feedback. Both epidural and transcutaneous spinal stimulation are demonstrating exciting potential to improve limb function for people after chronic SCI. Available treatment options for SCI are less than satisfactory and most often do not achieve full restoration of function. Recent experimental results suggest an exciting new approach of using electrical spinal stimulation to enable users to regain control of their weak or paralyzed muscles. Using surgically-implanted electrodes, epidural stimulation results in remarkable improvements of lower extremity function as well as autonomic functions such as bladder function and sexual function. In addition to epidural stimulation, over only the last few years a novel strategy of skin surface electrical spinal stimulation has also demonstrated exciting potential for improving walking function. Using a high-frequency stimulation pulse, current can pass through the skin without discomfort and activate the spinal cord; this results in patterned stepping movements for people without SCI and improved lower extremity function following SCI. This study will directly compare skin-surface transcutaneous stimulation with implanted epidural stimulation for improving lower extremity function.
This randomized, prospective study evaluates incision closure, post-surgical wound complications, dressing changes, incision/scar appearance, pain associated with dressing changes, and patient satisfaction rates of an activated carbon dressing versus two commercially available wound dressings.
1. This study is a pilot feasibility study to determine treatment effects to estimate sample size for future studies that evaluate wound bacteria colonization. 2. The secondary objective of this study aims to observe the effect of PED on an open wound and its effects in wound bacteria colonization.
Background: People who have had a traumatic brain injury (TBI) often experience fatigue. Fatigue is the feeling tired all the time. Researchers want to learn more about how TBI and fatigue are related. Objective: To better understand fatigue after TBI in active duty military and veterans. Eligibility: Active duty service members or veterans ages 25-40 who have sustained at least 1 TBI more than 6 months but less than 5 years ago Design: Participants will be screened with: - Medical history - Physical exam - Blood and urine tests Participants will have Visit 1 the same day as screening. This will include questionnaires and interviews. These will be about their fatigue, quality of life, and health. Participants will wear an activity monitor on their wrist and complete a sleep diary for 7 days at home. Participants will have Visit 2: They will stay in the clinic for 2 nights. The visit will include: - Tests of memory, attention, and thinking - Placement of intravenous (IV) line: A needle will guide a thin plastic tube into the participant s arm vein. - 2 overnight sleeps tests: Participants brain waves will be recorded while they sleep. Small electrodes will be placed on the scalp. Monitors will be placed on the skin. These will measure breathing, heart rate, and movement. Blood will be drawn overnight through the IV line. - Optional hydrocortisone stimulation test: Participants will receive the hormone through the IV line. Blood will be drawn through the IV line 5 times over 1 hour. - Optional MRI: Participants will lie in a machine. This machine is a metal cylinder that takes pictures of the brain.
Single center, non-blinded, randomized controlled trial. Enrollment is based on ≥50 MME within 24 hours of admission, followed by a 24 hour screening/randomization window and a participation period extending through the acute hospitalization period. A total of 122 adult patients admitted with a traumatic injury will be randomized 1:1 across 2 study arms: adjunctive dronabinol or systemic analgesics only. Patients randomized to the dronabinol arm should receive their first dose within 12 hours of randomization; patients will also receive PRN as needed systemic analgesics for pain. Except for the analgesia protocol, all other interventions will be equivalent for participants in both arms. The clinical effects of analgesia treatment arm will be evaluated during the acute hospitalization (hospital admission through discharge or death). The primary efficacy endpoint will be assessed starting at 48 hours after randomization and carried through to discharge.
This study evaluates an accelerated schedule of theta-burst stimulation using a transcranial magnetic stimulation device for orthopaedic trauma patients. In this open label study, all participants will receive accelerated theta-burst stimulation. This study will examine whether symptoms of psychiatric distress and opioid use in orthopaedic trauma patients can be mitigated with rTMS to improve post-injury recovery.
Chronic wounds are a source of significant morbidity and escalated healthcare costs. The wound care professional has a myriad of modern wound dressings to choose from, each of which has benefits and drawbacks. An understanding of how a given dressing performs in healing a particular wound is crucial in order to determine a clinical mapping of wound dressings to wound types; such a categorization would lead to more efficient clinical decision making and better patient outcomes. This case series will evaluate the ability of a porcine-derived collagen dressing to improve healing of chronic lower-extremity wounds.