View clinical trials related to Communicable Diseases.
Filter by:Coronavirus Disease 19 (COVID-19) represents an unprecedented challenge to the operations and population health management efforts of health care systems around the world. The "Pandemic Research Network (PRN): Duke Community Health Watch" study leverages technology, clinical research, epidemiology, telemedicine, and population health management capabilities to understand how to safely COVID-19. The target population is individuals in the Duke Health region as well as individuals beyond the Duke Health region who have flu-like symptoms, a viral test order for COVID-19, confirmed COVID-19, or concern for exposure to COVID-19. A subgroup of particular interest within the target population is health care workers (HCW) and families of HCW. Community members will enroll in the study electronically and for 28 days will be reminded via email or SMS to submit signs and symptoms related to COVID-19. Participants who report symptoms will be provided information about COVID-19 testing (if needed) and established mechanisms to seek care within Duke Health. Instructions for telemedicine and in-person visits, which is available publicly at https://www.dukehealth.org/covid-19-update, will be presented to participants. Participants who are unable to report symptoms independently may be contacted via telephone by Population Health Management Office (PHMO) or Clinical Events Classification (CEC) team members. Data collected through the "Pandemic Response Network (PRN): Duke Community Health Watch" study will be used for three objectives. - First, to characterize the epidemiological features of COVID-19. Specifically, we will have a high-risk subgroup of HCW and families of HCW that we enroll. - Second, to develop models that predict deterioration and the need for inpatient care, intensive care, and mechanical ventilation. - Third, to develop forecast models to estimate the volume of inpatient and outpatient resources needed to manage a COVID-19 population. The primary risk to study participants is loss of protected health information. To address this concern, all data will be stored in Duke's REDCap instance and the Duke Protected Analytics Compute Environment (PACE).
Infectious diseases remain leading causes of mortality and morbidity in children. Rapid and accurate diagnosis of infectious diseases in children is important for developing an effective treatment and management strategy. However, the current diagnosis of infectious agents mainly depends on culture and molecular testing. Both of the methods either has long turnaround times or narrow detection range. Metagenome next generation sequencing (mNGS) has been applied to the diagnosis of central nervous system infection, lower respiratory tract infection and sepsis, which showed high positive rate, short turnaround time. However, there is currently no assessment of the diagnostic efficacy of mNGS in children infectious diseases. This study used the DNA extraction and library construction technology developed for children's low volume clinical samples to assess the sensitivity and specificity of mNGS in the diagnosis of infectious diseases, and the treatment outcome based on mNGS test results.
Allogeneic hematopoietic stem cell transplantation (allo-HSCT) is an effective or even the only way to cure blood malignant diseases. Cytomegalovirus (CMV) infection is a serious early complication of allo-HSCT. Its high incidence and poor prognosis can cause a series of terminal organ diseases such as CMV pneumonia, encephalitis, and enteritis,which seriously affecting the prognosis of patients post allo-HSCT. Our data show that rapid reconstruction of NK cells after transplantation can reduce the incidence of CMV infection. Patients with a rapid reconstruction of NKG2C after transplantation have a low CMV infection rate, and patients with strong secretion of IFN-gamma of NK after transplantation have low CMV infection. Our previous research showed that trophoblast cells transfected with IL-21 and 4-1BBL can achieve a large number of clinical-grade expansion of NK cells (mIL-21 / 4-1BBL NK cells), and mIL-21 / 4-1BBL NK cells It is safe to treat patients with minimal residual disease (MRD) positive AML after transplantation, and can induce MRD to turn negative. Previous studies have shown that adoptive infusion of expanded NK cells after haplotype transplantation is safe and can improve the functional reconstruction of NK cells. Therefore, we hypothesized that the infusion of NK cells can improve the antiviral capacity of NK cells, thereby effectively reducing the CMV infection. Incidence.
People nowadays tend to have irregular diet and routine due to the stress at work. This condition may cause intestinal microflora imbalance, and in the long term may lead to constipation, diarrhea, gastroenteritis, gastric ulcer and other gastrointestinal diseases. Helicobacter pylori infection, which can trigger gastrointestinal inflammation and ulcer, is commonly treated by antibiotics. This treatment, however, can reduce the diversity of the intestinal microflora, causing diarrhea, flatulence and nausea. Clinical trials showed that probiotics and prebiotics supplementation could regulate gastrointestinal function, including alleviating constipation, ameliorating antibiotic-associated diarrhea and flatulence, enhancing the effect of H. pylori treatment, and restoring the balance of intestinal microflora. This Probiotics product is a supplement containing several types of probiotics and prebiotics which has been marketed for years. This project aims to observe the effectiveness of Probiotics product consumption by H. pylori-infected patients in relieving the gastrointestinal symptoms and restoring their intestinal microflora.
This study aims to optimize the dosing of cefazolin, ceftazidime, and ciprofloxacin for patients on high-flux hemodialysis. For each antibiotic 20 participants will be enrolled and three blood samples will be collected from each participant. Antibiotic levels will be measured in each blood sample. This data will be used to develop population-pharmacokinetic models for each antibiotic. Finally, Monte Carlo simulations will be used to develop evidence-based dosing recommendations.
The study aims to evaluate the prognostic value of alveolar and blood NETosis in patients under mechanical ventilation and treated for an acute low-respiratory tract infection. The main outcome is the occurrence of an acute respiratory distress syndrome (ARDS) according to the Berlin definition.
Staphylococcus lugdunensis is a coagulase-negative Staphylococcus (CoNS) belonging to the normal human skin flora. It is responsible for a wide variety of infections, such as skin and soft tissue infections, bone and joint infections, but also bacteraemia and endocarditis. Although the implication of S. lugdunensis in infectious diseases is proven, many questions remain both in terms of clinical and molecular epidemiology. In this context, INHOSTAL is the first prospective, bicentric study, which will comprehensively include all patients with S. lugdunensis infection (based on microbiological and clinical data) in two French university hospitals. The main objective of this study is thus to determine the incidence of S. lugdunensis infections in hospitalized patients. Moreover, the originality of this project is to compare the characteristics of S. lugdunensis infections with those of infections caused by S. aureus and other species of CoNS. Thereby, the clinical epidemiology of these infections will be compared (i.e. types of infection, mode of acquisition, host risk factors…). Finally, complete genome of all S. lugdunensis strains will be sequenced using Illumina technology and analyzed to describe the molecular epidemiology as well as the molecular mechanisms of antibiotic resistance (compared to antibiotic susceptibility evaluated by minimum inhibitory concentrations determined by Sensititre technique). This will enable to identify if predominant clones exist, and if some strains are spreading into the hospital. The duration of the study period will be 18 months, to allow the inclusion of a total of 300 patients: 100 S. lugdunensis infections, as well as 100 S. aureus infections and 100 other species of CoNS infections.
This is a retrospective case:control study examining the use of adjunctive bezlotoxumab to standard C. difficile infection (CDI) treatment compared to standard CDI treatment alone in patients with CDI seen in an academic medical center's specialty outpatient clinic.
This study aim to evaluate the immune response of negative patients during a COVID-19 outbreak. Patients are serially tested with a VivaDiag ™ COVID-19 lgM / IgG Rapid Test to evaluate the immune response in negative patients and the reliability of the test in those patients who develop clinical signs of COVID-19 during the trial.
Urinary Tract Infection (UTI) is the most common hospital acquired infection worldwide, and is most commonly associated with catheterisation of the bladder. Catheter associated urinary tract infection (CAUTI) causes increased hospital costs, increased length of stay and increased mortality. This burden of disease is, in part, mediated by a lack of diagnostic and monitoring modalities for CAUTI. Both traditional and novel UTI diagnostic tests are susceptible to false positives associated with bacterial colonisation, and correlate poorly with clinically meaningful symptomatic CAUTI. As such, the current standard of care is reliant on clinical monitoring, which is susceptible to diagnostic delays, over and under treatment. Imperial College London have developed a wireless biosensor for continuous monitoring of catheter-urine biochemistry. This project aims to validate this biosensor and demonstrate it's potential for preemptive CAUTI diagnosis through continuous urinary biochemical monitoring.