View clinical trials related to Sepsis.
Filter by:The goal of this quality improvement study is to measure the impact of incorporation of a manual rapid fluid infuser (RFI) for intravenous crystalloid infusion in patients with suspected sepsis in the prehospital interval. The main question[s] it aims to answer are: - Does the intervention affect the timeliness of fluid administration? - Does the intervention affect CMS sepsis bundle care measure compliance? - Does the intervention affect processes and outcomes of care? - Are there any adverse effects? Researchers will compare this intervention to use of more conventional gravity or pressure-infusion bag crystalloid infusion.
Central venous catheters (CVCs) are indispensable in modern critical care. However, CVC usage is associated with complications, including central line-associated bloodstream infections (CLABSIs), which in turn, is translated to higher healthcare costs and mortality. The use of antimicrobial-impregnated CVCs is one of the strategies to reduce CLABSI. Nevertheless, its' efficacy and beneficial effects, particularly in terms of patients' outcome had not been homogeneously demonstrated across literature. Moreover, antimicrobial-impregnated CVCs are more expensive compared to conventional non-impregnated ones, and hence its cost-effectiveness remains doubtful. To date, no local studies have been conducted to evaluate the efficacy and economic impact of antimicrobial-impregnated CVCs and on patients' outcome. The goal of this clinical trial is to determine the efficacy and cost-effectiveness of antimicrobial-impregnated CVCs in preventing (CLABSI) among critically ill patients in a Malaysia University Hospital Adult Intensive Care Unit. The main questions it aims to answer are: 1. Is there any difference in CLABSI rates between patients using antimicrobial-impregnated CVCs and non-impregnated CVCs in Malaysia adult ICU? 2. Does the use of antimicrobial-impregnated CVCs in CLABSI prevention in Malaysia adult ICU affect patient length of stay when compared to non- impregnated CVCs? 3. Does the use of antimicrobial-impregnated CVCs in CLABSI prevention in the adult ICU setting affect healthcare costs when compared to non-impregnated CVCs? 4. How antimicrobial resistance features of the bacteria causing CLABSI may differ in patients using antimicrobial-impregnated CVCs compared to non-impregnated CVCs? Patients who require a CVC for critical care in ICU will be recruited and randomly assigned to one of the two different groups to receive either a conventional non-impregnated CVC or an antimicrobial-impregnated CVC, which will be inserted and handled by medical practitioners. Participants will then be monitored for symptoms and signs of CLABSI, alongside length of ICU stay & healthcare costs. Researchers will compare CLABSI rates and other relevant parameters among the 2 groups to see if antimicrobial-impregnated CVCs are useful and cost-effective in CLABSI prevention.
Trial design: Randomised controlled, two-arm, parallel, clinical trial to assess the efficacy and safety of sequential daily procalcitonin assessments to guide de-escalation of empirical antibiotic therapy in adult patients with sepsis. Trial settings Trial site is Chattogram Medical College Hospital (CMCH), Bangladesh. CMCH is tertiary care hospital with undergraduate and postgraduate teaching facilities. This tertiary hospital receives referrals from urban and rural areas of southern Bangladesh and has basic facilities for intensive care and haemodialysis. Trial Participants: Male or female hospitalised patients, 16-65 years of age, with confirmed or suspected sepsis Patients (Total 532) will be 1:1 randomised to either: - Intervention arm: daily measurement of serum procalcitonin concentrations to guide de-escalation of antibiotics (Intervention arm: 266), or - Control arm: standard of practice to guide de-escalation of antibiotics without procalcitonin assessments (Control arm: 266). Patients will be followed-up until ICU discharge and/or hospital discharge with an additional follow-up at 28 days after discharge. Funder: Wellcome Trust of Great Britain Grant reference number from Wellcome Trust: 220211/A/20/Z
The aim of this study is to examine the effect of ethanol (70%) as lock-solution after hemodialysis on: - The frequency of dialysis catheter-related bacteremia among patients under observation of potential complications - Other complications of the use of hemodialysis-catheters eg. dysfunction of the catheter due to thrombosis.
The purpose of the study is to compare the effectiveness of Artificial Intelligence virtual doctor with human-controlled virtual doctor avatars on nursing students' sepsis care and interprofessional communication.
This phase 2 study aim to investigate the effect of dobutamine in patients with sepsis/ septic shock after fluid resuscitation and with hypoperfusion (lactate and central venous oxygen saturation or prolonged capillary refill time) on renal function as compared with usual care.
Getting the right dose of antibiotic promptly is an important part of treating infections. Unfortunately, when an infection is severe (sepsis) the body changes how it processes antibiotics. Consequently, some people with severe infection retain antibiotics for too long (risking adverse effects), whilst others excrete antibiotics too quickly (risking under-treatment). Mathematical models can help researchers understand drug handling variability (known as pharmacokinetics) between people. These models require very accurate information about drug administration and drug blood concentration timings. Researchers usually rely on someone recording these timings, but recording errors can make models inaccurate. We would like to understand if using data from routinely used electronic drug infusion devices (recording the exact time of administration) can improve the accuracy of pharmacokinetic models. We intend to investigate this with an antibiotic (vancomycin) that clinicians already routinely monitor blood concentrations for. Adults and children treated at St George's Hospital intensive care units will be invited to participate in the study which will last for 28-days within a 14-month period. Participants will donate a small amount of extra blood and provide researchers access to their clinical data. Blood will be taken at special times during vancomycin treatment from lines placed as part of standard treatment, minimising any pain or distress. There will be no other changes to patient's treatment. In the future, data from this study might help change the way we dose antibiotics. The National Institute for Health and Care Research and Pharmacy Research UK are supporting the study with funding.
Sepsis is a severe response to infection resulting in organ dysfunction and often leading to death. More than 1.5 million people get sepsis every year in the U.S., and 270,000 Americans die from sepsis annually. Delays in the diagnosis of sepsis lead to increased mortality. Several clinical decision support algorithms exist for the early identification of sepsis. The research team will compare the performance of three sepsis prediction algorithms to identify the algorithm that is most accurate and clinically actionable. The algorithms will run in the background of the electronic health record (EHR) and the predictions will not be revealed to patients or clinical staff. In this current evaluation study, the algorithms will not affect any part of a patient's care. The algorithms will be deployed across the Emory healthcare system on data from all patients presenting to the emergency department.
A prospective, open-label, randomized controlled trial will be conducted to evaluate a novel TDM-guided therapy in management of DT-GNB infections. We hypothesize that TDM-guided antibiotic therapy will reduce 14-day all-cause mortality by 6% (absolute risk reduction) in septic patients with DT-GNB infections, when compared to standard therapy. TDM for 11 antibiotics will be performed for all trial patients although test information will be withheld for the standard therapy arm. The primary aim is to compare the 14-day all-cause mortality rates of novel TDM-guided antibiotic dosing versus standard therapy.
The purpose of this study is to compare the effectiveness between conventional hemodialysis and hemodialysis using hemoperfusion adsorbents in renal dysfunction caused by sepsis