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Active clinical trials for "Shock, Septic"

Results 641-645 of 645

Investigation of the Role of Brain Natriuretic Peptide and Lactate in Early Goal-directed Therapy...

SepsisSeptic Shock

B-type natriuretic peptide (BNP) is a cardiac neurohormone which rapidly released by the ventricle in response to myocardial stretch. BNP has been used as a biomarker of sepsis related cardiac dysfunction and volume overload in critical ill patients. It is also a marker associated with prognosis in patients with severe sepsis and septic shock. However, the clinical utility of BNP level in management of early severe sepsis and septic shock over the first 48 hours is not clear. Besides, Lactate represents as a maker of tissue hypoperfusion, which has been used as a guide therapy for sepsis patients and high serum lactate level is independently associated with mortality in severe sepsis. Today, in management of early severe sepsis and septic shock, current guideline emphasize the early goal-directed therapy (EGDT) with achieving the central venous pressure (CVP) level 8-12 mmHg by fluid support first, then targeting the next goal to maintain mean airway pressure (MAP) at least 65 mmHg by vasopressor agent (ie, Norepinephrine) and finally keeping central venous oxyhemoglobin saturation (ScvO2) > 70% via optimal Hct > 30% and dobutamine usage within first 6 hours of emergency department admission. However, the role of BNP and lactate in patients with severe sepsis and septic shock with or without myocardial dysfunction under EGDT management are not clear. The investigators will conduct a prospective observational study to investigate the change of BNP and Lactate within 48 hours in early severe sepsis and septic shock under EGDT management, their association of cardiac dysfunction and their role in predicting various clinical outcome. The investigators also want to see if BNP and lactate could be useful tools to guide the adjustment of optimal fluid supply and the timing of inotropic agent intervention.

Unknown status19 enrollment criteria

Cardiac Stress in Septic Shock - Biomarkers, Echocardiography and Outcome

Septic ShockLeft Ventricular Systolic Dysfunction1 more

Septic shock is a major cause of death in intensive care. Septic shock is often dominated by profound changes in organ functions, of which cardiac failure is one of the most severe. In septic shock, biological markers of cardiac stress are often elevated. It is not known to what extent this indicates structural damage to the heart, or in what way they correlate to echocardiographic signs of heart failure. Here, cardiac failure in ICU patients with septic shock is studied, using biological markers of cardiac stress, inflammatory parameters and echocardiography. Investigators hypothesize that biomarkers of cardiac stress correlate with echocardiographic signs of heart failure, and that they can predict an increased risk of death.

Unknown status3 enrollment criteria

TOADS Study: TO Assess Death From Septic Shock.

Septic Shock

The aim of this study is to assess the causes of death in patients with septic shock in French intensive care units. It is an epidemiologic and descriptive study .

Unknown status6 enrollment criteria

Reversibility of Diastolic Disfunction in Septic Shock

Diastolic DysfunctionSeptic Shock

Objectives: To study the prognostic value of the evolution of diastolic function according to fluid balance in patients admitted to the ICU with a diagnosis of septic shock, in terms of mortality (ICU and hospital) and mortality at 90 days. 2.4. Secondary objectives: A) Incidence and reversibility of myocardial dysfunction (left ventricular systolic and diastolic) in septic shock. B) Incidence and reversibility of diastolic dysfunction according to the echocardiographic criterion used. C) Incidence and reversibility of right ventricular systolic dysfunction.

Unknown status7 enrollment criteria

Evaluation of Immunosuppression in Septic Shock: Biomarkers and Pharmacological Restoration (IMMUNOSEPSIS)...

Immunology of Septic Shock

Septic syndromes (systemic inflammatory response associated with infection) remain a major although largely under-recognized health care problem and represent the first cause of mortality in intensive care units. While it has long been known that sepsis deeply perturbs immune homeostasis by inducing a tremendous systemic inflammatory response, novel findings indicate that sepsis indeed initiates a more complex immunologic response that varies over time, with the concomitant occurrence of both pro- and anti-inflammatory mechanisms. As a resultant, after a short pro-inflammatory phase, septic patients enter a stage of protracted immunosuppression. This is illustrated in those patients by reactivation of dormant viruses (CMV or HSV) or infections due to pathogens, including fungi, which are normally pathogenic solely in immunocompromised hosts. These alterations might be directly responsible for worsening outcome in patients who survived initial resuscitation as nearly all immune functions are deeply compromised. Both arms of immunity (innate and adaptive) are indeed markedly suppressed (including enhanced leukocyte apoptosis, lymphocyte anergy and deactivated monocyte functions). New promising therapeutic avenues are currently emerging from those recent findings such as adjunctive immunostimulation for the most immunosuppressed patients. The prerequisite for immunostimulation administration (IFNg, GM-CSF, IL-7) however relies on the investigators capacity in identifying the patients who could benefit from it, as there is no clinical sign of immune dysfunctions. The main objectives are: to identify the best biomarkers for sepsis-induced immunosuppression and to evaluate ex vivo whether drugs could rejuvenate immune functions.

Unknown status6 enrollment criteria
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