View clinical trials related to Shock, Septic.
Filter by:Sepsis is defined as life-threatening organ dysfunction caused by a dysregulated host response to infection. Intensive care unit (ICU) mortality in patients with septic shock and acute kidney injury (AKI) requiring continuous renal replacement therapy (CRRT) remains high and approximates 50-60%. Sepsis is the leading etiology for AKI and CRRT requirement in ICU patients. In septic shock, the dysregulated host response to infectious pathogens leads to a cytokine storm with uncontrolled production and release of humoral pro-inflammatory mediators. These pro-inflammatory mediators and cytokines exert cellular toxicity and promote the development of organ dysfunction and increased mortality. In addition to treating AKI, CRRT techniques can be employed for adsorption of inflammatory mediators extracorporally using specially developed adsorption membranes, hemoperfusion sorbent cartridges or columns. Several methods and devices, such as Oxiris®-AN69 membrane, CytoSorb® cytokine hemoadsorption and polymyxin B (Toraymyxin) endotoxin adsorption and plasmapheresis have been evaluated in small study series but to date the data on outcome benefits remains controversial. HA380 (Jafron Biomedical Co , Ltd, Zhuhai, China) is a CE-labeled hemoadsorption cartridge developed to treat patients with septic shock. It contains hemo-compatible, porous polymeric beads that adsorp cytokines and mid-molecular weight toxins on their surface. The cytokines absorved using this cartridge are IL-1, IL-6, IL-8, IL-10 in addition to TNF-α8. Therefore, this study aims to examine the potential effects of cytokine adsorption using HA380 in addition to hemodiafiltration with the Oxiris®-AN69 membrane on ICU- and 90-day mortality in patients with septic shock and AKI.
To assess the performance of the CytoSorb® 300 mL device for shock reversal in patients with vasoplegic septic shock.
The assessment of left ventricular systolic function is based on the measurement of left ventricular ejection function (LVEF) by the Simpson biplane method. More recently, left ventricular global longitudinal strain (GLS) has been developed to detect abnormalities of cardiac contractility in patients with preserved myocardial contractility. However, both tools are not always easy to collect in practice. This is why other ultrasound parameters have been proposed in the literature as a substitute for LVEF and GLS such as the Doppler tissue imaging (DTI)-derived mitral annular systolic peak S-wave velocity (S'), the mitral annular plane systolic excursion (MAPSE) and the longitudinal wall fractional shortening index (LWFS). The purpose of this project is to propose an algorithm using simple parameters (S' wave, lateral MAPSE, septal MAPSE, mean MAPSE and LWFS) to predict LVEF and GLS in order to diagnose patients with impaired systolic function and preserved ejection.
In recent years, many studies have pointed out that bacterial toxin storm and cytokine storm are the main causes of patients with septic shock and multiple organ dysfunction. Endotoxins are the main mediators of gram-negative bacteria causing systemic inflammation and sepsis. Endotoxins can interact with Toll- Like receptor 4 (TLR4) binding and trigger cytokine storms. The triple-effect blood purification filter has been proven to remove endotoxins, cytokines and urinary toxins, and it has the opportunity to improve shock in patients with sepsis. We hypothesize that blood purification using the three-effect filter can shorten the duration and severity of shock in patients with severe septic shock and reduce the organ damage by removing endotoxin, cytokine and urinary toxins. The primary aim of this study is to investigate the effect of blood purification using the three-effect filter on shortening the duration of septic shock. Other exploratory variables include the reduction of severity of organ damage and other clinical outcomes and prognosis.
The mini fluid challenge (mini_FC) is a functional hemodynamic test which has been used in different clinical contexts to assess fluid responsiveness. This test is performed by rapidly injecting a small aliquot of fluid (100 ml over 1 minute), which is followed by the infusion of the residual aliquot of fluid. Since the threshold of the mini_FC identified by the literature is rather small (5% of stroke volume (SV) increase after the 100 ml bolus to discriminate between responder and non-responder), it is crucial that the hemodynamic tool assessing this change could be reliable. Moreover, the SV changes with inspiratory/expiratory movements and the increase after the mini_FC should also consider the physiological fluctuations of the SV. In the literature this test has been performed by means of tolls with different least significant change of the SV. The least significant change (LSC) represents the smallest difference between successive measurements of SV that can be considered to be a real change and not attributable to chance. The purpose of this study is to assess the agreement among MOSTCARE system (4.5& of SV LSC described in the literature) and the echocardiography (about 10% of SV LSC described in the literature) with the PICCO system (about 1% of SV LSC described in the literature - considered the gold standard) in discriminating fluid responsiveness after a mini_FC
Background: Recent studies have questioned the safety of current fluid resuscitation strategies in patients with septic shock as prospective and observational data suggesting that the resulting fluid overload is associated with mortality. Two strategies have evolved to prevent or minimize fluid overload: restrictive fluid administration or active removal of accumulated fluid. While several small trials show benefits with a restrictive fluid administration regimen, active protocolized de-resuscitation was scarcely evaluated. The combination of both strategies yet warrants systematic evaluation. Aim: This study aims to assess the efficacy and feasibility of an early active de-resuscitation protocol in patients with septic shock. We hypothesize that the application of a structured early de-resuscitation protocol versus standard of care will lead to less fluid overload at day three after ICU admission. Study Intervention: Patients admitted to the ICU with confirmed or suspected septic shock (Sepsis-3 definition) will be randomized (1:1) to either the intervention or standard of care. In the intervention arm, patients are managed according to the REDUCE fluid management protocol during resuscitation and de-resuscitation.
The objectives of this study are to evaluate the effect of continuous intravenous Landiolol injection (from 0.5 to 10 µg/kg/min during 12 hours ) up to a 15% decrease in Heart Rate (HR) on microcirculatory vascular reactivity vs. usual tachycardia management and evaluate the hemodynamic effects of Landiolol vs. usual management in patients with septic shock.
This clinical study adopts the design of cohort research, selects the sepsis shock patients admitted to our hospital ICU as the research object, takes the 28-day mortality rate as the outcome index, collects the baseline data of the patient, the severity of the disease, vital signs, the main infection site, the laboratory-related index, the treatment method and other data, screens out the risk factors affecting the sepsis shock 28-day mortality rate and constructs the prediction model accordingly, analyzes the prediction model with the subject's working characteristic curve (ROC). The recognition ability of the model is calculated by the area under the ROC curve (AUC) and the ability of the model to predict 28-day mortality with SOFA and APACHE II.
Glycemic imbalances are very common in shock patients admitted to intensive care units. A blood glucose control every 2 hours is routinely performed in patients requiring insulin therapy. In practice, we use a protocol and management software called "CPG" (Personalized Control of Blood Glucose). This involves taking capillary samples from the fingertips. In addition to the pain generated, local haematomas and sensitivity disorders have been described. Night-time sampling also leads to repeated awakenings. The "CGM GUARDIAN 2" system has been validated for the measurement of glucose in interstitial fluid in insulin-dependent diabetic patients. An electrode is placed on the patient's abdomen or arm for up to 6 days. This electrode consists of a needle that is inserted subcutaneously only during the placement. The sugar level is read using a sensor placed on the electrode and an insulin pump (which will not deliver therapy (for our study) and which will be used only as an information reader to know the glucose level and trends). Interstitial fluid is automatically drawn from the electrode every minute and averaged every 5 minutes. This device has not yet been validated in resuscitation patients.
The purpose of this study is to assess the effect of norepinephrine and fluid expansion on capillary refill time during septic shock.