View clinical trials related to Communicable Diseases.
Filter by:To assess the molecular epidemiology, clinical impact, treatment outcome and risk factors for infections caused by Enterobacteriaceae producing ESBLs in Italy in a large multicenter observational survey. SPECIFIC OBJECTIVES 1. To collect consecutive nonreplicate isolates of Enterobacteriaceae resistant to expanded-spectrum cephalosporins from clinical specimens from inpatients and outpatients. 2. To characterize the isolates for resistance phenotypes and for β-lactam resistance mechanisms. 3. To investigate the clonality of isolates. 4. To analyse the epidemiology of various resistance mechanisms/resistant clones. 5. To collect clinical and epidemiological data for patients with infections caused by the ESBL producers. 6. To analyse the epidemiology, risk factors and outcome for infections caused by ESBL producers.
This screening study will examine the causes of immune disorders affecting white blood cells, which defend against infections and will try to develop better means of diagnosis and treatment of these immune disorders. This is a 2 visit screening study and patients determined to be of interest for additional study or treatment will be asked to provide consent for enrollment into an appropriate NIH follow up study. This study does not cover the cost of the first visit to NIH for travel or lodgings but does cover the subsequent visit if there is one. A financial assessment may determine if the patient is eligible for financial assistance. This study does not enroll children under the age of 2. Patients known to have or suspected of having increased susceptibility to infections and their blood relatives may be eligible for this study, at the discretion of the principal investigator. Patients and family members may undergo the following procedures: - Personal and family medical history. - Physical examination and blood and urine tests. - Studies of breathing function (pulmonary function testing) - Dental examination. - Eye examination. - Genetic Testing - Stored specimens for future analysis - Microscopic examination of saliva, wound drainage or tissues removed for medical reasons for cell, hormone or DNA studies. In addition, patients will be asked to obtain permission for investigators to obtain their medical records, previous test results, or radiographic studies prior to the first visit. Patients will be asked to undergo imaging studies, such as a chest X-ray, CT scan or MRI scan. ...
Human papillomavirus (HPV)-infection belongs to the most common sexually transmitted diseases worldwide. HIV-infected men having sex with men (MSM) are strongly associated with a higher prevalence of genital HPV-infection, a higher incidence of anal intraepithelial neoplasia (AIN), and, consecutively, an increased risk for anal cancer. Since the introduction of highly active antiretroviral therapy (HAART), the incidence of several viral-associated neoplasias has significantly fallen in HIV-infected individuals. At the beginning of the era of HAART, a justified hope existed that genitoanal HPV-related neoplasias would also decrease based on the success of HAART-induced immune restoration. However, HAART seems to have only a small impact on the natural history of AIN as observed in a cohort of HIV-positive MSM before and after the initiation of HAART. As AIN and cancer precursor lesions of the cervix, cervical intraepithelial neoplasia, share distinct clinical similarities, cytologic smear testing for AIN has been recommended to detect and treat early lesions. Thus, this prospective study mainly focuses on the predictive value of HPV-DNA load for the development and clinical progression of AIN in HIV-infected MSM. Moreover, the course of HPV viral load under therapy for anal intraepithelial neoplasia, e.g. topical treatment with imiquimod, will be evaluated. Additionally, immunohistochemical determination of several proliferative biomarkers, as well as cytokines, will be performed.
This study will examine the natural history of Leishmanial infections and their treatments. It will provide an opportunity for NIAID staff to learn more about leishmaniasis and perhaps to improve diagnostic tests for these infections. Patients between 2 and 80 years of age with known or suspected leishmaniasis are eligible for this study. Participants will have routine blood tests and a biopsy to confirm leishmanial infection. The biopsy procedure will be determined by the type of infection local cutaneous leishmaniasis (LCL), mucocutaneous leishmaniasis (MCL) or visceral leishmaniasis (VL). CL will be confirmed with a punch biopsy, in which a cookie-cutter type razor is used to remove a small circular piece of skin tissue. MCL will be confirmed using a thin flexible tube inserted into the nose. This tube is used to examine the nose and upper airway and to remove a tissue sample, if an affected area is seen. VL will be confirmed with either a bone marrow or liver biopsy or a splenic aspirate. For these procedures, a small tissue sample is withdrawn through a needle placed in the hipbone, liver or spleen, respectively. Some patients may also have a skin test for leishmaniasis similar to tuberculin skin testing. Treatment and length of hospital stay are determined by the type of infection. CL may be treated with Pentostam, amphotericin, amphotericin B, itraconazole or ketoconazole; ML with amphotericin B, or encapsulated amphotericin; and VL with Pentostam or encapsulated amphotericin. Pentostam is infused daily for 18 to 28 doses, most as an outpatient. Blood is drawn 3 times a week for safety tests and an electrocardiogram is done 2 to 3 times a week to monitor heart rhythm. Amphotericin B is infused every day or every other day for about 30 doses, all on an inpatient basis. Patients undergo hydration (infusion of a large amount of fluid) just before and immediately after each infusion to protect the kidneys. Blood is drawn every other day and urine samples are collected occasionally for routine urinalysis. Encapsulated amphotericin is infused every other day, on an outpatient basis. Blood is generally drawn every other day to every 2 days and urinalyses are done periodically. Itraconazole and ketoconazole are taken orally for at least 1 to 3 months, with blood drawn every 2 to 3 weeks. Patients may be asked to have photographs taken before, during and after treatment to document progress. They may also be asked to provide extra blood samples for research purposes, either through a vein in the arm or through apheresis, a method for collecting large numbers of cells. For apheresis, whole blood is collected through a needle in an arm vein and circulated through a machine that separates it into its components. The desired cells are then removed, and the rest of the blood is returned to the body, either through the same needle used to draw the blood or through a second needle in the other arm. Patients with cutaneous leishmaniasis will have a follow-up clinic visit 2 weeks to 3 months after treatment is completed. If there are no complications, their participation will end at that time. Patients with mucocutaneous leishmaniasis and visceral leishmaniasis will be followed every 3 to 6 months indefinitely for routine evaluations and re-treatment if the infection recurs.
This study will examine the effectiveness of a new laboratory method for detecting pneumocystis organisms in a salt-water (saline) oral wash. Pneumocystis infection in people with weakened immunity especially patients with HIV infection or cancer, organ transplant recipients and people receiving immune suppressing therapy can cause life-threatening pneumonia. Currently, pneumocystis infection is diagnosed by sputum analysis or bronchoalveolar lavage. For the sputum analysis, patients are induced to produce a sputum sample (liquid discharge from the lung) using a saline mist; however, many hospitals lack the expertise to perform this procedure. The second method, bronchoalveolar lavage, involves inserting a flexible tube into the lung and injecting saline to produce a specimen for diagnosis. This method, however, is time-consuming and can be uncomfortable. New techniques may allow the use of an oral wash to diagnose pneumocystis, even though an oral sample contains far fewer organisms than are obtained with the current methods. This study will examine whether new techniques, such as nucleic acid amplification, may enable a simple oral wash to be used effectively for diagnosis of pneumocystis infection. Patients 3 years of age and older with weakened immunity who have acute pneumonia may be eligible for this study. In addition, people at increased risk of infection with pneumocystis, including health care professionals, family members of patients, and other patients in health care facilities, may participate. Participants will have a medical history and review of medical records to determine their health status and determine if they have had recent respiratory problems or documented PCP. They will then provide an oral wash sample. For this procedure, subjects first rinse their mouth well. Then, they vigorously swish 50 milliliters of saline for 5 to 10 seconds and immediately repeat the procedure to provide two specimens. Washes may be requested daily, weekly, monthly, or for a period of time to be specified. Participants will also have two tubes of blood drawn (total of 20 milliliters, or 4 teaspoons) to test for evidence of pneumocystis. Although no other tests are required for this protocol, participants may be asked to provide optional add'l samples, as follows: If a sputum or bronchoalveolar lavage sample is required in the course of the patient s clinical mgmt, enough material will be obtained, if possible, for research purposes as well as what is needed for routine care. An induced sputum sample may be requested just for this protocol. For this procedure, a mask with a saline mist is placed over the face, inducing a cough that, it is hoped, will produce sputum from the lungs....
In patients with documented ESBL-producing E.coli and Klebsiella pneumoniae will be allocated to receive colistin or conventional antibiotic regimen.
1. To establish a pathology reference laboratory for the consultation on the diagnosis of infectious diseases and lymphoma. 2. To study the specific pathogens on 100 cases of unexplained death due to infectious diseases in the files of Taiwan CDC and the Forensic Institutes of Department of Law and Justice. 3. To study the distribution of children lymphoid lesions in Vietnam and Taiwan and their virus association. 4. To establish a tissue bank for infectious diseases and lymphoma.
Proton pump inhibitors (PPIs) are mainly metabolized in the liver by CYP2C19, one of the cytochrome P450 isoenzymes, which shows a genetic polymorphism associated with enzyme activities. The most essential role of a PPI in H. pylori eradication therapy is to make antibiotics more stable and bioavailable in the stomach by raising intragastric pH to neutral levels. Most patients who have failed in the eradication of H. pylori infection by triple therapy with a PPI, amoxicillin (AMPC) and clarithromycin (CAM) at standard doses have extensive metabolizer (EM) genotypes of CYP2C19 and/or are infected with CAM-resistant strains of H. pylori. Four-times daily dosing of a PPI could achieve complete gastric acid inhibition. Dual therapy with 4-times daily dosing of a PPI and AMPC could yield sufficient re-eradication rates in patients with EM genotype of CYP2C19. Metronidazole (MNZ)-based re-eradication therapy, such as triple PPI/AMPC/MNZ therapy, also achieved high eradication rates and has been recommended as the second line therapy in Japan. But carcinogenic actions of MNZ have been unclear. The purpose of this study is to compare the re-eradication rates of H. pylori infection by the dual high-dose PPI/AMPC therapy and triple PPI/AMPC/MNZ therapy, and to validate the efficacies of these re-eradication regimens as second line eradication therapies.
The aim of this study is to determine whether vancomycin with cefazoline is superior to vancomycin with placebo in preventing gastrostomy-related wound infection in carriers of methicillin-resistant staphylococcus aureus (MRSA).
This study will examine the symptoms, course of disease and treatment of non-tuberculous mycobacterial (NTM) infections, as well as the genetics involved in these infections. Patients with NTM have recurrent lung infections and sometimes infections of the skin and other organs as well. They may also have curvature of the spine, barrel chest, and heart valve weakness. The study will compare the features of NTM with those of Job syndrome and cystic fibrosis, other diseases involving recurrent infections of the lungs and possibly other organs. Patients with diagnosed or suspected non-tuberculous mycobacterial infection, cystic fibrosis or Job syndrome may be eligible for this study. All participants will have a medical and family history, blood and urine tests, imaging studies that may include X-rays, computed tomography (CT) or magnetic resonance imaging (MRI) scans, and DNA and other genetic studies. In addition, all patients with Job syndrome and cystic fibrosis, and patients with NTM who have lung disease undergo the following procedures: - Scoliosis survey X-rays of the spine to look for curvature or other abnormalities of the spinal column - Echocardiography imaging test that uses sound waves to examine the heart chambers and valves - Electrocardiogram measurement of the electrical activity of the heart - Pulmonary function tests breathing tests to measure how much air the patient can move into and out of the lungs - Body measurements measurements of height, weight, arm span, finger length, etc. - Joint function assessment of joint mobility using different maneuvers to test flexibility of joints and ligaments - Examination of physical features that might be associated with NTM, such as high arched palate of the mouth, flat feet, or certain skin features - Dermatology (skin) examination for reactive skin conditions or other skin problems and possibly a skin biopsy (surgical removal of a small skin tissue sample for microscopic examination) - Interview with genetics specialist These tests may require several days to complete. Patients with NTM will also be examined by a cystic fibrosis specialist and may have a sweat test. In addition, NTM patients will be asked to return to NIH every year for 5 years for follow-up tests, if medically indicated, including CT of the chest, scoliosis survey and examination by other specialists. ...