View clinical trials related to Latent Tuberculosis.
Filter by:Tuberculosis is a current infection during HIV infection. After infectious contact, some patients will develop tuberculosis some will only be infected without symptoms, they have Latent Tuberculosis Infection (LTBI) which can reactivate later.In order to prevent this tuberculosis reactivation, LTBI diagnosis screening is preconised in HIV-infected patients. This diagnosis is made till now by the tuberculin skin test (TST) but this test is not specific of TB. New blood tests (QFTB-G and T-SPOT.TB) specific po MTB infection are now sold but have not been evaluated in immunocompromised HIV-infected patients. The primary endpoint of this study is the evaluation of the theoretic therapeutic impact of the use of IGRAS for diagnosis of LTBI in HIV-infected patients
The overall objective of this study is to assess the feasibility and potential impact of using a targeted testing approach and 2 interferon-gamma release assays (IGRA) to screen for latent tuberculosis (TB) infection (LTBI) among military recruits. The current policy of universal application of the Mantoux tuberculin skin test (TST) to screen for LTBI may result in many TST reactions among recruits who are at low risk for LTBI. The central hypothesis is that targeted testing by use of the questionnaire will reduce unnecessary testing of low-risk recruits without affecting the identification of higher-risk recruits. The secondary hypothesis is that many discordant results between the TST and IGRA may be explained by cross-reactivity to non-tuberculous mycobacteria (NTM) with the TST.
The accuracy of tuberculin skin test (TST) for detecting latent tuberculosis is limited in countries with a high proportion of population having received vaccination with the BCG. We aim to determine the cost-effectiveness of Quantiferon gold (QTFG), compared to BCG vaccine to detect latent tuberculosis in exposed healthcare workers (HCWs)
Tuberculosis is a disease caused by a bacterium (a germ) that can cause illness in any organ of the body, but most frequently causes disease of the lungs. TB is short for tuberculosis. Treating TB requires several months (usually 6 months) of treatment, with the first 2 months being intensive treatment with usually four medicines. Treatment is needed to keep the infection from getting worse and to prevent death from TB. Vitamin D is a hormone present in the human body to manage levels of some essential electrolytes such as calcium and phosphate. Vitamin D is important for bone formation and prevention of bone breakdown (osteoporosis) as the investigators age. There is also new evidence that links vitamin D to function of our immune system as well. Even though our bodies can make vitamin D and can also obtain vitamin D from our diet, most adults, especially patients with tuberculosis have low vitamin D levels (are vitamin D deficient) that need to be corrected. Full correction of low vitamin D levels requires 6 weeks or more of weekly vitamin D supplements. There are several benefits to correcting vitamin D deficiency (better bone health, better balance of calcium and phosphate), but it is not known whether correcting vitamin D deficiency will lead to a better immune response to tuberculosis. Preliminary data does suggest that vitamin D increases the levels of an antimicrobial molecule (cathelicidin LL-37) in the body, possibly leading to better immunity against tuberculosis. The primary objective of this pilot study is to assess the relationship of vitamin D levels in patients with active pulmonary tuberculosis to levels of LL-37 cathelicidin in sputum and whole blood. The results of this study are needed in preparation for larger studies that will evaluate the role of vitamin D supplementation as adjunctive therapy to standard medical treatment for tuberculosis.
HIV infection highly increases the risk of progression of latent tuberculosis (TB) to active disease that therapy is recommended for all PPD-positive, HIV-infected patients, regardless of age. Sensitivity of the PPD testing is, however, dependent on a normal T cell function. Therefore, an accurate and reliable method for detection of latent tuberculosis in patients with HIV is urgently needed. This prospective study will examine the utility of interferon-gamma (IFN-γ) based assay, T-SPOT.TB,for detection of TB in HIV-infected individuals.
In face of the increased rates of tuberculosis in residents of long term care facilities, annual screening for latent tuberculosis is recommended. Tuberculin skin testing using purified protein derivative (PPD) is used for this purpose. Sensitivity of the PPD testing is, however, dependent on a normal T cell function. It is now evident that the immune system undergoes age-associated alteration known as immune senescence. The depressed T-cell responses may clinically manifest as attenuated delayed-type hypersensitivity. This attenuated reaction may affect the sensitivity of the PPD in detection of latent TB in the elderly. This prospective study will examine the utility of interferon-gamma (IFN-γ) based assay, T-SPOT.TB, for detection of latent tuberculosis in nursing home patients who are 65 years of age or older.
This study aims to compare the performance of the tuberculin skin test, used for more than 50 years as a diagnostic tool for latent tuberculosis infection, with 2 blood tests which have recently become commercially available (Interferon-gamma release assays) in a population of immunosuppressed individuals with chronic renal failure undergoing long term hemodialysis
HIV induced altered representation and function of regulatory T cell subsets (NKT and Treg cells) impair the protective T cell response against M.tuberculosis and disrupts LTBI, thus facilitates faster progression and development of severe forms of clinical TB in HIV-TB co-infection.
The aim of this study is to estimate the usefulness of a T cell-based assay (i.e. T-SPOT.TB assay) for diagnosis of latent tuberculosis infection (LTBI) in renal transplant recipients. For this purpose, the investigators enrolled renal transplant recipients and observed the developement of tuberculosis within 1 to 2 years after the transplantation.
The aim of this study is to estimate the usefulness of QuantiFERON TB Gold In-Tube® and T-SPOT.TB® for the diagnosis of latent tuberculosis in HIV infected antiretroviral naive patients: 80 originated from low TB prevalence countries, without any active TB; 80 HIV infected antiretroviral naïve patients originated from high TB prevalence countries, without any active TB, 40 HIV infected patients with active TB and 40 HIV negative patients with active TB.