View clinical trials related to Septic Shock.
Filter by:This will be a randomized controlled unblinded pragmatic single-center pilot trial of the use of vasopressin vs. angiotensin II as a second-line vasopressor in patients with septic shock and persistent hypotension despite moderate-to-high doses of norepinephrine.
This study seeks to determine the the impact of COVID-19 on the incidence, characteristics, management and outcome of patients admitted to U.S. hospitals with non-COVID-19 related sepsis.
QuantiFERON Monitor® is an immunological test evaluating the nonspecific cellular response by measuring interferon gamma (IFNγ) secretions after T-cell and natural killer lymphocyte stimulation. This study aims at evaluating sepsis-induced immunosuppression base on QuantiFERON Monitor® in patients presenting to the intensive care unit for septic shock. The sponsor expects to identify sepsis-induced immunodeficiency in patients through a better understanding of cellular and adaptive immune responses.
The focus of this study will be to conduct a prospective, multi-center randomized controlled trial (RCT) at Cape Regional Medical Center (CRMC), Oroville Hospital (OH), and UCSF Medical Center (UCSF) in which a machine-learning algorithm will be applied to EHR data for the detection of sepsis. For patients determined to have a high risk of sepsis, the algorithm will generate automated voice, telephone notification to nursing staff at CRMC, OH, and UCSF. The algorithm's performance will be measured by analysis of the primary endpoint, in-hospital SIRS-based mortality.
Randomized, controlled, double blind clinical trial. Adult patients admitted to the ICU of the Hospital Español de México with a diagnosis of septic shock will be included. Patients will be randomized to one of the study groups: Intervention Group: Vitamin C 6 grams in 250 ml of 0.9% saline solution every 24 hours, in continuous infusion for 72 hours. Placebo Group: 0.9% saline solution 250 ml every 24 hours, in continuous infusion for 72 hours.
The CAPSS Study is a retrospective and prospective, multi-center, single-arm post-market data collection study with an FDA cleared device. Physiologic data measurements will be collected from enrolled subjects using electronic health records and data streams via the Accuryn Monitoring System. Analysis of these data has the potential to be able to acutely guide resuscitation and monitor trends for emerging critical conditions.
The focus of this study will be to conduct a prospective, randomized controlled trial (RCT) at Cape Regional Medical Center (CRMC), Oroville Hospital (OH), and UCSF Medical Center (UCSF) in which a Gram type infection-specific algorithm will be applied to EHR data for the detection of severe sepsis. For patients determined to have a high risk of severe sepsis, the algorithm will generate automated voice, telephone notification to nursing staff at CRMC, OH, and UCSF. The algorithm's performance will be measured by analysis of the primary endpoint, time to antibiotic administration. The secondary endpoint will be reduction in the administration of unnecessary antibiotics, which includes reductions in secondary antibiotics and reductions in total time on antibiotics.
The focus of this study will be to conduct a prospective, randomized controlled trial (RCT) at Cape Regional Medical Center (CRMC), Oroville Hospital (OH), and UCSF Medical Center (UCSF) in which a subpopulation-optimized algorithm will be applied to EHR data for the detection of severe sepsis. For patients determined to have a high risk of severe sepsis, the algorithm will generate automated voice, telephone notification to nursing staff at CRMC, OH, and UCSF. The algorithm's performance will be measured by analysis of the primary endpoint, in-hospital SIRS-based mortality. The secondary endpoints will be in-hospital severe sepsis/shock-coded mortality, SIRS-based hospital length of stay, and severe sepsis/shock-coded hospital length of stay.
The objective of the present study is to investigate accuracy of changes in cardiac output following passive leg raising as estimated by transthoracic ultrasound as method to predict fluid responsiveness and compare that to changes in cardiac output following PLR as estimated by calibrated pulse contour analysis as method to predict fluid responsiveness in patients with septic shock.
To determine if intravenous thiamine would decrease the time to reversal of shock in patients with septic shock.