View clinical trials related to Compartment Syndromes.
Filter by:This prospective multinational, multicentre cohort study aims to investigate the hypothesis that biomarkers of muscle cell damage can predict acute compartment syndrome in patients with tibial fractures.
The purpose of this trial is to conduct a pilot study that will aid in the design of an evaluation of the clinical benefit of MY01, an FDA cleared device, that allows continuous monitoring of intracompartmental muscle pressure in patients at risk for developing acute compartment syndrome. MY01 has previously been successfully tested on animal and Human cadaver Acute Compartment Syndrome models within the RI MUHC through Department of Defense research Grant (Combat Casualty Care Research Program (CCCRP). This trial is supported by the same grant, as the next phase of the overall project. This is a multi-center, non-randomized, historically controlled, prospective trial of the MY01 device. A cohort of 50 participants will be prospectively enrolled with two weeks follow up to document clinical benefit of the device. Results from this study will be used to inform the design of a larger study designed to demonstrate the clinical benefit of the MY01 device in the early diagnosis of ACS. The role of each organisation within the trial are detailed below: - Research Institute of McGill University Health Centre (RI MUHC): study coordination and data analysis (no recruitment activity will take place in the MUHC). - Hennepin Healthcare: participants recruitment - Vanderbilt University Medical Centre: participants recruitment
The Accuryn Registry Study is an open-ended, global, multi-center, retrospective and prospective, single-arm data collection study with an FDA cleared device. The target population are cardiovascular surgery patients. Physiologic data measurements will be collected from enrolled subjects using electronic medical records and data streams via the Accuryn Monitoring System.
The Accuryn Registry Study is an open-ended, global, multi-center, retrospective and prospective, single-arm data collection study with an FDA cleared device. The target population are cardiovascular surgery patients. Physiologic data measurements will be collected from enrolled subjects using electronic medical records and data streams via the Accuryn Monitoring System.
Acute compartment syndrome (ACS) is defined as a clinical entity originated from trauma or other conditions, and remains challenging to diagnose and treat effectively. Threre is the controversy in diagnosing, treating ACS. It was found that there was no criterion about the ACS, and result unnecessary osteotomy. The presence of clinical assessment (5P) always means the necrosis of muscles and was the most serious or irreversible stage of ACS. Besides pressure methods, the threshold of pressure identifying ACS was also controversial.
compartment syndrome has a high incidence in patients with a variety of diseases, including fractures, and delayed diagnosis or without intervention can lead to severe adverse prognosis, such as limb deformities, amputations and even death. Early diagnosis and early intervention are important, especially early diagnosis. Now, the diagnosis of compartment syndrome in clinical is based on medical history, clinical manifestations and measuring the compartment pressure by fine needle puncture. However, this diagnostic method is not easy to achieve early accurate diagnosis and non-invasive continuous monitoring. The study found that the increase of compartment pressure can lead to local changes of hemodynamic, tissue metabolism and nerve function. There are also studies and reports of near-infrared spectral tissue oxygen measurement technology, ultrasonic Doppler technology, near-infrared spectral pulse oxygen measurement technology and infrared thermal imaging technology can be used for noninvasive monitoring of acute compartment syndrome, but it is not clear that which is better above in early diagnosis of acute compartment syndrome. The purpose of this study was to simulate the process of early pressure increase in the compartment by pressurizing the volunteers' calves by cuff, and then measured the tissue oxygen in the Anterior fascia compartment using a non-invasive monitor of the tissue oxygen parameters, the ultrasonic machine measured the blood flow signal of the upper and lower backbone blood vessels, and the blood oxygen meter to measure the blood saturation of the upper and lower ends of the limb. The infrared thermal imager measured the near and far limb temperature of the hemostatic belt and the two-point identification of the skin sensory nerve function at the far end of the fascia chamber. Then compare the correlation of these indicators with pressure changes.
Chronic Exertional Compartment Syndrome (CECS) in the lower leg is a debilitating condition in highly active individuals. Pain occurs in 1 or several leg compartments upon an exertional activity, typically running, that quickly dissipates once the activity stopped. Surgical fasciotomy is the standard for treating lower leg CECS, but success is variable. Complications may occur post-surgery and there is a potential for a repeat procedure. Recovery times post-surgery also vary greatly. Conservative treatments, such as gait retraining and botulinum toxin injections, are emerging as non-surgical options for the treatment of CECS with success through published case reports and case series. This study aims to evaluate the use of these non-surgical treatment options for CECS in the anterior and lateral leg compartments with a follow up for at least 2 years across multiple study sites.
The goal of the study is to determine how different types of Regional Anesthesia (nerve blocks) can be helpful to patients with lower extremity trauma who develop compartment syndrome (an increased pressure in the fascial compartments) which can occur after injury to the leg. This is a prospective, randomized study in healthy volunteers, who will undergo testing of the leg using a cuff inflation system, involving quantitative sensory testing (QST), questionnaire completion, with ultrasound scanning and nerve blocks in a supervised, monitored setting (BWH Clinical Investigation Center). Specific Aims 1. Determine the effect of adductor canal-saphenous nerve block (ACB) and popliteal-fossa nerve block (SNB-PF) vs no block on pressure and ischemic pain in a model of compartment syndrome. 1. Hypothesis: There will be minimal or no change in pressure pain threshold and tolerance and pain ratings with ACB alone 2. Hypothesis: There will be an increase in pressure pain threshold and tolerance and decrease in pain ratings with ACB plus popliteal-fossa nerve block (SNB-PF), compared to no block 2. Determine the concentration dependence of SNB-PF effect on pressure and ischemic pain by comparing increasing doses of local anesthetic. 1. Hypothesis: There will be a greater increase in pressure pain threshold and tolerance and great decrease in pain ratings with 1.5% mepivacaine than with 0.375% mepivacaine.
The open abdomen can occur as a result of various diseases. After infections of the abdomen, compartment syndromes or traumata, it is essential for survival (1). This condition of the open abdomen lasts from days to months. Within a very short time, the fascia and abdominal wall structures retract in such a way that direct abdominal closure is often impossible. In addition, there is a pronounced intraabdominal oedema, which additionally increases the space required by the abdominal organs. Therefore, it is clinically indispensable to increase the space of the intraabdominal organs in this life-threatening situation. After the laparotomy (opening of the abdomen) has been performed, it is therefore not closed. However, the natural traction on the abdominal wall, in particular on the fascia, the attached musculature as well as skin and subcutis, no longer exists in this situation. As a result, these structures retract over the period of the existing laparostoma. In the present study, the CE-certified medical device Fasciotens Abdomen will be used to prove the functionality of this device and the user feasibility. The basic principle of Fasciotens Abdomen is the ventrally directed pulling force on the two fascial edges via an external device with support on the thorax and pelvis. The possibility to apply a traction to the fascia from the moment of opening the abdomen without reducing the intraabdominal space is absolutely new and the rationale of this technique. The objective of this study is to prove the obvious prevention of fascial retraction through the Fasciotens Abdomen device.
Compartment syndrome can result from extremity trauma. It can also be caused by procedural cases that involve lower or upper extremity surgery. This condition results in muscle death, chronic pain, infection, and possible amputation. Early diagnosis is essential to institute interventions that can avoid complications. Subjective pain of the patient remains the mainstay for diagnosis. A method or device is needed that would improve our accuracy in diagnosing compartment syndrome. Ideally, this would be suited for single and/or continuous pressure read-outs. The aim is to reduce the incidence of missed compartment syndrome and diminish delays that would lead to significant disability. Despite awareness, delayed diagnosis and treatment occurs in modern orthopaedic practice. As noted in many studies, once a diagnosis has been made, immediate fasciotomy is necessary to provide the best chance for a favourable clinical result. Therefore, there is a need for improved devices in order to obtain an early and reliable diagnosis.