View clinical trials related to Infections.
Filter by:This is a multi-center, randomized, controlled trial study to find whether use of chlorhexidine-alcohol or povidone-iodine for pre-vaginal delivery skin prep is superior to reduce postpartum infection in pregnant women with vaginal delivery. The primary outcome is the episiotomy site infection.
The main objective of this study is to evaluate the incidence of post-COVID morbidity and characterize the complications profile in patients who participated in the APLICOV-PC study. APLICOV-PC study was a multicenter, randomized, proof-of-concept clinical trial to assess the safety profile of 3 different dose levels of plitidepsin (1,5 mg, 2,0 mg and 2,5 mg) administered three consecutive days, in adult patients with confirmed diagnosis of COVID-19 who require hospital admission.
Helicobacter pylori affects the gut microbiome in ways that are only partially understood. In which patients H. pylori causes severe disease and in whom it merely colonizes, possibly even with beneficial effects, is not understood. The investigators are pursuing the hypothesis that changes in the gut microbiome that can be easily measured in stool have such predictive value.
This retrospective multi-center, multi-national cohort study is to validate the European Bone and Joint Infection Society (EBJIS) Definition of Prosthetic Joint Infection. Specifically, it is to analyze the outcome of the Infection Likely group and compare it to the Infection Unlikely group as well as other subgroups within previous validated definitions (Musculoskeletal Infection Society (MSIS)/International Consensus on Musculoskeletal Infection (ICM) 2013 and ICM 2018).
This study explores how psychosocial factors (e.g., chronic stress, depression) may lead to liver disease progression such as liver cirrhosis or liver cancer among Korean American chronic hepatitis B infection patients. Gathering health information over time from Korean Americans with chronic hepatitis B infection may help doctors find better methods of treatment and on-going care.
Group A Streptococcus (GAS) is a bacteria which causes severe infections and leads to deadly diseases such as rheumatic heart disease which kills over 300,000 people a year globally, particularly in low-income countries. It is not know how GAS is spread between people, how often people carry GAS in their throat or on their skin without having symptoms, or what factors increase the chance of this occurring. It is important to understand these factors in order to know how to reduce GAS-related disease. This study will follow 444 people in The Gambia, over 12 months, taking samples from the throats and skin of people living in the same households, and asking questions about themselves and their behaviour, at regular intervals. By taking samples over time, the investigators hope to understand how common it is to carry GAS without having symptoms, how GAS is spread between people, and whether carrying GAS leads to more GAS infections in people or their household members. The study will use state-of-the-art techniques to look at the DNA of GAS bacteria that we find, and combine this with a mathematical model to investigate how different strains spread to people within and between households in the community.
The primary objective of the study is to demonstrate, among patients with non-complicated CR-BSIs due to S. aureus, that a single-dose of intravenous (IV) dalbavancin 1500 mg is non-inferior to standard documented antibiotic therapy for 14 days according to national guidelines at DAY 30 (Long follow up visit). As the secondary objectives, the study aims to evaluate according to treatment group: 1. Cure rate at DAY 14 and DAY 90 (EOS); 2. Mortality rate within 90 days of follow-up; 3. Time to negativation of blood cultures; 4. Patient's quality of life; 5. Hospitalization length of stay; 6. Cost-utility analyses; 7. Occurrence of any adverse event (AE and SAE), until Day 90 (EOS).
Necrotizing soft-tissue infections (NSTI) are rare and life-threatening bacterial infections characterized by subcutaneous tissue, fascia or muscle necrosis. Few prospective studies have been performed and our current knowledge on NSTI is mostly derived from retrospective single center studies. The "SKin and soft tissue necrotizing INfections in the ICU" (SKIN-ICU) study is a multinational prospective non-interventional cohort study that will include patients admitted to the ICU/intermediate care unit for NSTI or not. The objectives of the study are : 1. To assess hospital (i.e., ICU and hospital mortality) and medium-term (day-90 mortality, functional outcomes and health-related quality of life scores, HR-QoL) outcomes 2. To report the clinical presentation and microbiological epidemiology of NSTI and identify independent prognostic factors of mortality and altered quality of life
Healthcare-associated infections are infections that patients acquire during the course of receiving treatment for other conditions within a healthcare setting and are not present at the time of admission. Medical instrumentation increases the risk of development of HAIs. Such devices include, venous and urinary catheters, and ventilators. Most ventilator-dependent patients undergo respiratory stabilization with an endotracheal tube in a critical care setting. Later on, translaryngeal tubes are converted to a tracheostomy to provide long-term airway access for ventilatory support. Tracheostomy is a commonly performed airway surgery for critically ill patients. It has variable complications, a common one being secondary infection with bacteria and fungi, which in turn leads- to granulation formation in stoma and on peristomal region. The risk factor for infection in patients with tracheostomy occurs due to exposure to large amounts of bacteria because they do not pass through the upper airway defense system. The commonest microorganism colonizing the tracheostomy tube leading to respiratory infections include Pseudomonas aeurginosa, Acinetobacter baumanii, and methicillin resistant Staphylococcus aureus, some of these organisms are antibiotic resistant. Biofilm formation is a unique self-protective mechanism of bacteria, protects them from host immune response and antimicrobial agents. Studies showed that more than 60% of hospital acquired infections are caused by biofilm forming bacteria on medical devices. These infections are most commonly attributed to Staphylococcus aureus, Pseudomonas, and mixed flora.
The goal of this project is to determine the efficacy of a treatment method that increase a participants sense of smell after suffering from COVID-19 related decline in smell. Participants have to be greater than 14 days from positive COVID-19 test and still have a decreased sense of smell. https://jaoa.org/article.aspx?articleid=2765119 this article is a review of literature regarding why OMT can have a positive effect on individuals suffering from COVID-19 Anosmia: Complete loss of smell Hyposmia: Decrease in smell