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Active clinical trials for "Shock"

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Impact of Early Low-Calorie Low-Protein Versus Standard Feeding on Outcomes of Ventilated Adults...

Critical IllnessShock3 more

Among critically ill patients requiring mechanical ventilation and catecholamines for shock, nearly 40% to 50% die, and functional recovery is often delayed in survivors. International guidelines include early nutritional support (≤48 h after admission), 20-25 kcal/kg/d at the acute phase, and 1.2-2 g/kg/d protein. These targets are rarely achieved in patients with severe critically illnesses. Recent data challenge the wisdom of providing standard amounts of calories and protein during the acute phase of critical illness. Studies designed to improve enteral nutrition delivery showed no outcome benefits with higher intakes. Instead, adding parenteral nutrition to increase intakes was associated with longer ICU stays and more infectious complications. Studies suggest that higher protein intakes during the acute phase may be associated with greater muscle wasting and ICU-acquired weakness. The optimal calorie and protein supply at the acute phase of severe critical illness remains unknown. NUTRIREA-3 will be the first trial to compare standard calorie and protein feeding complying with guidelines to low-calorie low-protein feeding potentially associated with improved muscle preservation, translating into shorter mechanical ventilation and ICU-stay durations, lower ICU-acquired infection rates, lower mortality, and better long-term clinical outcomes. This multicentre, randomized, controlled, open trial will compare, in patients receiving mechanical ventilation and treated with vasoactive agent for shock two strategies for initiating nutritional support at the acute phase of ICU management (D0-D7): early calorie/protein restriction (6 kcal/kg/d/0.2-0.4 g/kg/d, Low group) or standard calorie/protein targets (25 kcal/kg/d/1.0-1.3 g/kg/d, Standard group). Patients in both groups will receive enteral or parenteral nutrition appropriate for their critical illness. Two alternative primary end-points will be evaluated: all-cause mortality by day 90 and time to discharge alive from the ICU. Second end-points will be calories and proteins delivered, nosocomial infections, gastro-intestinal complications, glucose control, liver dysfunctions, muscle function at the time of readiness for ICU discharge and quality of life at 3 months and 1 year after study inclusion.

Completed10 enrollment criteria

Pediatric Immune Response to Infectious Shock

Severe Pediatric Infectious Shock

Infectious shocks are associated with high mortality rates (20-40%). Anti-inflammatory strategies based on the postulate that mortality related to sepsis is mainly due to an overwhelming pro-inflammatory immune response have failed. Some patients surviving this initial phase can develop immune dysfunctions because the compensatory mechanisms become deleterious when they persist over time. The persistence of immunosuppression at day 3 or 5 is independently associated with more nosocomial infections and higher mortality rate. The clinical and laboratory evidence for sepsis induced immunosuppression have been recently reviewed by Hotchkiss et al. Apoptosis-induced depletion of immune effector and blood studies from septic patients showed decreased production of pro-inflammatory cytokines, decreased HLA-DR expression, increased percentage of regulatory T cells, and increased production of programmed cell death (PD)-1. Some small positive phase 2 trials of biomarker guided immune enhancing agents granulocyte-macrophage colony stimulating factor (GM-CSF) and interferon γ (IFN γ) have been reported. There are insufficient data showing that such an immunosuppression exists in children. Only one study performed in children with organ dysfunctions admitted to pediatric intensive care unit (PICU), showed that 34% of them developed immunosuppression. This study was performed on a heterogeneous population and immunological analyses were limited. Therefore, there is a crucial need of studies on septic patients with matched controls to provide more evidence that the same paradigm exists in children. The collaboration of laboratories with a high level of experience in this domain, and a clinical unit with a high potential of recruitment of children with severe infectious shock should allow us to perform the first prospective study specifically done in children with infectious shock. The main hypothesis is that children with severe infectious shock developed sepsis-induced immunosuppression as shown in adults. This will be assessed by the expression of HLA-DR on monocytes' surface. We make the hypothesis that children who become immunosuppressed are more prone to develop secondary nosocomial infectious and stayed longer in PICU and in hospital. Children aged from 1 month to 17 years, admitted to PICU at HFME Lyon-Bron are eligible if they have the criteria for severe sepsis or septic shock, defined by the "Surviving Sepsis Campaign 2012" or those of Toxic Shock Syndrome (TSS) (definitions of CDC - Center for Disease Control). An information leaflet will be issued to parents and children / adolescents and they will be informed of their right to object to the search. Are provided as part of this research: Immunological measures (mHLA -DR) in three stages: in the first 48 hours, between D3/5 and D7/9. The volume of collected blood will not exceed 2.4 ml / kg. The collection of nosocomial infections and status at D30 A control group of patients hospitalized for surgery without sepsis or toxic shock criteria will be recruited in the same hospital by ICU investigators and matched for age. Similarly controls will be given oral and written information and they will have the opportunity to deny inclusion. They will have the same exams as the first group of patients.

Completed13 enrollment criteria

Lung Collapse With Bronchial Blocker

Video-assisted Thoracoscopic SurgeryLung Isolation Device3 more

Lung isolation is frequently used during thoracic surgery. Two techniques are principally used: the double lumen tube (DLT) and the bronchial blocker (BB). BB is easy to use but its reputation is darken by the need of multiple repositioning during surgery and especially by a slower lung collapse than the DLT. Reading recent literature on the subject and according to the vast experience of numerous hospital centers, it seems that the slowness of lung collapse remains without any solution. This slowness in lung deflation is detrimental to the initiation of video-assisted thoracoscopy surgery (VATS) and could be exacerbated in chronic obstructive disease (COPD) patients. For this reason, BB use is discredited in numerous centers. However, at IUCPQ, the investigators rarely observe slow lung collapse when BB are used. For many years, the investigators have used a systematic denitrogenation of the lung before the initiation of one lung ventilation (OLV). Furthermore, when the patient is positioned in lateral decubitus, the investigators impose an apnea period of about 30 seconds to favor collapse of the isolated lung before inflating the cuff. This apnea is always limited by the occurrence of oxygen desaturation (≤97%). The investigators also proceed to a second period of apnea of 30 seconds associated to a deflated BB's cuff at the pleural opening. Subsequently, the investigators inflate the BB's cuff to obtain definitive lung isolation. The investigators hypothesis is that the use of two apnea periods, when isolating the lung with a BB, will allow the same quality of surgical exposure at 0, 5, 10 and 20 minutes post opening of the pleura, compared to the one obtained with a DLT. The main objective of this study is first to compare the delay between the initiation of OLV and complete lung collapse obtained with BB and DLT, in two groups of patients undergoing VATS. Secondary objectives are: 1) to evaluate the quality of surgical exposure associated to the level of lung collapse, 2) to evaluate the quality of surgical exposure through the video camera, 3) to collect surgeons' opinion regarding the device (BB or DLT) that they thought was used during surgery. After obtaining institutional review board (IRB) approval, the investigators propose a study of 40 patients undergoing an elective VATS at the Institut universitaire de cardiologie et pneumologie de Québec (IUCPQ) involving an one lung ventilation. They will have to be 18 years old or more, to read, understand and sign an informed consent at their pre-operative evaluation. This study will be prospective, randomized, and blind to thoracic surgeons.

Completed17 enrollment criteria

Population Pharmacokinetics and Monte Carlo Dosing Simulations of Meropenem During the Early Phase...

Initial Phase of Severe Sepsis and Septic Shock

This is a prospective, noncomparative study to assess the pharmacodynamics of meropenem during early phase of severe sepsis and septic shock in critically ill patients in an intensive care unit. Clinical and laboratory data such as age,sex, body weight, electrolyte, vital signs, APACHE II score, SOFA score, BUN, Cr and blood culture will be collected. Twelve patients will be enrolled in this study. Meropenem pharmacokinetic will be carried out during the first and second dose after 1g meropenem administration. Blood samples (approximately 3 ml) will be obtained by direct venepuncture at the following time: 0, 0.25, 0.5, 1, 1.25, 1.5, 2, 2.5, 3, 4, 5, 8, 8.5, 9, 9.5, 10, 12, 14 and 16 h. Meropenem assays will be performed by modified method of Ozkan et al. (Biomed. Chromatogr., 2001). The pharmacokinetics of meropenem will be modelled from concentration-time profile using compartmental model. Monte Carlo simulation to assess PK/PD index as 40% and 100% T>MIC will be conducted and the results will be reported as % PTA (Probability Target Attainment) and %CFR (Cumulative Faction Response)

Completed4 enrollment criteria

Efficacy Study of LV Assist Device to Treat Patients With Cardiogenic Shock (ISAR-SHOCK)

ShockCardiogenic1 more

The purpose of this study is to evaluate the efficacy and safety of a left ventricular assist device in comparison to a standard treatment with an intraaortic balloon pump (IABP) in patients with cardiogenic shock due to left ventricular failure following an acute coronary syndrome (myocardial infarction).

Completed20 enrollment criteria

Red Blood Cell Transfusion Improves Perfusion Parameters in Septic Shock Patients With Hypoperfusion...

Septic Shock

The purpose of this study was to evaluate the immediate effects of red blood cells transfusion on central venous oxygen saturation and lactate levels in septic shock patients randomized to two different hemoglobin levels. The influence of red blood cell (RBC) transfusion on the adequacy of oxygen delivery (DO2) and supply (VO2) could be assessed by systemic oxygen variables such as central venous oxygen saturation (ScvO2) and lactate levels. Although it is not clear that alterations in these parameters actually represent an improvement in the DO2/VO2 ratio, they might represent a better transfusion trigger than the absolute hemoglobin value. Patients admitted with a diagnosis of septic shock and hemoglobin levels lower than 9.0 g/dL , less than 48 hours of shock diagnosis, were included, a central venous catheter in the superior vena cava and signed informed consent. The investigators randomized all patients into two groups. Patients in the liberal group received transfusions immediately, as the objective was to maintain hemoglobin levels above 9.0 g/dL. In the restrictive group, transfusion was withheld until their hemoglobin levels fell below 7.0 g/dL. Each time a patient received a transfusion, the investigators collected a set of laboratory tests, including hemoglobin levels, ScvO2 and lactate, at two time points, immediately before transfusion and one hour after its ending. The sample size was calculated by considering that in 80% of the transfusions in patients in the restrictive group ScvO2 would improve compared to only 45% of those in the liberal group, with an alpha error of 0.05 and 80% power. Improvement was defined as an increase of 5% over the pre-transfusion ScvO2. Twenty-eight transfusions in each group would be necessary, but to correct for potential non-parametric distribution of the main variables, the number was adjusted to 35 transfusions in each group. Trends in ScvO2 and lactate were categorized as worsening or improving. The investigators defined improvement when ScvO2 reached 70% in patients with baseline levels below this threshold or when there was an absolute increase of at least 5% after transfusion. Any increase in patients with previous ScvO2 ≥ 70% was considered to be "no change". Worsening was defined as a reduction of 5% in the previous levels or a decline to less than 70% in patients with pre-transfusion levels in the range of 70 to 75%. The investigators also carried out a ROC curve analysis to assess the accuracy of the pre-transfusion hemoglobin levels, pre-transfusion lactate and pre-transfusion ScvO2 in predicting the patients whose ScvO2 would increase more than 5% with transfusion. For this analysis, the investigators used a different approach because it would also be necessary to analyze patients with a lower chance of response to assess the prediction of response. Thus, this analysis included all patients with ScvO2 below 75%, rather than only those below 70%. As before, the investigators defined improvement as any increase ≥ 5%. The investigators did not consider patients with levels above 75% in this analysis, as the physiological interpretation of this situation is challenging. The investigators considered as altered any lactate levels above 1.5 times the reference level, and a change ≥ 10% was defined as improvement or worsening. In patients with baseline normal levels, the status was recorded as worsening if a 10% increase was detected. Afterwards, the investigators tested the association between these categorized variables and the baseline levels of hemoglobin. The impact on perfusion was also assessed by the determination of Δlactate (lactate post-transfusion x 100/lactate pre-transfusion) and ΔScvO2 (ScvO2 post-transfusion x 100/ScvO2 pre-transfusion), and their correlation with the baseline hemoglobin levels was analyzed using the Spearman correlation test. In all tests, the results were considered significant if the p level was lower than 0.05.

Completed9 enrollment criteria

The Alternating Bidirectional Versus The Standard Approach During Shock Wave Lithotripsy For Renal...

Urologic DiseasesStones4 more

compare the outcomes of SWL for renal and upper lumbar ureteric stones using the alternating bidirectional approach versus the standard approach.

Unknown status14 enrollment criteria

Registry for Cardiogenic Shock: Utility and Efficacy of Device Therapy

Heart FailureCardiogenic Shock

The purpose of this study is to gather information on patients who have heart failure and are eligible for one of the following two procedures: 1) mechanical support, i.e. ventricular assist device (VAD) or 2) heart transplant. the study seeks to determine which patient populations benefit from heart transplant or ventricular assist device. This will allow to offer the state-of-the-art care to the patients in heart failure.

Terminated3 enrollment criteria

The Effect of Rapid Fluid Challenge Under Pulmonary Artery Catheter Monitoring on Physiological...

Septic Shock

Fluid challenge is often carried out in septic shock patients. Its responsiveness usually requires invasive monitoring. The pulmonary artery catheter(PAC) is the most effective means of monitoring.To use non-invasive methods is very tempting. Investigators hypothesize that venous-to-arterial carbon dioxide difference,venous-to-arterial carbon oxygen difference, central venous-arterial carbon dioxide to arterial-venous oxygen content ratio and Central Venous SO2 variations provides feasible estimation on fluid responsiveness in septic shock patients.

Unknown status8 enrollment criteria

The Effects of Oxiris on Systemic Inflammation and Endothelial dysFunction

Acute Kidney Injury Due to Circulatory Failure (Disorder)

CS-AKI occurring in 20% to 70% of cases depending of the type of cardiac surgery. The systemic inflammatory response is often observed and associated with increased risk of AKI. Cardiopulmonary bypass (CPB) induces a complex inflammatory response that has a multifactorial pathogenesis. The inflammatory response is triggered by exposure of the blood to artificial surfaces during extracorporeal circulation, ischemia/reperfusion injuries, translocation of gram-negative bacteria from the intestinal tract, small amounts of LPS in IV solutions. SIRS during CPB with high levels of inflammatory mediators, active complement proteins and LPS provoke endothelial dysfunction- retraction of endothelial cells with increasing vascular permeability and thrombogenic activity, also inflammatory mediators activate leukocytes and they enhance vascular permeability by affecting endothelial cells and vascular basement membrane. The systemic inflammation and endothelial dysfunction are the basis for multiple organ dysfunction syndrome. Vascular integrity damage during cardiac surgery entail redistribution of fluids with interstitial fluid accumulation and require accurate volume control (pertinent removal of "CPB priming volume"), especially in patients with CKD (low GFR) with high risks of AKI.

Unknown status2 enrollment criteria
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