View clinical trials related to Shock.
Filter by:In this study, we will explore the feasibility of a randomized controlled trial that will compare high protein dose from ICU day 6 to 14 with moderate protein intake.
Inaccurate monitoring of mean arterial pressure (MAP) could lead to improper treatment in the form of excessive fluid infusion or unnecessary vasopressor therapy; therefore, accurate hemodynamic monitoring is crucial in treatment of septic shock. In critically ill septic patients treated with vasoactive drugs, many studies reported that radial arterial pressure monitoring significantly underestimates central arterial pressure. Insertion of a femoral line allowed a substantial reduction of the infusion rate of vasoactive drugs in these patients. These findings might imply that femoral placement of arterial lines is the gold standard for invasive arterial blood pressure monitoring in shock patient. Our study aimed to determine the difference between radial (peripheral) and femoral (central) arterial pressures measured simultaneously in a group of critically ill patients receiving high dose noradrenaline therapy (≥ 0.1 mcg/kg/min).
During shock, arterial hypotension, inadequate cardiac output and microcirculatory alterations lead to tissue hypoxia, multiple organ failure and death. Arterial lactate is considered as the best marker of tissue hypoxia. A lactate decrease during the first 6 hour is strongly associated with better outcome and may be used as a target for assessing the efficiency of shock resuscitation. The EIRUS system (Maquet Critical Care AB, 17154, Solna, Sweden) is a new device allowing the continuous measurement of venous lactate through a central venous catheter. However, before being used extensively, such device needs to be evaluated concerning its accuracy. The aim of the present study is to assess the reliability of this device.
Many observational studies have highlighted an independent association between fluid overload and clinical outcomes during septic shock. To optimize fluid balance, clinician has several options to consider carefully fluid administration and avoid fluid overload. More than a general restrictive approach, a pragmatic, individual tailored approach should be considered to optimize patients' hemodynamics during acute circulatory failure. Many advances in hemodynamic monitoring were described. Mini-fluid challenge appears to be a sensible method to use for bedside assessment to optimize fluid infusion. The next step for hemodynamic management in the ICU should be to test a hemodynamic goal-directed approach to better control fluid management and eventually improve patient's outcome. The main objective of the GOAL study is to evaluate a pragmatic optimization fluid management protocol tailored to each patient's hemodynamic status based on mini-fluid challenges. This intervention will be compared to usual management based on the latest guidelines. This intervention aims to decrease organ dysfunction during septic shock. This is the first large clinical trial designed to test this hypothesis.
Fluid therapy is often used as first line treatment of acute circulatory failure, aiming an increase in cardiac output (by improving preload) and in tissue perfusion. Depending on left ventricular systolic function, fluid challenge could lead to an increase in cardiac ouput and tissue perfusion, or only detrimental consequences (by fluid overload and aggravation of lung and tissues oedema, increase of morbi-mortality). Patients are defined as responders to fluid therapy if one can observe an increase of cardiac output up to 15% after fluid therapy (500ml of crystalloids): gold standard test used in most of the studies on the subject. Literature reports on heterogenous populations a reproductible and constant response rate to this fluid challenge of 50%. It seems reasonable to dispose of indices allowing to predict fluid responsiveness without resulting in fluid intake. Statics markers have been abandonned for several years and dynamics methods have been developped. In front of arrythmia, validated methods are scarce. Passive leg rising method appears to be the only one and it's validity seems to be less well documented than in sinusal patients. The purpose of this study is to determine a new method to assess fluid responsiveness in arrythmic patients. In atrial fibrillation, RR interval varies widely between cardiac cylces. Systolic interval remain constant. Variations will occure at expense of diastolic interval, or ventricular filling interval. One can reliably assume that when RR is longer, preload is rising. If the patient is on the ascendant part of the Franck-Starling curve, a longer RR should cause au greater VTI (Vitess Time Integral, surrogate of cardiac output). The evaluation by transthoracic echocardiography of the indice delta ITV / delta RR should determine the degree of fluid responsiveness in arrhythmic patients. After decision of fluid expansion, patients will have haemodynamic and echocardiographic data measured, delta ITV / delta RR indice assessed, then passive leg rising and fluid expansion with 500 ml of cristalloids administered, with evaluation of VTI (as surrogate of cardiac output) at each time. Fluid responders will be compared to non-responders to evaluate the diagnostic performances of the indice delta ITV / delta RR.
Sepsis is defined as a life-threatening event due to a dysregulated immune response to an host. Blood purification techniques may be considered as a therapeutic weapon to front sepsis and septic shock. Haemoadsorption is one of the known blood purification technique that is employed in this study, and it is based on the principle that whole blood, contacting the surface of proper designed sorbent, would be cleared of certain substrates. With haemoadsorption it is possible to de-circulate from bloodstream high molecular weight substances, such as cytokines.In this study Cytosorb® cartridge, based on haemoadsorption principle is applied on septic patients, suffering for acute kidney failure, along with continuous veno-venous haemodialysis (CVVH-D).Microcirculation has a crucial role in the natural history of sepsis. In this prospective observational non interventional study, 10 septic patients with an acute kidney failure that need CVVH are enrolled. The primary endpoint of the study is to verify an improvement in the density of microcirculatory vessels and in the quality of blood flow after exposure to Cytosorb®. These two parameters are well described synthetically by the Perfused Vessel Density (PVD). As secondary endpoints we also want to analyze the modification of microcirculation after haemoadsorption therapy: microvascular blood flow, described by the microvascular flow index (MFI) and peripheral tissue oxygen perfusion during Cytosorb® exposure using near infrared spectroscopy technique (NIRS)
The objective of this study is to survey the type and the amount of non-resuscitation fluids that patients with septic shock receives during their first 5 days of ICU admission.
Cardiogenic shock is usually defined as primary cardiac dysfunction with low cardiac output leading to critical organ hypo perfusion and tissue hypoxia. Despite progress in the management of cardiogenic shock, mortality remains unacceptably high. This significant mortality, close to 40 %, is partly due to profound alterations of microcirculatory blood flow in cardiogenic shock, leading to multi organ failure, despite restoration of macro-hemodynamic parameters such as blood pressure and cardiac output. The microcirculation is the terminal vascular network of the systemic circulation consisting of microvessels with diameters < 20 μm including arterioles, capillaries, and venules. This part of the circulation is critical as it is responsible for nutrient delivering and oxygen transfer from the erythrocytes in the capillaries to the parenchymal cells to meet their metabolic demands, but it is also the area where water, other gases, hormones and waste products are exchanged. Hence, the evaluation of clinical signs of peripheral hypoperfusion reflecting microvascular perfusion is of interest. We aimed to study these parameters such as skin capillary refill time (CRT), mottling and central-to-toe temperature difference (ΔTc-p) in a cardiogenic shock population. Assessing the prognosis of these microcirculation parameters and their interaction with macrocirculation parameters such as arterial pressure, cardiac index, left ventricular ejection fraction is also the aim of this study. Lastly, looking at the prognostic value of these markers seems interesting.
The objective of this study is to evaluate the effect of LJPC-501 infusion on mean arterial pressure (MAP) or reduction in sum norepinephrine (NE) equivalent dosing, at Hour 2 after the start of LJPC-501, in pediatric patients who remain hypotensive despite receiving fluid therapy and vasopressor therapy. In addition, this study will evaluate the safety and tolerability of LJPC-501 in pediatric patients, the change in MAP over 24 hours after the start of LJPC-501, the change in serum lactate concentrations, and the change in Pediatric Logistic Organ Dysfunction (PELOD) scores.
The LITES Network is an operational trauma center consortium which has the expertise, track record and confirmed capabilities to conduct prospective, multicenter, injury care and outcomes research of relevance to the Department of Defense (DoD). Hemorrhage and Traumatic Brain Injury (TBI) are responsible for the largest proportion of all trauma-related deaths. It is the poly-trauma patient who suffers both hemorrhagic shock and traumatic brain injury where a paucity of evidence exists to direct treatment, limiting the development of beneficial trauma practice guidelines. The use of Whole Blood (WB) for early trauma resuscitation has been touted as the 'essential next step' in the evolution of trauma resuscitation. Despite its historical and more recent use, little is known regarding WB's benefit relative to the 'current practice' ratio-based blood component therapy in the acutely bleeding patient, and even less is known regarding its effects in patients with TBI. AIM#1: Evaluate patient centered outcomes associated with early whole blood resuscitation practice as compared to component resuscitation in poly-trauma patients with hemorrhagic shock and further characterize outcome benefits in those with traumatic brain injury. AIM#2: Characterize blood pressure and resuscitation endpoints during the acute resuscitation phase of care and the associated/attributable outcomes for traumatic brain injury in patients with hemorrhagic shock. General Hypothesis #1: Whole blood resuscitation will be associated with improved mortality and resuscitation outcomes in poly-trauma patients and long term neurological outcome in those patients with traumatic brain injury as compared to those resuscitated with component therapy. General Hypothesis #2: Differences in prehospital and acute phase resuscitation systolic blood pressure will be associated with differential outcomes in patients with traumatic brain injury at discharge and at 6 months. Study Design: The LITES network will perform a multicenter, prospective, observational cohort study over a 4 year period to determine the impact of whole blood resuscitation in trauma patients with hemorrhagic shock at risk of large volume resuscitation with and without TBI. Early whole blood resuscitation will be compared to standard component resuscitation. The study will also further characterize blood pressure and resuscitation endpoints in poly-trauma patients with traumatic brain injury. Six Trauma sites with appropriate characteristics will be selected from 12 LITES Network sites across the country. Study Setting: The study will be performed utilizing busy level I trauma centers within the LITES Network located across the country, at sites where either whole blood has currently been incorporated into standard of care or where component blood transfusion is being utilized for patients in hemorrhagic shock at risk for large volume resuscitation. Study Population: The study will focus on patients who suffer blunt or penetrating injury, transported to a SWAT participating LITES trauma center with evidence of hemorrhagic shock at risk of large volume blood resuscitation.