Clinical trials for
Translating trial titles and descriptions to plain English...
Healthcare-associated infections (HAI), which have become a major problem in all countries, prolong hospital stay and increase treatment and care costs. In health care institutions, HAIs that occur directly or indirectly related to health services are among the most common causes of mortality and morbidity. A high level of hand hygiene compliance, which is the most basic step of infection control and precautions, is the first and most important step to prevent HAIs. However, it has been determined in the literature that the compliance rates of healthcare professionals with hand hygiene are low and that nurses' attitudes and behaviors regarding hand hygiene are not at the desired level. Well-structured training programs need to be developed to maintain and increase nurses' hand hygiene compliance rates. Different training methods and tools are needed to increase hand hygiene compliance, awareness and awareness. It is recommended that innovative training approaches such as virtual simulation be developed and evaluated to further internalize and encourage nurses' most effective hand hygiene practice behaviors. In recent years, the use of simulation methods in the training of healthcare professionals has been increasing as they facilitate the transfer of theoretical knowledge into clinical practice. One of these simulation methods is virtual reality (VR). The use of gamification in the virtual environment supports different learning styles, enabling learners to participate more intensively in education and increase their internal motivation. In this context, with VR support, entertainment and learning processes can be used to support each other. Considering the features of VR usage such as integrating knowledge and skills, creating a learning environment for the learner by doing, giving the opportunity to repeat until the correct application is made, reducing incorrect interventions in clinical practice and increasing patient safety, it is recommended that virtual simulation systems be used in nursing education. VR provides different opportunities to learners by enriching and diversifying learning environments. In these virtual environments, learners can have new experiences and these experiences remain permanent for the learners. As stated in the WHO Hand Hygiene Theme, it is important to develop innovative training programs, learning materials and measurement and evaluation tools regarding hand hygiene within the scope of infection control and prevention studies. VR simulation can be used to attract nurses' attention and awareness by increasing intrinsic motivation to perform hand hygiene, and can be used to support nurses in developing positive attitudes towards hand hygiene. Hand hygiene simulation scenarios created with virtual reality can contribute to greater awareness about the problems caused by microorganism transmission by increasing hand hygiene awareness. Thus, increasing attitudes and awareness regarding hand hygiene can have a positive effect on reducing the HAI rate by supporting the transformation of hand hygiene awareness into behavior. In the study, it was planned to develop, implement and evaluate a virtual reality hand hygiene simulation. It is thought that this virtual reality simulation will pave the way for the development of psychomotor skills for hand hygiene, increase the level of knowledge, and increase hand hygiene compliance by providing internal motivation to perform hand hygiene. In our country, no studies have been found on the development of virtual reality simulation in hand hygiene practice. The aim of this study is to develop and implement virtual reality hand hygiene simulation in teaching hand hygiene behaviors in nurses and to evaluate its effect on hand hygiene compliance.
Hospital-acquired Viral Respiratory Infections (HAVRI) are associated with substantial burden on health care systems. The prevention and control of these viral infections rely on multiple measures such as hand hygiene or wearing mask. However, vaccination remains the major preventive measure. To date, data at French national level are insufficient to describe the epidemiology of these infections, including their burden, and the potential protection of patients if vaccination coverage of health care professionals/patients is satisfactory. In addition, better understanding of the clinical characteristics of HAVRI will make it possible to identify potential sources of transmission as soon as possible and to implement appropriate hygiene measures. We will set up a hospital-based prospective multicenter study in Bordeaux, Paris-Bichat, Dijon and Lyon, involving four inclusion services (geriatrics, internal medicine and transplantation) per hospital. The main objective of this study is to calculate the incidence rate of hospital-acquired infections for three respiratory viruses; influenza, SARS-CoV-2 and syncytial respiratory virus (SRV), referred to as HARVI, in participating services. Volunteered health care professionals or hospitalized patients presenting with influenza-like illness (ILI) at admission or during their stay in the participating centers will be eligible to be enrolled during the two inclusion periods: (mid-October 2024 to mid-April 2025 and mid-October 2025 to mid-April 2026). For each patient/health care professional, a nasopharyngeal swab will be collected. A questionnaire including demographic data, medical history, vaccination, and clinical and biological data of the viral episode will also be completed by the study team. Patients tested positive for one of the viruses studied will be considered "cases" and patients tested negative as "controls". The collected data will be pseudonymized before statistical analyses. Statistical analyses will consist of calculating incidence rates, attack rates overall and by causative virus and analysis of factors associated with the occurrence of HARVI. The prospective design of the study will optimize the quality of the collected data (ex. consolidate the documentation of both the clinical picture and vaccination in patients and health care professionals by reducing memory bias) and allow to calculate the incidence rates, the crude and adjusted relative risks of HARVI according to the studied factors, and to describe multiple outcomes (hospitalization in intensive care units, death, etc.) based on the causative virus. The results of this research project will allow to: * obtain epidemiological indicators associated with HARVI; * estimate the impact of HARVI on the prognosis of patients in hospital; * assess the impact of HARVI on the total length of hospital stay; * identify risk factors associated with HARVI; * use the results as an argument for vaccination in order to increase vaccination coverage of healthcare workers.
As antibiotic resistance increases globally, it becomes more difficult to select empiric antibiotic therapy, particularly in patients with sepsis who stand to benefit from early adequate treatment. In particular it is difficult for clinicians to balance antibiotic stewardship principles (the need to avoid unnecessary prescribing of antibiotics that have an excessively broad spectrum of activity that favour resistance development) and under treatment. The integration of multiple risk variables for resistance are hard for clinicians to translate into clinical action, and is seemingly at odds with the natural inclination to provide heuristic/emotion-based antibiotic selection. The inappropriate treatment of sepsis is not uniformly too broad, or too narrow, and there is a need to optimize and tailor selection of antibiotic therapy to each patient, such that those that are at risk for resistant organisms receive broad therapy, and those that are not at risk, receive narrower antibiotic agents. Clinicians need support picking the right antibiotic for each patient, and from this they can potentially drive reduction of unnecessarily broad antibiotic prescribing while preserving adequacy of treatment. Individualized clinical prediction models and decision support interventions are promising approaches that meet these needs by improving the classification of patient risk for antibiotic resistant or susceptible infections in sepsis. Unfortunately, few have been validated in the clinical setting and larger rigorous studies are needed to provide the evidence to support broader clinical adoption. The investigators will perform a cluster randomized cross-over trial of an individualized antibiotic prescribing decision support intervention for providers treating hospitalized patients with suspected sepsis. The aim of this trial is to determine whether a stewardship led clinical decision support intervention can improve antibiotic de-escalation in patients with sepsis while maintaining or improving adequacy of antibiotic coverage. This decision support intervention will be based on a combination of proven decision heuristics (for Gram-positive organisms) and modelled predicted susceptibilities (for Gram-negative organisms) that are individualized to the patient. The primary outcome will be the proportion of patients de-escalated from their initial empiric regimen at 48 hours.
This study aims to determine whether the use of two sterile towels for drying after surgical handwashing results in fewer contamination events compared to the use of only one towel among healthcare personnel. This randomized, multicenter, superiority-controlled trial will enroll up to 72 healthcare workers and surgical residents from three hospitals in Bogotá, Colombia. A fluorescent product will simulate bacteria, and contamination will be assessed by evaluating the presence of fluorescent cream after hand drying technique with either two or one surgical sterile towel. Data will be collected through REDCap and deidentified. Differences in the proportion of contamination between the two groups will be assessed using an exact Fischer test, and confounding variables will be included in the analysis through logistic multivariate regression, with a significance level set a priori at 0.05. Results will be submitted for publication in a peer-reviewed journal.
NeoDeco is a pragmatic, multicenter, parallel-group, cluster-randomised hybrid effectiveness-implementation trial designed to evaluate the impact of implementing optimised Kangaroo Care (KC) at the unit level compared to standard care in high-technology neonatal units. The trial includes a baseline period, a wash-in phase, and a staggered randomisation approach. The primary focus of the NeoDeco study is on high-risk preterm infants born at less than 32 weeks' gestational age, a population particularly vulnerable to hospital-acquired infections and sepsis during their initial hospital stay. By investigating hospital-acquired infections specifically, the study targets the period during which optimised KC practices are likely to have the most significant impact.
Observational studies of patients with coronary artery bypass grafting, associated with an unfavorable cardiopulmonary prognosis for at least one year after surgery. This is Prospective, cohort, unblinded, observational comparable single center clinical trial. To compare the clinical, laboratory (including complete blood count, metabolic panel, and specific cardiac, inflammatory, infectious, and endothelial biomarkers), functional (ECG, echocardiography, ultrasound, spirometry, cardiopulmonary exercise testing), and radiological (chest X-ray/CT) phenotypes in patients with coronary artery bypass grafting with and without non-ventilator-associated postoperative, nosocomial pneumonia; to identify the factors of early and 1-years cardiopulmonary prognosis. Increased risk of cardiovascular outcomes is related with the circulatory arrest, artificial circulation, perioperative trauma and respiratory complications of the postoperative period associating to the different severity and duration of the systemic inflammatory response, immune status disorders, hemostasis disorder, endothelial dysfunction, external respiration dysfunction, anatomic and functional disorders in the heart and lungs. Individual predictors of an unfavorable prognosis can be determined at the stage of before and just after surgery to conduct personalized prevention. This study aimed to compare the clinical, laboratory (including complete blood count, metabolic panel, and specific cardiac, inflammatory, infectious, and endothelial biomarkers), functional (ECG, echocardiography, ultrasound, spirometry, cardiopulmonary exercise testing), and radiological (chest X-ray/CT) phenotypes in patients after coronary artery bypass grafting with and without non-ventilator-associated postoperative nosocomial pneumonia; to identify the factors of early and 1-years cardiopulmonary prognosis.
Biofilm is a microstructure organised into aggregates of microbiological species within a polymeric matrix. As early as the 2000s, the Centers for Disease Control and Prevention (CDC) recognised the possible role of the biofilm lining endotracheal endotracheal tubes in the development of ventilator-associated pneumonia (VAP) , the most common infection in intensive care, with a high morbidity and mortality rate and a significant increase in hospital costs. Targeting biofilm therefore now appears to be a new area of interest for limiting the risk of VAP, and this rationale has led to the development of an intraluminal for abrading biofilm deposited on the inside of the intubation probe . Evaluation of this type of strategy nevertheless justifies the introduction of more precise methods for characterisation of the biofilm. To this end, the investigator carried out an initial clinical study describing the biofilm on intubation probes, BIOPAVIR 1, showing the existence of several biofilm structures, each associated with a specific microbiological signature. Several limitations including a lack of power due to an insufficient number of patients and the use of number of patients, and the use of a confocal microscopy technique with poor axial without the possibility of acquiring metabolic images of the biofilm. Based on the previous description of biofilm by optical coherence tomography (OCT), and a recent experience with an optimised form of high-resolution OCT, called full-field OCT, the investigator hypothesise that full-field OCT will allow more accurate characterisation of biofilm, due to its high spatial resolution and its potential ability to capture metabolic activity in the biofilm BIOPAVIR 2 proposes to use the performance of full-field OCT to better characterise the biofilm lining endotracheal tubes in patients undergoing mechanical ventilation in intensive care units. This project represents a first step towards understanding the link between the development of biofilm on intubation and the occurrence of VAP
This study aims to compare of effect of chlorhexidine gluconate and alcohol hand rubbing on healthcare-associated infection (HCAI) in neonatal intensive care unit at Alexandria University Children Hospital.
This study is designed to evaluate the clinical and antibacterial efficacy, safety and pharmacokinetics of the drug Fluorothiazinone compared to placebo to prevent nosocomial gram-negative bacterial infections with participation of patients on mechanical ventilation. The main objectives of this study are: * Evaluation of the clinical and antibacterial efficacy of the drug Fluorothiazinone in combination with standard measures for the prevention of nosocomial infections compared to placebo in combination with standard measures for the prevention of nosocomial infections for the prevention of nosocomial infections caused by bacterial gram-negative flora in patients on mechanical ventilation. * Evaluation of the safety and tolerability of the drug Fluorothiazinone in patients on mechanical ventilation. * Evaluation of the pharmacokinetics (in whole blood) of the drug Fluorothiazinone with a single daily dose of 2400 mg/day. Researchers will compare results for the treatment and the placebo arms.
This is a prospective observational physiopathological study aimed at evaluating the immunological and inflammatory determinants associated with the prognosis of patients admitted to intensive care units (ICU). The study will establish multidimensional models predicting one-year survival and the occurrence of nosocomial infections. Patients admitted to ICU undergo routine biological sampling. In addition to these, minimal supplementary samples will be collected for immunological and inflammatory biomarker analysis at admission, day 1, day 4, day 8, ICU discharge or day 28, and at 12 months. Additional samples may be taken during clinically significant events (nosocomial infections, complications).
Clostridioides difficile (C. difficile) is the most common healthcare-associated pathogen, causing \>500,000 infections and \>29,000 deaths per year in the US. Traditional approaches to reduce hospital-onset CDI focus on identifying, isolating, and treating symptomatic patients to prevent transmission to other patients. Recent genomic epidemiology studies, however, suggest that most hospital-onset CDI cases are attributable to asymptomatic carriers who either progress from colonization to active infection themselves or transmit C. difficile to other patients while asymptomatic. This trial will evaluate an intervention to pre-emptively identify asymptomatic C. difficile carriers and then implement a patient-tailored prevention package to protect the carrier from progression to active infection and to prevent transmission from the carrier to other patients.
Poor dental hygiene has been linked to respiratory pathogen colonization in ICU patients. Therefore, respiratory pathogens tend to colonize dental plaque and oral mucosa in these populations. Therefore, strategies to eliminate respiratory pathogens from the oral cavity may improve oral hygiene and decrease the development of nosocomial pneumonia.
Ventilator-Associated Pneumonia (VAP) is a bacterial respiratory infection that patients in the Intensive Care Unit (ICU) often get when they cannot breathe for themselves and require mechanical ventilation. It is linked to higher chances of death, a longer stay in the hospital, higher costs, and the use of more antibiotics. Options to help prevent or treat this disease are in development and will require evaluation in future clinical trials. The goal of POS-VAP is to build and continuously train a network of ICUs to be prepared for doing these trials, to facilitate their execution.
Prospective, multi-center, cluster-randomized trial of a hospital Infection Preventionist (IP)-led quality improvement study to provide clinical teams with just-in-time clinical education and reinforcement of existing best practices recommendations based on the output of a possible Central Line Associated Blood Stream Infection (CLABSI) Machine Learning (ML) prediction model. The objective is to determine whether providing this model to Infection Preventionists will decrease the CLABSI rates versus routine clinical practice.
The aim of this research project is to investigate the transmission of ESBL-producing Enterobacteriaceae on both, the level of bacterial strains and mobile genetic elements, and to determine the source of hospital-acquired infections.
Nosocomial Infections (NI) are a common and dreadful complication for patients suffering from Acute Respiratory Distress Syndrome (ARDS) treated with Extracorporeal Membrane Oxygenation (ECMO). Unfortunately, no study has thoroughly evaluated NI in this fragile patient cohort. Newly developed antibiotics may help manage such infections, but their pharmacokinetics (PK) during ECMO has not been evaluated. Objectives of this prospective observational multicenter pharmacological no-profit study are: 1) describe incidence, microbial etiology, and resistance patterns, and assess risk factors for NIs in a large prospective cohort of ARDS patients undergoing ECMO. 2) provide a PK analysis of ceftazidime/avibactam, meropenem/vaborbactam, ceftolozane/tazobactam, and cefiderocol in adult patients undergoing ECMO Incidence, microbial etiology, and antibiotic resistance patterns of confirmed NIs will be prospectively collected and analyzed. In the subgroup of patients treated with ceftazidime/avibactam, meropenem/vaborbactam, ceftolozane/tazobactam, or cefiderocol as per clinical practice, blood and bronchoalveolar concentration of the antibiotic will be measured, and PK modeling carried out.
The TOTEM study is a single-center study designed to evaluate the performance of the D-lactate assay in cerebrospinal fluid (CSF) for the diagnosis of ventriculostomy-related nosocomial meningitis. The study will be conducted in the neurosurgical intensive care unit of the Toulouse University Hospital, in patients with a suspected diagnosis of ventriculostomy-related nosocomial meningitis.
The goal of this clinical trial is to propose a seamless intervention linking rapid bacterial isolate identification and antibiotic resistance gene detection and targeted antibiotic prescription to minimise time between infection onset and appropriate treatment in patients with Pseudomonas aeruginosa or carbapenemase producing Enterobacterales infections. This is an investigator initiated trial. The primary hypothesis is that these interventions will lead to improved clinical outcomes amongst patients with hospital-acquired bloodstream infection, hospital-acquired pneumonia or ventilator-associated pneumonia due to carbapenem non-susceptible Pseudomonas aeruginosa or Enterobacterales, compared to standard antibiotic susceptibility testing. Patients will be randomised to either a control or intervention arm. Patients randomised to the intervention arm will have relevant specimens analysed by rapid microbiological diagnostics and will have early availability of ceftazidime-avibactam if appropriate. Patients randomised to the control arm, will have samples analysed by clinical microbiology laboratories using standard of care diagnostics. Antibiotics will be available to these patients as per usual institutional practice.
This is a multicenter, prospective randomized controlled trial. At least 2 but no more than 5 centers are expected to participate in the study. The primary objective is to test the hypothesis that the addition of high-dose inhaled nitric oxide therapy to standard treatment has a positive effect on the clinical course of pneumonia and the structure and function of cardiopulmonary system. Number of participants: 200, including the subproject NO-PNEUMONIA-CAP - 100 CAP participants, the subproject NO-PNEUMONIA-NP - 100 NP participants. Number of groups: 4 Inhalation of iNO at a dose of 200 ppm for 30 minutes under the control of methemoglobin level (no more than 5%) three times a day if the patient is allocated to the main group. The general course of iNO therapy will last until the pneumonia resolves, but no more than 7 days. Recording of vital signs and safety assessment will be carried out immediately before the initiation of NO therapy and every 15 minutes after its start (pulse, blood pressure, respiratory rate, SpO2, temperature, MetHb level).
Geographic Information Systems (GIS) and spatial analysis have become important tools in public health informatics but have rarely been applied to the hospital setting. In this study we apply these tools to address the challenge of Hospital Acquired Infections (HAIs) by building, implementing, and evaluating a new computer application which incorporates mapping and geographic data to assist hospital epidemiologists in identifying HAI clusters and assessing transmission risk. We expect that incorporation of geographic information into the workflow of hospital epidemiologists will have a profound effect on our understanding of disease transmission and HAI risk factors in the hospital setting, radically altering the workflow and speed of response of infection preventionists and improving their ability to prevent HAIs.
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Trials actively recruiting for Nosocomial Infections
Translating trial titles and descriptions to plain English...
Healthcare-associated infections (HAI), which have become a major problem in all countries, prolong hospital stay and increase treatment and care costs. In health care institutions, HAIs that occur directly or indirectly related to health services are among the most common causes of mortality and morbidity. A high level of hand hygiene compliance, which is the most basic step of infection control and precautions, is the first and most important step to prevent HAIs. However, it has been determined in the literature that the compliance rates of healthcare professionals with hand hygiene are low and that nurses' attitudes and behaviors regarding hand hygiene are not at the desired level. Well-structured training programs need to be developed to maintain and increase nurses' hand hygiene compliance rates. Different training methods and tools are needed to increase hand hygiene compliance, awareness and awareness. It is recommended that innovative training approaches such as virtual simulation be developed and evaluated to further internalize and encourage nurses' most effective hand hygiene practice behaviors. In recent years, the use of simulation methods in the training of healthcare professionals has been increasing as they facilitate the transfer of theoretical knowledge into clinical practice. One of these simulation methods is virtual reality (VR). The use of gamification in the virtual environment supports different learning styles, enabling learners to participate more intensively in education and increase their internal motivation. In this context, with VR support, entertainment and learning processes can be used to support each other. Considering the features of VR usage such as integrating knowledge and skills, creating a learning environment for the learner by doing, giving the opportunity to repeat until the correct application is made, reducing incorrect interventions in clinical practice and increasing patient safety, it is recommended that virtual simulation systems be used in nursing education. VR provides different opportunities to learners by enriching and diversifying learning environments. In these virtual environments, learners can have new experiences and these experiences remain permanent for the learners. As stated in the WHO Hand Hygiene Theme, it is important to develop innovative training programs, learning materials and measurement and evaluation tools regarding hand hygiene within the scope of infection control and prevention studies. VR simulation can be used to attract nurses' attention and awareness by increasing intrinsic motivation to perform hand hygiene, and can be used to support nurses in developing positive attitudes towards hand hygiene. Hand hygiene simulation scenarios created with virtual reality can contribute to greater awareness about the problems caused by microorganism transmission by increasing hand hygiene awareness. Thus, increasing attitudes and awareness regarding hand hygiene can have a positive effect on reducing the HAI rate by supporting the transformation of hand hygiene awareness into behavior. In the study, it was planned to develop, implement and evaluate a virtual reality hand hygiene simulation. It is thought that this virtual reality simulation will pave the way for the development of psychomotor skills for hand hygiene, increase the level of knowledge, and increase hand hygiene compliance by providing internal motivation to perform hand hygiene. In our country, no studies have been found on the development of virtual reality simulation in hand hygiene practice. The aim of this study is to develop and implement virtual reality hand hygiene simulation in teaching hand hygiene behaviors in nurses and to evaluate its effect on hand hygiene compliance.
Hospital-acquired Viral Respiratory Infections (HAVRI) are associated with substantial burden on health care systems. The prevention and control of these viral infections rely on multiple measures such as hand hygiene or wearing mask. However, vaccination remains the major preventive measure. To date, data at French national level are insufficient to describe the epidemiology of these infections, including their burden, and the potential protection of patients if vaccination coverage of health care professionals/patients is satisfactory. In addition, better understanding of the clinical characteristics of HAVRI will make it possible to identify potential sources of transmission as soon as possible and to implement appropriate hygiene measures. We will set up a hospital-based prospective multicenter study in Bordeaux, Paris-Bichat, Dijon and Lyon, involving four inclusion services (geriatrics, internal medicine and transplantation) per hospital. The main objective of this study is to calculate the incidence rate of hospital-acquired infections for three respiratory viruses; influenza, SARS-CoV-2 and syncytial respiratory virus (SRV), referred to as HARVI, in participating services. Volunteered health care professionals or hospitalized patients presenting with influenza-like illness (ILI) at admission or during their stay in the participating centers will be eligible to be enrolled during the two inclusion periods: (mid-October 2024 to mid-April 2025 and mid-October 2025 to mid-April 2026). For each patient/health care professional, a nasopharyngeal swab will be collected. A questionnaire including demographic data, medical history, vaccination, and clinical and biological data of the viral episode will also be completed by the study team. Patients tested positive for one of the viruses studied will be considered "cases" and patients tested negative as "controls". The collected data will be pseudonymized before statistical analyses. Statistical analyses will consist of calculating incidence rates, attack rates overall and by causative virus and analysis of factors associated with the occurrence of HARVI. The prospective design of the study will optimize the quality of the collected data (ex. consolidate the documentation of both the clinical picture and vaccination in patients and health care professionals by reducing memory bias) and allow to calculate the incidence rates, the crude and adjusted relative risks of HARVI according to the studied factors, and to describe multiple outcomes (hospitalization in intensive care units, death, etc.) based on the causative virus. The results of this research project will allow to: * obtain epidemiological indicators associated with HARVI; * estimate the impact of HARVI on the prognosis of patients in hospital; * assess the impact of HARVI on the total length of hospital stay; * identify risk factors associated with HARVI; * use the results as an argument for vaccination in order to increase vaccination coverage of healthcare workers.
As antibiotic resistance increases globally, it becomes more difficult to select empiric antibiotic therapy, particularly in patients with sepsis who stand to benefit from early adequate treatment. In particular it is difficult for clinicians to balance antibiotic stewardship principles (the need to avoid unnecessary prescribing of antibiotics that have an excessively broad spectrum of activity that favour resistance development) and under treatment. The integration of multiple risk variables for resistance are hard for clinicians to translate into clinical action, and is seemingly at odds with the natural inclination to provide heuristic/emotion-based antibiotic selection. The inappropriate treatment of sepsis is not uniformly too broad, or too narrow, and there is a need to optimize and tailor selection of antibiotic therapy to each patient, such that those that are at risk for resistant organisms receive broad therapy, and those that are not at risk, receive narrower antibiotic agents. Clinicians need support picking the right antibiotic for each patient, and from this they can potentially drive reduction of unnecessarily broad antibiotic prescribing while preserving adequacy of treatment. Individualized clinical prediction models and decision support interventions are promising approaches that meet these needs by improving the classification of patient risk for antibiotic resistant or susceptible infections in sepsis. Unfortunately, few have been validated in the clinical setting and larger rigorous studies are needed to provide the evidence to support broader clinical adoption. The investigators will perform a cluster randomized cross-over trial of an individualized antibiotic prescribing decision support intervention for providers treating hospitalized patients with suspected sepsis. The aim of this trial is to determine whether a stewardship led clinical decision support intervention can improve antibiotic de-escalation in patients with sepsis while maintaining or improving adequacy of antibiotic coverage. This decision support intervention will be based on a combination of proven decision heuristics (for Gram-positive organisms) and modelled predicted susceptibilities (for Gram-negative organisms) that are individualized to the patient. The primary outcome will be the proportion of patients de-escalated from their initial empiric regimen at 48 hours.
This study aims to determine whether the use of two sterile towels for drying after surgical handwashing results in fewer contamination events compared to the use of only one towel among healthcare personnel. This randomized, multicenter, superiority-controlled trial will enroll up to 72 healthcare workers and surgical residents from three hospitals in Bogotá, Colombia. A fluorescent product will simulate bacteria, and contamination will be assessed by evaluating the presence of fluorescent cream after hand drying technique with either two or one surgical sterile towel. Data will be collected through REDCap and deidentified. Differences in the proportion of contamination between the two groups will be assessed using an exact Fischer test, and confounding variables will be included in the analysis through logistic multivariate regression, with a significance level set a priori at 0.05. Results will be submitted for publication in a peer-reviewed journal.
NeoDeco is a pragmatic, multicenter, parallel-group, cluster-randomised hybrid effectiveness-implementation trial designed to evaluate the impact of implementing optimised Kangaroo Care (KC) at the unit level compared to standard care in high-technology neonatal units. The trial includes a baseline period, a wash-in phase, and a staggered randomisation approach. The primary focus of the NeoDeco study is on high-risk preterm infants born at less than 32 weeks' gestational age, a population particularly vulnerable to hospital-acquired infections and sepsis during their initial hospital stay. By investigating hospital-acquired infections specifically, the study targets the period during which optimised KC practices are likely to have the most significant impact.
Observational studies of patients with coronary artery bypass grafting, associated with an unfavorable cardiopulmonary prognosis for at least one year after surgery. This is Prospective, cohort, unblinded, observational comparable single center clinical trial. To compare the clinical, laboratory (including complete blood count, metabolic panel, and specific cardiac, inflammatory, infectious, and endothelial biomarkers), functional (ECG, echocardiography, ultrasound, spirometry, cardiopulmonary exercise testing), and radiological (chest X-ray/CT) phenotypes in patients with coronary artery bypass grafting with and without non-ventilator-associated postoperative, nosocomial pneumonia; to identify the factors of early and 1-years cardiopulmonary prognosis. Increased risk of cardiovascular outcomes is related with the circulatory arrest, artificial circulation, perioperative trauma and respiratory complications of the postoperative period associating to the different severity and duration of the systemic inflammatory response, immune status disorders, hemostasis disorder, endothelial dysfunction, external respiration dysfunction, anatomic and functional disorders in the heart and lungs. Individual predictors of an unfavorable prognosis can be determined at the stage of before and just after surgery to conduct personalized prevention. This study aimed to compare the clinical, laboratory (including complete blood count, metabolic panel, and specific cardiac, inflammatory, infectious, and endothelial biomarkers), functional (ECG, echocardiography, ultrasound, spirometry, cardiopulmonary exercise testing), and radiological (chest X-ray/CT) phenotypes in patients after coronary artery bypass grafting with and without non-ventilator-associated postoperative nosocomial pneumonia; to identify the factors of early and 1-years cardiopulmonary prognosis.
Biofilm is a microstructure organised into aggregates of microbiological species within a polymeric matrix. As early as the 2000s, the Centers for Disease Control and Prevention (CDC) recognised the possible role of the biofilm lining endotracheal endotracheal tubes in the development of ventilator-associated pneumonia (VAP) , the most common infection in intensive care, with a high morbidity and mortality rate and a significant increase in hospital costs. Targeting biofilm therefore now appears to be a new area of interest for limiting the risk of VAP, and this rationale has led to the development of an intraluminal for abrading biofilm deposited on the inside of the intubation probe . Evaluation of this type of strategy nevertheless justifies the introduction of more precise methods for characterisation of the biofilm. To this end, the investigator carried out an initial clinical study describing the biofilm on intubation probes, BIOPAVIR 1, showing the existence of several biofilm structures, each associated with a specific microbiological signature. Several limitations including a lack of power due to an insufficient number of patients and the use of number of patients, and the use of a confocal microscopy technique with poor axial without the possibility of acquiring metabolic images of the biofilm. Based on the previous description of biofilm by optical coherence tomography (OCT), and a recent experience with an optimised form of high-resolution OCT, called full-field OCT, the investigator hypothesise that full-field OCT will allow more accurate characterisation of biofilm, due to its high spatial resolution and its potential ability to capture metabolic activity in the biofilm BIOPAVIR 2 proposes to use the performance of full-field OCT to better characterise the biofilm lining endotracheal tubes in patients undergoing mechanical ventilation in intensive care units. This project represents a first step towards understanding the link between the development of biofilm on intubation and the occurrence of VAP
This study aims to compare of effect of chlorhexidine gluconate and alcohol hand rubbing on healthcare-associated infection (HCAI) in neonatal intensive care unit at Alexandria University Children Hospital.
This study is designed to evaluate the clinical and antibacterial efficacy, safety and pharmacokinetics of the drug Fluorothiazinone compared to placebo to prevent nosocomial gram-negative bacterial infections with participation of patients on mechanical ventilation. The main objectives of this study are: * Evaluation of the clinical and antibacterial efficacy of the drug Fluorothiazinone in combination with standard measures for the prevention of nosocomial infections compared to placebo in combination with standard measures for the prevention of nosocomial infections for the prevention of nosocomial infections caused by bacterial gram-negative flora in patients on mechanical ventilation. * Evaluation of the safety and tolerability of the drug Fluorothiazinone in patients on mechanical ventilation. * Evaluation of the pharmacokinetics (in whole blood) of the drug Fluorothiazinone with a single daily dose of 2400 mg/day. Researchers will compare results for the treatment and the placebo arms.
This is a prospective observational physiopathological study aimed at evaluating the immunological and inflammatory determinants associated with the prognosis of patients admitted to intensive care units (ICU). The study will establish multidimensional models predicting one-year survival and the occurrence of nosocomial infections. Patients admitted to ICU undergo routine biological sampling. In addition to these, minimal supplementary samples will be collected for immunological and inflammatory biomarker analysis at admission, day 1, day 4, day 8, ICU discharge or day 28, and at 12 months. Additional samples may be taken during clinically significant events (nosocomial infections, complications).
Clostridioides difficile (C. difficile) is the most common healthcare-associated pathogen, causing \>500,000 infections and \>29,000 deaths per year in the US. Traditional approaches to reduce hospital-onset CDI focus on identifying, isolating, and treating symptomatic patients to prevent transmission to other patients. Recent genomic epidemiology studies, however, suggest that most hospital-onset CDI cases are attributable to asymptomatic carriers who either progress from colonization to active infection themselves or transmit C. difficile to other patients while asymptomatic. This trial will evaluate an intervention to pre-emptively identify asymptomatic C. difficile carriers and then implement a patient-tailored prevention package to protect the carrier from progression to active infection and to prevent transmission from the carrier to other patients.
Poor dental hygiene has been linked to respiratory pathogen colonization in ICU patients. Therefore, respiratory pathogens tend to colonize dental plaque and oral mucosa in these populations. Therefore, strategies to eliminate respiratory pathogens from the oral cavity may improve oral hygiene and decrease the development of nosocomial pneumonia.
Ventilator-Associated Pneumonia (VAP) is a bacterial respiratory infection that patients in the Intensive Care Unit (ICU) often get when they cannot breathe for themselves and require mechanical ventilation. It is linked to higher chances of death, a longer stay in the hospital, higher costs, and the use of more antibiotics. Options to help prevent or treat this disease are in development and will require evaluation in future clinical trials. The goal of POS-VAP is to build and continuously train a network of ICUs to be prepared for doing these trials, to facilitate their execution.
Prospective, multi-center, cluster-randomized trial of a hospital Infection Preventionist (IP)-led quality improvement study to provide clinical teams with just-in-time clinical education and reinforcement of existing best practices recommendations based on the output of a possible Central Line Associated Blood Stream Infection (CLABSI) Machine Learning (ML) prediction model. The objective is to determine whether providing this model to Infection Preventionists will decrease the CLABSI rates versus routine clinical practice.
The aim of this research project is to investigate the transmission of ESBL-producing Enterobacteriaceae on both, the level of bacterial strains and mobile genetic elements, and to determine the source of hospital-acquired infections.
Nosocomial Infections (NI) are a common and dreadful complication for patients suffering from Acute Respiratory Distress Syndrome (ARDS) treated with Extracorporeal Membrane Oxygenation (ECMO). Unfortunately, no study has thoroughly evaluated NI in this fragile patient cohort. Newly developed antibiotics may help manage such infections, but their pharmacokinetics (PK) during ECMO has not been evaluated. Objectives of this prospective observational multicenter pharmacological no-profit study are: 1) describe incidence, microbial etiology, and resistance patterns, and assess risk factors for NIs in a large prospective cohort of ARDS patients undergoing ECMO. 2) provide a PK analysis of ceftazidime/avibactam, meropenem/vaborbactam, ceftolozane/tazobactam, and cefiderocol in adult patients undergoing ECMO Incidence, microbial etiology, and antibiotic resistance patterns of confirmed NIs will be prospectively collected and analyzed. In the subgroup of patients treated with ceftazidime/avibactam, meropenem/vaborbactam, ceftolozane/tazobactam, or cefiderocol as per clinical practice, blood and bronchoalveolar concentration of the antibiotic will be measured, and PK modeling carried out.
The TOTEM study is a single-center study designed to evaluate the performance of the D-lactate assay in cerebrospinal fluid (CSF) for the diagnosis of ventriculostomy-related nosocomial meningitis. The study will be conducted in the neurosurgical intensive care unit of the Toulouse University Hospital, in patients with a suspected diagnosis of ventriculostomy-related nosocomial meningitis.
The goal of this clinical trial is to propose a seamless intervention linking rapid bacterial isolate identification and antibiotic resistance gene detection and targeted antibiotic prescription to minimise time between infection onset and appropriate treatment in patients with Pseudomonas aeruginosa or carbapenemase producing Enterobacterales infections. This is an investigator initiated trial. The primary hypothesis is that these interventions will lead to improved clinical outcomes amongst patients with hospital-acquired bloodstream infection, hospital-acquired pneumonia or ventilator-associated pneumonia due to carbapenem non-susceptible Pseudomonas aeruginosa or Enterobacterales, compared to standard antibiotic susceptibility testing. Patients will be randomised to either a control or intervention arm. Patients randomised to the intervention arm will have relevant specimens analysed by rapid microbiological diagnostics and will have early availability of ceftazidime-avibactam if appropriate. Patients randomised to the control arm, will have samples analysed by clinical microbiology laboratories using standard of care diagnostics. Antibiotics will be available to these patients as per usual institutional practice.
This is a multicenter, prospective randomized controlled trial. At least 2 but no more than 5 centers are expected to participate in the study. The primary objective is to test the hypothesis that the addition of high-dose inhaled nitric oxide therapy to standard treatment has a positive effect on the clinical course of pneumonia and the structure and function of cardiopulmonary system. Number of participants: 200, including the subproject NO-PNEUMONIA-CAP - 100 CAP participants, the subproject NO-PNEUMONIA-NP - 100 NP participants. Number of groups: 4 Inhalation of iNO at a dose of 200 ppm for 30 minutes under the control of methemoglobin level (no more than 5%) three times a day if the patient is allocated to the main group. The general course of iNO therapy will last until the pneumonia resolves, but no more than 7 days. Recording of vital signs and safety assessment will be carried out immediately before the initiation of NO therapy and every 15 minutes after its start (pulse, blood pressure, respiratory rate, SpO2, temperature, MetHb level).
Geographic Information Systems (GIS) and spatial analysis have become important tools in public health informatics but have rarely been applied to the hospital setting. In this study we apply these tools to address the challenge of Hospital Acquired Infections (HAIs) by building, implementing, and evaluating a new computer application which incorporates mapping and geographic data to assist hospital epidemiologists in identifying HAI clusters and assessing transmission risk. We expect that incorporation of geographic information into the workflow of hospital epidemiologists will have a profound effect on our understanding of disease transmission and HAI risk factors in the hospital setting, radically altering the workflow and speed of response of infection preventionists and improving their ability to prevent HAIs.
21 trials · Recruiting