View clinical trials related to Infection.
Filter by:This study is an open-label trial in which hospitalized patients with risk factors of severe coronavirus disease 2019 [COVID-19] will be receive treatment with convalescent plasma (≤ 15 days from symptoms start).
This study involves surveying two matched groups of patients that underwent dermatologic surgery at our department. One group had a documented surgical site infection and the other didn't. All patients will be asked to complete a questionnaire in which they assess the physical appearance of their scars and its psychosocial impact. Results will be compared between the groups.
To evaluate the effectiveness of the probiotic Bifidobacterium lactis CCT 7858 in preventing and / or improving gastrointestinal symptoms in adults using antibiotics. For this, a randomized, double-blind, placebo-controlled clinical trial will be carried out. The sample will be composed of adults who will be recruited in a hospital, who have been hospitalized and receive a prescription for antibiotics. The individuals will be separated into two groups: intervention and placebo. 104 patients will be included, 52 for each group. Inclusion criteria: adults of both sexes and aged between 18 and 65 years, who have been recruited within 24 hours after starting antibiotic treatment, the prescribed treatment should be with antibiotics for a minimum of 9 days and a maximum of 14 days. The informed consent must be signed before starting the study.
Currently, a major issue within respiratory medicine is undertaking procedures that generate aerosolisation with the concern of spreading infection, such as the SARS-COV-2/COVID-19 virus. It is anecdotally reported that lung function testing and positive airways pressure devices used in clinical practice are aerosol generating procedures however the data to support this is limited. With the advent of high-speed imaging systems that can capture and quantify particle size and velocity we aim to investigate the aerosol generation in routine non-invasive positive pressure respiratory procedures.
Analysing ths spread of COVID-19 epidemics in a timely manner is key to implementing public health control strategies. The investigators propose to analyse a large set of laboratory SARS-CoV-2 RT-PCR data to explore potential links between Ct values and epidemic parameters.
All patients undergoing allogeneic or autologous HSCT at the participating centres will be observed. Once a diagnosis of CNS disorder is made, additional data will be reported for these patients. We will identify clinical and diagnostic characteristics such as cerebrospinal fluid (CSF) and neuroimaging patterns, risk factors, response to treatment (including novel antifungal agents such as isavuconazole) and outcome. In addition, risk factors for CNS disorders after allogeneic and autologous HSCT will be analyzed using a prospectively assessed matched control group. In the future, this study might be the basis for an interventional trial (e.g. using a prophylactic approach).
External ventricular drains (EVD) are small tubes used in neuro-critical care inserted to measure pressure and treat acute build-up of fluid in the brain by draining the cerebrospinal fluid (CSF) in the ventricles, often following an event of traumatic or spontaneous bleeding. While essential to the care of these patients, EVDs run the risk of introducing bacteria into the brain of the patient, causing an EVD associated infection (EVDI). EVDIs are feared complications that are difficult to identify and predict in an intensive care setting. In order to allow for early identification of these infections, CSF is routinely sampled from the EVDs and its constitution analyzed for signs of infection. However, the constitution of the CSF in neuro-critical care patients are often difficult to assess as it is frequently mixed with blood that often clouds clinical decision making. No fast parameter has been found to yet reliably predict or identify these infections, resulting in excessive treatment with broad-spectrum antibiotics in this patient group. EVDI diagnostics rely on mainly CSF analyses and cultures (growth of bacteria in the laboratory). Growing bacteria in the lab may take many days and can seldom guide early decision-making for these infections. Thus, EVDI diagnostics mainly rely on the analysis of the CSF constitution. Many diagnostic criteria rely on the relationship between white and red blood cells in the CSF, with red blood cells being introduced in the CSF following the brain bleed , and white blood cells being seen as a response to infection. These criteria assume that the blood is homogeneous in the CSF. However, from computed tomography (CT) imaging of these patients, it is seen that blood can settle in the brain ventricles. In this study we aim to test the assumption that blood is homogeneously distributed in the CSF by sampling from the CSF in patients. Two samples are serially drawn allocated to a period between where patients are planned for a clinical repositioning, or not. We hypothesise that a heterogeneous distribution of blood in the CSF (as seen on CT imaging) may allow for the CSF constitution to change in serially drawn CSF samples, and that these changes may be exacerbated in repositioned patients as it may disturb the blood that has settled at the bottom of the ventricles as a result of gravity sedimentation. We further believe that these changes may affect clinical decision making and further complicate EVDI diagnostics.
COVID-19-infection has a large impact on the respiratory system and possibly on the diaphragm, the main respiratory muscle. In ICU-patients, diaphragm weakness is associated with prolonged ICU-stay, difficult weaning and increased mortality. Our research group recently found evidence for fibrosis and expression of genes involved in fibrosis as well as viral infiltration of the SARS-CoV-2 virus in diaphragm biopsies from COVID-19 ICU patients. This finding suggests a unique manifestation of diaphragm injury in COVID-19 patients after mechanical ventilation. However, it remains unclear what the exact nature and location of diaphragm injury is. Additionally, it is largely unknown whether this injury affects the movement of the diaphragm, but this might have important clinical implications. Therefore, we aim at visualizing the tissue characteristics and movement of the diaphragm in COVID-19 patients who recently received long-term mechanical ventilation, other ICU patients and healthy controls, using magnetic resonance imaging (MRI). MRI of the diaphragm was already shown feasible in previous research from our group (article currently under review). New insights in the characteristics of diaphragm weakness and injury in COVID-19 patients and control ICU-patients will contribute to strategies to prevent it and monitor the diaphragm of patients under mechanical ventilation, which can contribute to better patient outcomes.
In this observational study, 60 subjects with type 2 diabetes (T2D) and eligible, as per good clinical practice, for therapy with SGLT-2 inhibitor, will be randomized to receive a SGLT-2 inhibitor or a fixed dose combination of SGLT-2 inhibitor with a DPP4-inihibitor for 12 weeks. Measures will be performed at baseline and after 12 weeks of treatment, as per good clinical practice.
No biological marker is highly specific of infection and currently available, especially for bacterial infection. The ideal marker would be easy to perform, rapidly, inexpensive, and correlated with the severity and prognosis of the infection. decreased in eosinophil count (EC) is unspecific of a particular clinical picture and may support a systemic inflammation, whereas the deeper the eosinopenia is, the darker is the prognosis in ICU. The duration of eosinopenia is not clearly documented, but it has been recently shown that EC tends to normalization, rapidly after appropriate and effective antimicrobial therapy in case of bacterial infection among adults patients hospitalized in a medicine ward. In the light of this findings, Terradas et al. described that EC returned back to normal between the day 2 or day 3 in survivors, indicating a potential interest as a predictive marker of the evolution among hospitalized patients. To the best of our knowledge, no work has studied eosinopenia as a prognostic marker of mortality during bacterial infections in the elderly patients in a hospital setting. Our study aims to evaluate the prognosis value of the EC in a geriatric unit of tertiary care hospital.