18 Clinical Trials for Various Conditions
Critically ill children supported by extracorporeal membrane oxygenation (ECMO) receive large volumes of prophylactic platelet transfusions to prevent bleeding. However, mounting evidence has demonstrated significant morbidity and mortality associated with these transfusions. The ECmo hemoSTAtic Transfusions In Children (ECSTATIC) pilot trial will test two different platelet transfusion strategies, based on two different platelet counts thresholds, one high (higher platelet transfusion strategy) and one low (lower platelet transfusion strategy). The pilot will gather the necessary information to perform a full trial which will provide a better understanding of how to transfuse platelets to children supported by ECMO and reduce the associated morbidity.
Decannulation from venovenous extracorporeal membrane oxygenation (VV-ECMO) at the earliest and safest time would be expected to improve outcomes and reduce cost. Daily assessments for readiness to liberate from therapies have demonstrated success in other realms of critical care. A recent single-center study demonstrated that a protocolized daily assessment of readiness for liberation from VV-ECMO was feasible and did not raise any major safety concerns, but the effect of this protocolized daily assessment on clinical outcomes remains unclear. Further, the manner in which ECMO is provided, weaned, and discontinued varies significantly between centers, raising persistent concerns regarding widespread adoption of protocolized daily assessment of readiness for liberation from VV-ECMO. Data from large a randomized controlled trial is needed to compare the effects of a protocolized daily assessment of readiness for liberation from VV-ECMO versus usual care on duration of ECMO support and other clinical outcomes.
This study aims to assess the feasibility of assessing acute brain injury using a portable low field MRI in patients on ECMO.
This study will evaluate heparin as compared to bivalirudin for systemic anticoagulation in adult patients that require extracorporeal membrane oxygenation (ECMO). Half of the participants will receive heparin and half will receive bivalirudin.
This is an open label, randomized study comparing the clinical outcomes of unfractionated Heparin and Bivalirudin for anticoagulation in adult subjects requiring ECMO support.
The investigators will prospectively enroll 30 neonatal and pediatric ECMO patients at a single pediatric Level 1 trauma center. The patients will be randomized into two arms; one arm will receive unfractionated heparin and the other arm will receive bivalirudin. There will be 15 patients in each arm for a total of 30 patients. Primary aim will be to compare the efficacy of bivalirudin to unfractionated heparin.
The investigators propose a robust therapeutic intervention to ameliorate myocardial ischemia/ reperfusion injury and significantly decrease morbidity and mortality in patients requiring extracorporeal membrane oxygenation (ECMO), by direct injection of autogeneic mitochondria into the ischemic myocardium.
The potential role of ATIII in achieving and maintaining adequate anticoagulation in pediatric patients on the heart-lung machine has recently taken on increased importance as caregivers strive to mitigate the risk for clinically significant clotting problems. It is known that ATIII levels are decreased in normal neonates and infants less than 6 months of age relative to older children and adults and become even further decreased in critically ill neonates and infants, including those with congenital heart disease. The current utilization of ATIII in the context of support on a heart-lung machine is based on pharmacokinetic data derived from adult subjects with congenital ATIII deficiency. There is a gap in knowledge as to the appropriate frequency of ATIII repletion, best method of monitoring, and mode of administration in critically ill neonates and infants receiving support on a heart-lung machine.Our long-term goal is to determine if antithrombin (ATIII) can effectively change the coagulation system in patients undergoing heart-lung machine support. The objective of this proposal, which is our first step in pursuit of that goal, is to determine the pharmacokinetics of ATIII in neonates and infants. Our central hypothesis is that ATIII will have different pharmacokinetic properties in neonates and infants than adults and these properties will be affected by the use of heart-lung machine. This research will result in critical data on the pharmacokinetics of ATIII in neonates and infants receiving heart-lung machine support. This contribution is significant because it is the first step in a continuum of research that is expected to lead to the development of a therapeutic strategy employing ATIII that will facilitate improved modulation of the coagulation cascade to prevent significant clotting and bleeding complications in pediatric patients requiring heart-lung machine support.
To create a local registry for ECMO patients.
The primary objective is to characterize the prevalence and type of ABI following cannulation for pediatric patients who require ECMO support. The secondary objective is to describe the time course and rates of ABI using ultralow-field bedside MRI relative to both duration of ECMO support and clinical imaging obtained in routine care of pediatric ECMO patients.
The primary object of the study is to further characterize safety and feasibility of low-field bedside MRI in pediatric and neonatal ECMO patients. To perform imaging assessments of an early-stage magnetic resonance imaging (MRI) system on patients using low field magnetic strength. Collect qualitative data from the image assessments to optimize device performance using a low field magnetic resonance imaging device in a simulated use environment; Collect qualitative data from the image assessments using a high field magnetic resonance imaging, computed tomography and ultrasound devices. Generate anonymized image data for post-acquisition evaluation, performance measuring and planning for subsequent study size
Acute compartment syndrome (ACS) is a surgical emergency that can develop in patients on extracorporeal membrane oxygenation (ECMO). ACS is a type of limb ischemia, which means that the limb, such as the arm or leg, loses blood flow. Patients on ECMO can develop this condition for many reasons, but most commonly from the ECMO procedure itself. This most commonly involves the leg. Key symptoms of ACS include severe pain, loss of pulses, loss of feeling, and inability to move the limb. However, because patients on ECMO are often sedated, ACS is difficult to diagnose as patients can not report symptoms. As a result, the only available tool for diagnosing ACS may be measurement of pressures in the limb. This is normally done with a needle-device, which is inserted into the leg for a single measurement. However, a recently developed device, called the MY01 Continuous Compartment Pressure Monitor, allows for continuous pressure readings instead of a single measurement. Multiple measurements may allow for much greater accuracy in diagnosing ACS, which may result in faster time to surgery and potentially save more limbs than single measurements. This device may also be less invasive than an older method of continuous pressure measuring, which uses a needle and tubing that is 14-gauge in size. Therefore, this study aims to compare 3 different types of methods for diagnosing ACS in patients on ECMO, which are 1) Standard of Care, 2) Standard of Care and MY01, and 3)Standard of Care and 14-gauge slit catheter.
Patients in end-stage cardiac failure and/or respiratory failure may be started on a rescue therapy known as Extracorporeal Membrane Oxygenation (ECMO). One of the major clinical questions is how to manage the ventilator when patients are on ECMO therapy. Ventilator Induced Lung Injury (VILI) can result from aggressive ventilation of the lung during critical illness. VILI and lung injury such as Acute Respiratory Distress Syndrome (ARDS) can further increase the total body inflammation and stress, this is known as biotrauma. Biotrauma is one of the mechanisms that causes multi-organ failure in critically ill patients. One advantage of ECMO is the ability to greatly reduce the use of the ventilator and thus VILI by taking control of the patient's oxygenation and acid-base status. By minimizing VILI during ECMO we can reduce biotrauma and thus multi-organ failure. Since the optimal ventilator settings for ECMO patients are not known, we plan to study the impact of different ventilator settings during ECMO on patient's physiology and biomarkers of inflammation and injury.
This is a Phase II, single center (Under the Center for Resuscitation Medicine at the University of Minnesota Medical School), partially blinded, prospective, intention to treat, safety and efficacy clinical trial, randomizing adult patients (18-75 years old) with refractory ventricular fibrillation/pulseless ventricular tachycardia (VF/VT) out-of hospital cardiac arrest (OHCA) who are transferred by emergency medical services (EMS) with ongoing mechanical cardiopulmonary resuscitation (CPR) or who are resuscitated to receive one of the 2 local standards of care practiced in our community: 1) Early Extracorporeal Membrane Oxygenation (ECMO) Facilitated Resuscitation or 2) Standard Advanced Cardiac Life Support (ACLS) Resuscitation
This study will examine the pharmacokinetics of the various, routinely given antibiotics, sedatives, and opioids in patients undergoing venous-venous extra-corporal oxygenation (ECMO). Little is known about the distribution and effectiveness of antibiotics in this particular patient population.
Heparin is a blood thinner used to prevent blood clots in patients on a form of life-support called ECMO. Heparin can cause bleeding - the most common complication of ECMO. New materials used in ECMO machines may help prevent clots - this could allow the use of lower doses of heparin which might reduce the risk of bleeding. Our study will compare low dose to high dose heparin in patients on ECMO. We think low dose heparin may be adequate to prevent clotting, but may cause less bleeding and be safer for patients.
The purpose of this study is to evaluate echocardiographic markers of cardiac function to assess the ability of patients to successfully end VA-ECMO support.
This study seeks to compare outcomes of 2 different methods of cardiopulmonary support during lung transplant surgeries.