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Sepsis Syndrome clinical trials

View clinical trials related to Sepsis Syndrome.

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NCT ID: NCT05977153 Recruiting - Clinical trials for Mechanical Ventilation Complication

CT for Personalized Mechanical Ventilation

Start date: May 10, 2023
Phase: N/A
Study type: Interventional

The goal of this study is to compare two different ways of helping patients with a condition called sepsis who need help breathing using a machine called a ventilator. The investigators want to study which way of setting the ventilator is better for the lungs. Here are the main questions the investigators want to answer: 1. How does the amount of air in the lungs and the way it moves differ between the two ways? 2. How does the way air spreads out in different parts of the lungs differ between the two ways? In this study, the investigators will take special pictures of the lungs using a machine called a CT scan. The pictures will show us how much the lungs stretch and how much air is in different parts of the lungs. The investigators will compare two different ways of using the ventilator: one personalized for each patient based on their breathing, and another way that is commonly used. By comparing these two ways, the investigators hope to learn which one is better for helping patients with sepsis who need the ventilator. This information can help doctors make better decisions about how to care for these patients and improve their breathing.

NCT ID: NCT05602584 Enrolling by invitation - Sepsis Clinical Trials

Effect of Immunophenotype on Prognosis of Sepsis

Start date: October 1, 2021
Phase:
Study type: Observational [Patient Registry]

The popuse of this study is to assess the inflammatory immunophenotypes of sepsis patients are significantly correlated with prognosis, which may provide theoretical basis for precise immune regulation of sepsis.

NCT ID: NCT05382078 Not yet recruiting - Trauma Clinical Trials

Nafamostat Mesilate for Anticoagulation During CRRT in Critically Ill Patients

NMFADCICIP
Start date: May 31, 2022
Phase:
Study type: Observational [Patient Registry]

Continuous renal replacement therapy is widely used in intensive care medicine, which is known as an alternative therapy to save injured kidney . Anticoagulation is an important part of this therapy. An insufficient anticoagulation would cause a poor curative effect of CRRT. Hemorrhageļ¼Œheparin-induced thrombocytopenia (HIT), citrate accumulation, acidosis ad filter extra-cost usually happened on anticoagulation during CRRT. Therefore a new effective anticoagulation of CRRT needs to be carried out. Nafamostat Mesylate (NM) is a new anticoagulant. This serine protease inhibitor with broad spectrum can inhibit kinds of enzymes on the process of coagulation. NM is mainly rapidly decomposed in the liver and also removed by dialysis or filtration. The elimination half life of is only 8 minutes. If NM is applied as a regional anticoagulant, approximate 40% NM is removed by dialysis and / or convection in cardiopulmonary bypass circuit, and then rapidly degraded by esterase in liver and blood, which ensures security in patients with bleeding tendency. Based on the information above, the investigators designed an observational clinical study aimed to testify that NM would have equivalent anticoagulant results compared with those traditional ways and might even have a better effect than traditional anticoagulant therapy.The study team has investigated the current situation of CRRT in Shaanxi province in China through a cross-sectional survey last year. The survey involved 74 hospitals in Shaanxi province and the results basically illustrated a real status of CRRT. These scientific results helped investigators to design this multi-center, parallel, controlled, non intervention study and real world study.

NCT ID: NCT05338359 Recruiting - Sepsis Syndrome Clinical Trials

Metrology to Enable Rapid and Accurate Clinical Measurements in Acute Management of Sepsis

SEPTIMET
Start date: January 25, 2022
Phase:
Study type: Observational

Sepsis is a life-threatening condition that arises when a dysregulated response to infection results in multi-organ dysfunction or failure. This can affect any organ, resulting in a diverse clinical presentation. Sepsis affects more than 3.4 million Europeans a year with 700,000 deaths from the condition and an additional one third of survivors dying through complications in the year following a sepsis event. To date, biomarkers that are used to predict bacterial infection (such as CRP or lactate) are used in combination and with other clinical symptoms due to the fact that they are non-specific for sepsis. The use of such biomarkers frequently varies between hospitals or even physicians. Biomarkers such as procalcitonin (PCT) have been reported as useful for differentiating between infectious and non-infectious causes of systemic inflammatory response syndrome. Yet calibration of PCT assays is problematic due to the absence of higher order method or international standard. External quality assessment (EQA) programs have highlighted poor comparability. This protocol is part of the international SEPTIMET project. The Emergency Department (ED) of the Pitié-Salpêtrière hospital takes part of the project with specific objectives in order to establish a large cohort of patients at very early stage sepsis (defined by Systemic Inflammatory Response Syndrome -SIRS - due to bacterial infection or the first symptoms of sepsis before septic shock, patients consulting in the first hours of the history of the disease at the emergency department) with the idea of spotting the condition before it manifests as a more serious presentation. This will measure the clinical criteria and putative biomarkers as patients progress to more serious presentation. Moreover, an expected biobank of >200 samples will be generated to provide material for the Laboratoire National de Métrologie et d'essais (LNE) in charge of analytical studies.

NCT ID: NCT05261607 Recruiting - Respiratory Failure Clinical Trials

Analysis of the Evolution of Mortality in an Intensive Care Unit

Start date: July 1, 1991
Phase:
Study type: Observational

The intensive care units is of the main components of modern healthcare systems. Formally, its aim is to offer the critically ill health care fit to their needs; ensuring that this health care is appropriate, sustainable, ethical and respectful of their autonomy. Intensive medicine is a cross-sectional specialty that encompasses a broad spectrum of pathologies in their most severe condition, and specifically has as its foundation the practice of comprehensive care of the patient with organ dysfunction and susceptible to recovery. Although critically ill patients are a heterogeneous population, they have in common the need for a high level of care, often requiring the use of high technology, specific procedures for the support of organ dysfunction and the collaboration of other medical and surgical specialties for their management and treatment. Since their origins in the late 1950s, intensive care units have been adapting to the changes arising from the best scientific evidence. In the late 1990s and early 2000s, there were some successful clinical trials published that had tested alternative management strategies in the ICU. Mechanical ventilation is an intervention that defines the critical care specialty. Between 1970 and the 1990s, the management focused on normalizing arterial blood gas with aggressive mechanical ventilation. Over the ensuing decades, it became apparent that performing positive pressure ventilation worsened lung injury. The pivotal moment in the mechanical ventilation story would be the low versus high tidal volume trial. This trial shifted the focus away from normalizing gas exchange to reducing harm with mechanical ventilation. Further, it paved way for further trials testing ventilation interventions (PEEP strategy, prone position ventilation) and nonventilation interventions (neuromuscular blockade, corticosteroids, inhaled nitric oxide, extracorporeal gas exchange) in critically ill patients. That evidence-based intensive care medicine has undoubtedly had an influence on the outcome of critically ill patients, in general, and, particularly, of patients requiring mechanical ventilation. Temporal changes in mortality over the time have been scarcely reported for patients admitted to intensive care unit. Objective of this study is to estimate the changes over the time in several outcomes in the patients admitted to an 18-beds medical-surgical intensive care unit from 1991 (year of start of activity) to 2026

NCT ID: NCT05246969 Completed - Sepsis Clinical Trials

Detecting Sepsis in Patients With Severe Subarachnoideal Hemorrhage

Start date: June 1, 2017
Phase:
Study type: Observational

The study aims to evaluate the suitability of the SOFA score implemented by the Sepsis 3 guideline to detect sepsis in patients suffering from subrarachnoid hemorrhage.

NCT ID: NCT05049941 Recruiting - Sepsis Syndrome Clinical Trials

Blood Gases Versus Lactate Clearance as an Indicator of Initial Resuscitation in Septic Patients: Comparative Study

Start date: August 15, 2021
Phase:
Study type: Observational

- This perspective blind randomized single center study was designed to assess central venous and arterial gases level including P(v-a)CO2/C(a-v)O2 ratio and P(v-a)CO2 difference against lactate clearance as an indicator of initial resuscitation in septic patients in intensive care unit and to evaluate the success of early resuscitation protocol .this continuation of our previous work we compared the ratio of P(v-a)CO2/C(a-v)O2 ratio against lactate clearance(8). Mortality in the ICU in the study groups will be recorded

NCT ID: NCT04979767 Recruiting - Sepsis Clinical Trials

Function of Circulating Exosomes in Sepsis-induced Immunosuppression

Start date: April 15, 2021
Phase:
Study type: Observational

This is a single-center prospective bio-specimen analysis and observational study aiming to define immune pathways disrupted in bacterial sepsis and to identify clinically useful biomarkers of immune status.

NCT ID: NCT04560842 Not yet recruiting - Sepsis Syndrome Clinical Trials

The Efficacy of High-flow Nasal Cannula Oxygen Therapy in Sepsis Patients

Start date: September 25, 2020
Phase: N/A
Study type: Interventional

Sepsis is a heterogeneous syndrome that is caused by the host imbalance immune response. At 1991, the American College of Chest Physicians/Society of Critical Care Medicine Consensus Conference developed a definition of sepsis. After more than 20 years, it was gradually developed in 2016 to the third edition of the guidelines for sepsis(Sepsis-3). Sepsis is defined as life-threatening organ dysfunction caused by a dysregulated host response to infection. According to the National Health Insurance claims database of Taiwan, The incidence rate was 772.1/100,000 persons in 2012. From 2002 to 2012, the incidence of sepsis increased by 18.7%. The mortality of severe sepsis was 17.9%. However, has increased to 33% when developed to septic shock. Even in foreign studies, the intensive care unit mortality rate can reach 40%. Although sepsis was defined in 1991, after these years, the treatment of sepsis is still a goal that must be worked hard. According to Sepsis-3, must first use the qSOFA (quick Sepsis Related Organ Failure Assessment) to assess whether the patient's blood pressure, respiratory rate, and state of consciousness meet more than two criteria, which is sepsis. If the SOFA score (Sequential Organ Failure Assessment) is further evaluated, with at least two of the following symptoms, including poor oxygenation in the lungs, hypotension or use of a vasopressor, thrombocytopenia, conscious change (Glasgow Coma Scale), bilirubin increase and creatinine rise or oligouria. If the patient must use a vasopressor to maintain a mean arterial pressure (MAP) of 65 mmHg and serum lactate more than 18 mg/dL, it is Septic shock. In clinical assessment, qSOFA (rapid sepsis-associated organ failure assessment) can also be used to assess blood pressure, respiratory rate, and state of consciousness to confirmed sepsis. According to the above assessment conditions, patients with sepsis are highly prone to respiratory failure during the disease process. In recent trials, about 40% to 85% of patients with sepsis must be need endotracheal intubation, showing the high intubation rate. Patients after intubation may cause lung injury due to improper ventilator settings (Ventilator-induced lung injury, VILI). And 10% to 25% will be combined with pneumonia caused by the ventilator (ventilator-associated pneumonia, VAP). Mortality can reach 20% to 33%. So if we can reduce septic patient's intubation rate then we can reduce the complication caused by the ventilator. A high flow nasal cannula (HFNC) is a relatively new device for respiratory support. Patients received high-flow conditioned oxygen therapy through a nasal prong. A number of physiological effects have been described with HFNC: pharyngeal dead space washout, a positive expiratory pressure to reduce work of breathing, improve breathing synchronization. These benefits can reduce the intubation rate. The benefit of the HFNC in septic patients is not very clear. By this prospective study to investigate the septic patients who have been admitted to the intensive care unit. The study method is to ask the patient whether they agree to participate in the trial after the patient is transferred to the intensive care unit. The patient will randomly assign the subjects to the general oxygen therapy and the HFNC group after signing the subject consent form. This study aimed to determine whether high-flow oxygen therapy immediately would reduce the need for intubation compared with standard oxygen therapy in sepsis patients.

NCT ID: NCT04475081 Completed - Sepsis Syndrome Clinical Trials

Use of a Live Attenuated Vaccine as an Immune-based Preventive Against COVID-19-associated Sepsis

Start date: September 22, 2020
Phase: Phase 3
Study type: Interventional

The objective of this randomized clinical trial is to test whether administration of live attenuated MMR vaccine (measles mumps rubella; Merck) to eligible adults at highest risk for contracting COVID-19 (healthcare workers, first responders), can induce non-specific trained innate immune leukocytes that can prevent/dampen pathological inflammation and sepsis associated with COVID-19-infection, if exposed.