View clinical trials related to Bacterial Infections.
Filter by:A single dose infusion of Vabomere (meropenem-vaborbactam) is being tested for dose-finding, pharmacokinetics, safety, and tolerability in pediatric subjects from birth to less than 18 years of age with serious bacterial infections
Helicobacter pylori is closely related with gastritis, peptic ulcer, gastric cancer and gastric MALT lymphoma, and it may participate in a variety of parenteral diseases. Infection rates of Helicobacter pylori is still high, so effectively eradication is necessary. At present, the eradication therapy has achieved very good curative effect. However, relapse after eradication is unoptimistic. This study has made an analysis for reinfection after eradication of Helicobacter pylori Infection include the retrospective and prospective studies, aims to explore the epidemiological data and related risk factors of Hp reinfection in China.
Severe malaria and bacterial Blood Stream Infections (bBSI) are impossible to differentiate clinically. This poses a particular threat in low resource areas, where bBSI is often not diagnosed due to the unavailability of rapid diagnostic means. Even if used appropriately, the sensitivity of blood culture to diagnose bBSI is estimated to be around 50%. To counter the high mortality rate associated with bBSI, antibiotics are often prescribed without microbiological confirmation. Sysmex Company has developed technology that enables the rapid diagnosis of malaria using a venous blood sample. In addition algorithms based on hematological parameters can be used to monitor disease severity and progression, as well as guide further diagnostic testing based on differences seen in these parameters between various types of disease. The algorithms have been developed and tested in adult populations from different industrialized countries and in one Asian population. However no data are available neither from pediatric patients, nor from the sub-Saharan setting where the epidemiology of infectious diseases is very different from the tested settings. The objective of the study is to: 1) Assess the sensitivity and specificity of the Sysmex hematology analyzer based on the new technology to diagnose malaria in subjects older than 3 months, who present with an acute severe febrile illness in a malaria endemic area in sub-Saharan Africa 2) Test and optimize the value of Sysmex analyzers in disease diagnosis and monitoring in children older than 5 years and adults, who present with an acute severe febrile illness in a malaria endemic region in sub-Saharan Africa, to differentiate between severe malaria and bBSI, or a combination of these infections. 3) Explore the value of Sysmex analyzers in disease diagnosis and monitoring in children between 3 months and 5 years of age, who present with an acute severe febrile illness in a malaria endemic region in sub-Saharan Africa.
There are many bacteria that naturally live in our gut and are essential for good health. These bacteria have a variety of helpful functions, such as aiding digestion, synthesizing vitamins, repressing the growth of harmful bacteria and defending against some diseases. The desirable bacteria that live in the gut are collectively known as 'gut flora', or more appropriately, as 'gut microbiota'. The less desirable resistant bacteria, however, can also be carried in a person's gut for prolonged periods of time and be found in the stools without causing illness. Persons that carry the resistant bacteria in the gut are known as "carriers" and they require no treatment. Knowing that a person carries resistant bacteria is helpful, because it will inform the choice of antibiotic if the person were to become unwell or had an intervention such as surgery in the future. There is some evidence that resistant bacteria found in the stools can sometimes be passed from one person to another and eventually make someone ill if they infect (invade) their body. The investigators do not know how often this may happen, or how much carrying resistant bacteria in the stools may facilitate the spread of resistant bacteria in the population. It is important to address these questions and study ways to stop the resistant bacteria from spreading to safeguard the efficacy of antibiotics.
Chronic obstructive pulmonary disease (COPD) is a worldwide chronic inflammatory disease of the airways linked to environmental exposure. The chronic course of COPD is often interrupted by acute exacerbations which have a major impact on the morbidity and mortality of COPD patients. A bacterial etiology for these exacerbations is common (almost 50%). Moreover, airway bacterial colonization linked to an increased susceptibility is observed in COPD patients. Effective Th17 immune response is needed to develop a good response against bacteria. Thus, this study aims to demonstrate that there is a defective IL-17/ IL-22 response to bacteria in COPD leading to airway bacterial colonization and infection.
This project aimed at analyzing and assessing of the early and late Hospital-Acquired Pneumonia(HAP) bacterial pathogens and their resistance to antimicrobial agents. The incidence of their resistance to antimicrobial agent is assessed. Included are patients hospitalized in the Intensive Care Departments of cooperated University hospitals, who developed early or late HAP. Bacterial pathogens and their resistance to antibiotics are identified using standard microbiological methods. The patient's mortality with respect to their initial antibiotic therapy is statistically analyzed.
The main objective of this study was to compare the diagnostic capability (sensitivity and specificity) of standard bacteriological analysis made from one or other of the two sampling processing techniques and perioperative management of samples : the Ultra Turrax method that uses grinding versus the standard method.
The investigators propose a pragmatic comparative effectiveness trial evaluating several decolonization strategies in patients with Staphylococcus aureus infection, their household contacts, and household environmental surfaces. The central hypothesis of this proposal is that an integrated approach of periodic personal and household environmental hygiene will reduce S. aureus transmission in households and subsequently decrease the incidence of skin and soft tissue infections (SSTI).
The investigators will performed a large-scale multi center trial to compare the efficacy of a high-dose dual therapy (HDDT) with that of standard therapies in treatment-naive (n = 300) patients with Hp infection. Consecutive symptomatic patients will be recruited in Israel and Spain when tested positive to Hp with serology and 13C urea breath test (13C-UBT) due to symptoms. Patients with gastric cancer, MALT lymphoma, and younger than 18 or older than 80 years old will be excluded. All patients will be naive to eradication therapy and will be randomized into one of three groups: Group 1: Nexium 40 mg and amoxicillin 1.5 gr twice daily for 14 days Group 2: Nexium 40 mg and doxycycline 200 mg twice a day Group 3: Triple therapy of Nexium 20 mg, clarythromycin 500 mg, and amoxicillin 1gr twice a day for 10 days (regular accepted treatment). All treatments will be stopped for a month and then 13CUBT will be repeated. The primary aim of the study is to assess eradication success, intentioned to treat and per protocol in the three treatment regimens. The secondary aim of the study is to assess the safety of high dose amoxicillin and doxycycline.
The investigators retrospectively evaluated the efficacy of granulocyte transfusions as adjunctive treatment for severe infections in neutropenic fever unresponsive to antimicrobial therapy in hematological patients.