View clinical trials related to Compartment Syndromes.
Filter by:Background: Tourniquets are the basic equipment for nurses to perform blood draws, and venous indwelling needles for congestion, or for hemostasis. Therefore, forgetting to remove the tourniquet is a common problem that leads to blood circulation being blocked, and even severe tissue necrosis occurred. Purpose: The study aimed to evaluate whether this innovative tourniquet could prevent forgetting to remove the tourniquet, and improve the satisfaction of care. Research design: This clinical research trial was a quasi-experimental study designed for a single group with pre-and post-test. We will recruit 160 nurses in high-risk units of the hospital. The delay in removing the tourniquet as our study outcome is defined as the removing time delay of one minute. Expected results: The research results will provide some evidence of the efficacy of intelligent tourniquets.
The purpose of this study is to evaluate both genotypic differences and differences in local gene expression in individuals who develop acute traumatic compartment syndrome relative to control patients with at-risk lower extremity fractures who do not develop compartment syndrome.
Compartment syndrome is a very serious musculoskeletal disorder, which can lead to potentially devastating consequences, such as limb amputation and life- threatening conditions. It is a well described medical condition considered to be an orthopaedic emergency affecting all ages. Even though compartment syndrome is a well described medical condition, the appropriate treatment (i.e., fasciotomy to release tissue pressure) is invasive and involves its own risks. Furthermore, and of most critical importance is the timing for the intervention of a fasciotomy. The concerned limb may already have had severe, sometimes even irreversible, tissue damage due to high intra- compartmental pressure within 6 to 10 hours. The standard diagnostic method for compartment syndrome is an invasive intra-compartmental pressure measurement via insertion of a pressure monitoring device into the muscle compartment. Commercially available intra compartmental pressure monitors have a highly variable intra-observer reproducibility and user errors are common. Compared to the invasive modalities, the Compremium Compartmental Compressibility Monitoring System (CPM#1) shows promising advantages for the clinical application. Not only is the technology used for the CPM#1 device safe and non-invasive for the patient with only initial training required for the healthcare professionals, but it has also demonstrated high intra- and inter- observer reproducibility (as per bench tests and clinical settings with prototypes, to be confirmed in clinical studies like this one). The use of the CPM#1 device therefore facilitates the measurements, as it is based on pre-existing ultrasound methods and avoids any further risks to the patients compared to invasive compartmental pressure diagnosis methods.
Chronic Exertional Compartment Syndrome (CECS) is a painful condition affecting runners and it is caused by a reversible increase in pressure within a closed compartment in the leg. Currently, to diagnose CECS, a large needle is placed into the muscle to measure pressure, which is invasive and painful. After diagnosis, the gold standard of treatment is surgery, which is also invasive, involves a prolonged return to play, and has a significant number of treatment failures. A growing literature has suggested alternative methods to both diagnosis and treatment that include the use of ultrasound to investigate muscle stiffness with shear wave elastography (SWE), and treatment with botulinum toxin injection into the muscle. The investigators propose a single-site randomized clinical trial to investigate the use of abobotulinumtoxinA in the treatment of CECS. Researchers also look to develop a non-invasive method for the diagnosis of CECS using SWE. To the researchers' knowledge, this is the first randomized study investigating the medication to treat this cause. The study will take place at Emory's outpatient sports medicine clinic. Potential participants will primarily be identified and recruited from the departments of Physical Medicine and Rehabilitation, Orthopedics, Physical Therapy, and Sports medicine as a part of regular clinical care. Participants will be included in the randomized portion of the study if they meet the previously established diagnostic criteria for CECS with compartmental pressure testing. This would be a landmark study to provide evidence for the use of an abobotulinumtoxinA in the treatment of CECS, leading to the potential avoidance of a surgical procedure. It could also change the means of diagnosis without the use of painful and invasive needle pressure testing that would provide patients and athletes with ease of care.
Compartment syndrome is a very serious musculoskeletal disorder, which can lead to potentially devastating consequences, such as limb amputation and life-threatening conditions. It is a well described medical condition considered to be an orthopaedic emergency affecting all ages. Even though compartment syndrome is a well described medical condition, the appropriate treatment (i.e., fasciotomy to release tissue pressure) is invasive and involves its own risks. Furthermore, and of most critical importance is the timing for the intervention of a fasciotomy. The concerned limb may already have had severe, sometimes even irreversible, tissue damage due to high intra-compartmental pressure within 6 to 10 hours. The standard diagnostic method for compartment syndrome is an invasive intra-compartmental pressure measurement via insertion of a pressure monitoring device into the muscle compartment. Commercially available intra compartmental pressure monitors have a highly variable intra-observer reproducibility and user errors are common. Compared to the invasive modalities, the Compremium Compartmental Compressibility Monitoring System (CPM#1) shows promising advantages for the clinical application. Not only is the technology used for the CPM#1 device safe and non-invasive for the patient with minimal training required for the healthcare professionals, but it has also demonstrated high intra- and inter-observer reproducibility (as per bench tests and clinical settings with prototypes, to be confirmed in clinical studies like this one). The use of the CPM#1 device therefore facilitates the measurements, as it is based on pre-existing ultrasound methods and avoids any further risks to the patients compared to invasive compartmental pressure diagnosis methods.
Chronic exertional compartment syndrome (CECS) is an innocuous condition seen primarily in 10-60% of young active people with exercise induced leg pain. With an average delay in diagnosis of 2 years, early identification is crucial as delays have led to poor surgical outcomes after fasciotomy. Diagnosis is currently made by compartment pressure (CP) testing, which is invasive, painful and demonstrates variable accuracy. There is no literature on the role of shear wave elastography (SWE) and/or subharmonic assisted pressure estimation (SHAPE) with microbubbles in diagnosing CECS. Ultrasound contrast agents are FDA-approved and are extremely safe. In this single-blinded prospective pilot study, the accuracy of SHAPE and SWE will be evaluated and compared to the current gold standard of compartment testing in patients with suspected CECS. Muscle stiffness and record a quantitative assessment of enhancement and hydrostatic pressures will be documented and correlated with compartment testing results based on a reference standard modified Pedowitz criteria for CECS
Crural Compartment syndrome is a well-known sequela after femoropopliteal arterial injuries in the lower extremity, particularly when there has been a long period of ischemia,need for ligation of a major vein, or when there is severe associated soft tissue.There is conteoversy in the treatment.
10 participants with Recurrent Chronic Exertional Compartment Syndrome (R-CECS) will be enrolled in a 6 month study at the University of Wisconsin Hospitals and Clinics to test the hypothesis that injection of Botox into the affected muscle group will alleviate pain associated with R-CECS.
Acute compartment syndrome (ACS) after revascularization for acute limb ischemia is a potentially limb-threatening condition and requires urgent fasciotomy. Compression ultrasound (CU) is an established method for measuring intravenous pressure in superficial veins and, for example, can determine central venous pressure in critically ill patients. In cadaver studies, compression ultrasound has been proven to correlate with invasive intra compartmental pressure (ICP) measurements. This study aims to determine CU's added diagnostic value compared to ICP in detecting ACS after revascularisation.
Acute Compartment Syndrome (ACS) can occur when there is a gradual reduction in the blood supply to injured limbs, most commonly after fractures or crush injuries. If ACS is not diagnosed early enough, it can result in muscle and other tissues dying off because of the lack of blood supply. Diagnosing ACS remains a challenge for doctors - currently clinical assessment and pressure probes are used to assess patients at risk of ACS. Previous research has shown that measuring pH in injured muscles is promising in diagnosing ACS and may help doctors diagnose ACS earlier than they can using current methods. In this study, the investigators will use a pH probe to measure muscle pH, and in particular, any build-up of acid caused by reduced blood flow in the injured limb. The investigators will compare the pH probe values with the existing methods for diagnosing ACS. Patients with a fracture or crush injury who are risk of developing ACS will be recruited into the study. Participants will have a pH probe inserted into tissue close to their injury and pH data will be logged for up to 72 hours. Diagnosis and any treatment decisions for participants in the study will be made using the existing methods and not based on information from the pH probe (the team treating the patient will not have access to the pH data). Data on diagnosis and any treatment given for ACS will be collected from participant's medical notes. The Soft pH trial team will compare how well the pH probe performs in diagnosing ACS compared to the existing methods. The investigators will follow participants up at 6 months after their initial injury to identify missed ACS cases based on clinical findings. Diagnosing ACS earlier may reduce the likelihood of long-term symptoms and loss of function that is often seen in cases of ACS.