View clinical trials related to Shock, Cardiogenic.
Filter by:Goal of the Study is to Study the precision of semi-invasive cardiac index monitoring by means of the ProAQT (PULSION Medical Systems SE) sensor, whereby the pulmonary artery catheter will serve as gold standard.
Cytokine hemoadsorption is a novel therapy used to improve outcome in critically ill patients with a dysregulated cytokine response and hemodynamic instability. Patients on extracorporeal membraneous oxygenation (ECMO) often develop severe systemic inflammatory response syndrome (SIRS). Cytokine removal using different types of hemoadsorption devices is believed to block the vicious circle of inflammation dysregulation when other basic therapeutic measures fail. To date there are very limited reports on ECMO and cytokine hemoadsorption combination therapy. The aim of this retrospective study is to evaluate feasibility and effectiveness of hemoadsorption in veno-arterial and veno-venous ECMO patients.
The Oxiris membrane is an AN-69 membrane whose surface is treated with polyethyleneimine (PEI) grafted with heparin. This property allows the removal of lipopolysaccharide and cytokines from the blood. During septic shock, this membrane has shown its effectiveness and made it possible to decrease the doses of vasopressors administered, thus limiting the negative consequences of their use (low mesenteric flow in particular). Moreover, the literature suggests that the use of the Oxiris membrane does not lead to side effects or specific and serious complications, in comparison with conventional extra-renal purification membranes. To our knowledge (Pubmed, clinicaltrial) there are no data in patients in cardiogenic shock assisted by ECLS. The research hypothesis is that the early addition of an Oxiris membrane to the ECLS circuit allows the removal of lipopolysaccharides and pro-inflammatory cytokines, thus controlling the inflammatory cascade and limiting vasoplegia and organ failure.
A multi-center, prospective randomized (1:1) pilot and feasibility study to evaluate the safety and feasibility of supersaturated oxygen (SSO2) therapy delivered for 60 minutes selectively into the culprit coronary artery of patients presenting with ST elevation myocardial infarction and cardiogenic shock (STEMI-CS) treated using a shock protocol.
This study aims to develop a predictive model for the outcomes of patients with cardiogenic shock
The use of venoarterial-extracorporeal membrane oxygenation(VA-ECMO) was associated with lower in-hospital mortality in patients with cardiogenic shock. However, VA-ECMO has a deleterious effect for hemodynamics. It can increase left ventricular end-diastolic pressure(LVEDP), followed by left ventricular dilatation, abnormal opening of aortic valve and jeopardizes of myocardial recovery. Therefore, several methods have been used to reduce LVEDP. Among these, left atrial septostomy is effective, but less invasive than surgical left ventricular unloading. However, there is few data regarding this issue. Therefore, the investigators will evaluate the effect of routine, early left atrial septostomy in patients with VA-ECMO for the treatment of cardiogenic shock.
In the last decade, venoarterial extracorporeal membrane oxygenation (VA-ECMO) has become the first-line therapy in patients with refractory cardiogenic shock. VA-ECMO provides both respiratory and cardiac support, is easy to insert, even at the bedside, provides stable flow rates, and is associated with less organ failure after implantation compared to large biventricular assist-devices that require open-heart surgery. In patients with potentially reversible cardiac failure (e.g. myocarditis, myocardial stunning post-myocardial infarction, post-cardiotomy or post-cardiac arrest), VA-ECMO might be weaned after a few days of support and used as a bridge to recovery. Although considered as the ultimate life-saving technology for refractory cardiac failure, veno-arterial ECMO is still associated with severe complications. Specifically, excessive LV afterload and lack of LV unloading under VA-ECMO might induce LV stasis with thrombus formation, pulmonary edema, myocardial ischemia caused by ventricular distension and ultimately increase mortality. ECMO support also exposes to many complications such as infections, hemorrhage or peripheral vascular embolism. These complications are more frequent with prolonged support and are responsible for significant morbidity and mortality, prolonged ICU and hospital stays and higher costs. Levosimendan, which acts to sensitize myocardial contractile proteins to calcium, improves cardiac contractility without increasing the intracellular calcium concentration. Unlike traditional inotropes such as dobutamine, levosimendan neither increases myocardial oxygen consumption nor impairs diastolic function or possess proarrhythmic effects. It also influences the opening of ATP-dependent potassium channels, including those in vascular smooth muscle cells, leading to coronary, pulmonary, and peripheral vasodilation and antiinflammatory, antioxidative, antiapoptotic, anti-stunning and cardioprotective effects. Additionally, Levosimendan which has a long lasting action (up to 7-9 d), resulting from the formation of active metabolite, may be used as a single 24h perfusion. In recent preliminary studies, the drug was associated with accelerated weaning from VA-ECMO and even improved survival. Therefore, a multicenter randomized trial with sufficient statistical power is needed in refractory cardiogenic shock patients supported by VA-ECMO to test if the early administration of Levosimendan can facilitate and accelerate VA-ECMO weaning, and ultimately translate in significantly less morbidity, reduced ICU and hospital length of stays and associated costs.
The most frequent access site for veno-arterial extracorporeal membrane oxygenation (VA-ECMO) is the common femoral artery (CFA), using either an open or percutaneous technique. Currently, percutaneous closure devices for femoral arterial access sites are approved for use only when a 10-F or smaller sheath has been used. However, the availability of the Perclose ProGlide (Abbott Laboratories, Chicago, IL) device has now made it possible to perform percutaneous vessel closure after using larger sheaths.The preclose technique using Perclose ProGlide, has been widely used in endovascular procedures. In a prospective randomized study, complication rates at the access site were similar in patients who underwent total percutaneous access (including percutaneous arteriotomy closure) than in those who underwent surgical cutdown and subsequent surgical closure. Total percutaneous closure of femoral arterial access sites increases patient comfort and decreases the rate of wound infections and lymphatic fistulas.[6,7] Furthermore, patients are mobilized and discharged earlier following the use of closure devices than with compression alone. Despite the above observations, no data have been published regarding percutaneous closure of femoral artery access sites in patients who have undergone VA-ECMO. In this study, we evaluated the safety and feasibility of a percutaneous closure technique using Perclose ProGlide to close the CFA access site after VA-ECMO.
The Cardiogenic Shock Working Group is a multicenter registry where we collect de-identified clinical variables from the medical records and follow-up phone calls of shock patients from multiple institutions and centralize this data to a single registry for analysis of clinical outcomes.
Cardiac surgery is at high risk of low cardiac output syndrome after procedure. Monitoring cardiac function, and especially cardiac output, is important to identify cardiovascular dysfunction and to introduce and adjust optimal therapies. Invasive monitor such as pulmonary arterial catheter or transpulmonary thermodilution provide precise measurements but need an invasive access to arterial and central venous route, with possible complications. Cardiographic bioimpedencemetry (Niccomo device, Imedex Corp) allows a non invasive measurement of cardiac output and some other parameters of cardiovascular function. Nevertheless, the reliability of this device has been little studied after cardiac surgery.