View clinical trials related to Communicable Diseases.
Filter by:Subjects have a type of blood cell cancer, other blood disease or a genetic disease for which they received a stem cell transplant. After transplant while the immune system grows back the subjects have an infection with one or more of three viruses - Epstein Barr virus (EBV), cytomegalovirus (CMV) or adenovirus - that has persisted or come back despite standard therapy. Adenovirus is a virus that causes symptoms of a common cold normally but can cause serious life-threatening infections in patients who have weak immune systems. It usually affects the lungs and can cause a very serious pneumonia, but it can also affect the gut, the liver, the pancreas and the eyes. CMV is a virus that can also cause serious infections in patients with suppressed immune systems. It usually affects the lungs and can cause a very serious pneumonia, but it can also affect the intestinal tract, the liver and the eyes. Approximately 2/3 of normal people harbor this virus in their body. In healthy people CMV rarely causes any problems because the immune system can keep it under control. If the subject and/or the subject's donor are positive for CMV, s/he is at risk of developing CMV disease while his/her immune system is weak post transplant. EBV is the virus that causes glandular fever or kissing disease. It is also normally controlled by a healthy immune system, but when the immune system is weak, it can cause fevers, enlarged lymph nodes and sometimes develop into a type of cancer called lymphoma. This treatment with specially trained T cells (called CTLs) has had activity against these viruses when the cells are made from the transplant donor. However, as it takes 2-3 months to make the cells, that approach is not practical when the subject already has an infection. We want to find out if we can use CTLs which have already been made from another donor that match the subject and his/her donor as closely as possible and if the CTLs will last in the body and have activity against these viruses. In a recent study these cells were given to 50 patients with viral infections post transplant and over 70% had a complete or partial response. The purpose of this study is to make CTL lines leftover from that previous study available to patients with viral infections that have not responded to standard treatments. These virus-specific CTLs are an investigational product not approved by the FDA.
We need human blood to understand the immune response to infection and to test promising new vaccines against infectious diseases in the laboratory. One test is called the Serum Bactericidal Assay (or SBA), which is measure of how effective antibodies are at killing certain bacteria and can be an important measure of how effective a new vaccine may be. The samples would be used in the laboratory analysis of clinical trials of vaccines used in adults and children, and some samples in pre-clinical (animal) experiments testing new vaccines before they enter human-stage testing. Most people have some form of protection against most bacteria already, so not everyone is a suitable blood donor for this laboratory test. We therefore start by taking a small blood sample and test this one before asking for more blood if we found yours suitable for the work we do.
An experimental hookworm infection model is being developed to provide early proof-of-concept that a hookworm vaccine targeting the blood-feeding pathway of adult hookworms is feasible and efficacious. The proposed model consists of vaccinating healthy, hookworm-naïve adults with a candidate hookworm vaccine, followed by challenging them with the investigational product, Necator americanus Larval Inoculum to assess the effect of vaccination on infection. The first proposed study will be a feasibility study that will consist of administering different doses of the Necator americanus Larval Inoculum to healthy adult volunteers to determine the optimal dose (i.e., number of infectious larvae) that is safe, well-tolerated and results in consistent infection.
The primary objectives of this study are to assess the safety of ABT-450/r/ABT-267 with and without ABT-333 coadministered with and without ribavirin (RBV) for 12 and 24 weeks in HCV GT1- or 4-infected participants with HIV-1 coinfection and to evaluate the percentage of subjects achieving HCV ribonucleic acid (RNA) < lower limit of quantification (LLOQ) 12 weeks following treatment.
The primary goal of this project is to improve the process for contacting patients that test positive for a sexually transmitted infection (STI) in the emergency department by using text messaging. We believe patients that are contacted by both a phone call and a text message will be reached more often and they will be reached sooner than those that only receive a phone call or only a text message. In addition, patients will be given reminder cards at the time of testing to remind them that they will be contacted within 7 days if they test positive. Half of the reminder cards will have a number to call for test results. We believe patients that receive a card with a number are more likely to be contacted within 7 days.
In the past 70 years antibiotics have served as the first line of defense against infectious diseases. However, antibiotics are only effective against bacterial infections and are not the solution for infections caused by viruses such as common colds or flu. Despite their contribution to healthcare, antibiotics are currently recognized as the most misused drugs in the world with global overuse estimated at 40%-70%, mostly due to the ineffectiveness of current diagnostic solutions to distinguish between bacterial and viral infections. Antibiotics misuse often causes preventable adverse events that impact patient care and lead to the emergence of antibiotic-resistant bacteria, one of the major threats to global health today. To address these challenges, MeMed has been developing the ImmunoDx™, a novel technology that relies on the best available detection system for differentiating between viruses and bacteria - the body's own immune system. The ImmunoDx™ technology employs a simple blood test that provides the physician, within two-hours, the information he needs to decide whether to treat the patient with antibiotics or not. This technology has been tested on over 1000 patients of different ages and diseases and was found to be highly accurate and safe. The current study is a non-interventional study and the participants do not receive any investigational drug nor any experimental examination or procedure. Therefore, the collected data in this study will not affect the diagnosis, prognosis, or treatment of the participants. Participation includes the collection of a teaspoon of blood and collection of a specimen using a nasal swab. These procedures are common in the clinical practice and are widely performed and possess no significant risk. By participating in the study, the subjects impact the development of the ImmunoDx™ technology, which is expected to enable a future faster and more accurate diagnosis of infectious diseases as well as more appropriate prescription of antibiotics. This will open the way to improve treatment decisions in millions of patients around the world.
Some acute upper respiratory tract infection(AURI) in children is characterized by fever and vomiting,and it is one common reason for visiting a pediatrician. White blood count(WBC) usually increased in this children patients,hence antibiotics are often prescribed properly assumed. In the present study, it was hypothesized that it was not necessary to prescribe amoxicillin for the children.
The purpose of this study is to learn more about infection by Clostridium difficile (also known as C. difficile). C. difficile is a common bacterium (a germ that may cause disease) that can live in the human gut. Some people have it without having any symptoms. In other people it can cause illness ranging from mild diarrhea to severe colitis (infection of the colon). C. difficile makes toxins that damage the cells that line the colon. The study doctors want to find out how these toxins cause damage to the cells in the colon.
Serum samples will be corrected twice from the same youth subjects with one year interval. Seroincidence of pertussis will be estimated by the elevation of Ig-G-PT in paired sera from an identical individual. The relationship between the incidence and the demographic data or medical history of the subjects will be discussed.
This Phase II study will evaluate the safety and efficacy of three fluoroquinolone ophthalmic agents to determine the optimal treatment in patients with infectious corneal ulcers.