View clinical trials related to Tuberculosis.
Filter by:TB-reactive immune cells will be tested in a multiparametric flow cytometry to distinguish an immune response for antigens of Mycobacterium spp. in TB disease/latent infection or a reaction after BCG vaccine.
The treatment of latent TB with 3HP is an important issue for the prevention of active TB. However, significant proportion of subjects receiving 3HP had adverse reaction. The main purpose of this observation study is to identify subjects who have higher risk to develop adverse reaction. Clinical characteristics and biomarker will be used to predict adverse reaction.
Approximately 2 billion people worldwide are infected with Mycobacterium tuberculosis (TB), with 90% of individuals having latent infection (LTBI). The control of TB requires clearly delineated helper T cell (Th) 1 responses and, to a lesser extent, Th17 responses, which both play important roles in the induction and maintenance of protective immune responses in mouse models of TB infection and in the prevention of active disease, as seen in LTBI. During latency, M. tuberculosis is contained in localized granulomas. Mycobacteria specific T cells mediate delayed type hypersensitivity reactions to purified protein derivative (PPD), and this reaction is generally considered to indicate an LTBI status in the absence of demonstrable active infection. Among the various risk factors that are known to play a role in promoting active TB, HIV is the most well studied and described. However, in low-HIV-endemic countries like India, other risk factors might play a more prominent role in active TB pathogenesis. These include malnutrition, diabetes mellitus (DM), and helminth infections. LTBI individuals with these comorbidities or coinfections could be at a higher risk for developing active TB than their "healthy" LTBI counterparts without these comorbidities. Thus, it is imperative to study the pathogenesis of TB infection and disease in these "at risk" populations. In this study, we will estimate the prevalence of severe to moderate malnutrition, uncontrolled DM, and helminth infections in LTBI-positive individuals. We will collect samples from a cohort of individuals with LTBI, those with LTBI and coexistent malnutrition, DM, or helminth coinfection, and those without any of these conditions. Individual participation may last up to 6 months. The main objective of the study is to estimate the prevalence of malnutrition, DM, and helminth infections in LTBI individuals. Simultaneously, we will perform transcriptomic, proteomic, and metabolomic assays, including profiles in serum and urine, to determine the biosignature portfolio of these individuals. In addition, immunological assays examining cytokine/chemokine signatures as well as other immune parameters related to innate and adaptive responses will be performed to enhance the understanding of the immunological cross talk between LTBI and malnutrition, DM, and helminth infections.
In sub-Saharan Africa, tuberculosis (TB) is the etiology of 25-50% of bloodstream infections (BSIs) and the leading cause of sepsis among people living with HIV. TB BSI is associated with 20-50% mortality, and 20-25% of deaths occur within five days of admission. TB BSI is difficult to identify clinically and microbiologically. Given that the high prevalence of TB BSI is under-recognized, most patients with sepsis in sub-Saharan Africa do not receive early anti-TB therapy. The hypothesis of this study is that immediate and optimally dosed anti-TB therapy will improve 28 day mortality in patients with sepsis in Uganda and Tanzania. Therefore, the overall goal is to conduct a phase 3 multi-site open label 2x2 factorial clinical trial of 1) empiric immediate initiation of anti-TB therapy plus standard care compared to diagnosis dependent anti-TB therapy plus standard care and 2) sepsis-specific dose anti-TB therapy plus standard care compared to conventional WHO weight-based dose anti-TB therapy plus standard care for the treatment of sepsis in people living with HIV admitted to our longstanding collaborative research sites at either the Mbarara Regional Referral Hospital in Mbarara, Uganda, or Kilimanjaro region hospitals in Moshi, Tanzania.
Diabetes mellitus (DM) increases susceptibility to Tuberculosis (TB) and worsens TB patient outcomes. The number of patients with combined TB and DM now outnumbers that of combined TB and HIV and it has been estimated that 15-30% of TB disease may be attributable to diabetes globally. This may be expected to rise substantially as DM prevalence increases. Treatment of Latent TB Infection (LTBI) in this population will likely have a significant clinical benefit. Similar to HIV-infected individuals, those with DM might benefit from therapy to prevent the development of TB disease. Current international guidelines do not recommend LTBI management in people with DM, but this is because no studies have examined the risk-benefit ratio of such an intervention. To date, no RCTs have been conducted to investigate the efficacy and safety of preventive treatment of LTBI in DM patients. Based on evidence on effectiveness, safety, and treatment completion rates, 3HP has been selected as the regimen of choice for this study of African people living with DM. People living with DM will be randomized to 3HP or placebo to determine the efficacy of 3HP in the prevention of TB disease in this population. PROTID's preventive treatment of LTBI among people with DM will generate the first solid evidence to support or refute the use of preventive treatment against TB in people with DM.
The purpose of this study is to assess the efficacy and safety of 2 repurposed drugs (acetylsalicylic acid and ibuprofen), for use as adjunct therapy added to, and compared with, the standard of care (SoC) WHO-recommended TB regimen in drug-sensitive (DS) and multi-drug resistant (MDR) TB patients.
The overall aim of this study is to assess the potential of an expanded TB testing strategy to increase the number of HIV-positive patients with microbiologically diagnosed TB who are started on treatment in adult wards of sub-Saharan Africa.
An electronic-nose (e-nose) had been investigated as a diagnostic tool for tuberculosis by examining exhaled breath of the patients. Universitas Gadjah Mada has developed an e-nose device for TB diagnostic tool. Here the investigators test the device in order to analyze the sensitivity and specificity electronic-nose as a screening tool for tuberculosis.
Filarial nematodes modulate the host immune response to promote regulatory and T helper type 2 immune responses, which were shown to influence concomitant infections. Indeed, several studies showed that increased susceptibility and worsened disease course of HIV, tuberculosis (TB) and malaria in filarial endemic regions. Moreover, the investigators demonstrated that M. perstans infections polarize and suppress immune responses with likely consequences for concomitant infections and vaccine-induced protection. In addition, the investigators observed altered frequencies of natural killer and regulatory T and B cells in filarial and M. tuberculosis co-infected individuals and that M. perstans influences CD4+ T cell function and immune responses upon purified protein derivative antigen stimulation. Nevertheless, the consequences of manifestation of TB disease and influence on TB vaccination remains unknown. Thus, the trial aim to address two main questions with high clinical relevance: 1) Does filarial infection influence disease severity and recovery in tuberculosis patients? 2) Does filarial infection influence Bacille Calmette-Guérin (BCG)-induced protection against disease progression in vaccinated children?
This study is a randomized, controlled, multi-center clinical study. The main purpose of this study was to study the efficacy and safety data of total oral short-term therapy as an alternative to injection in the treatment of newly diagnosed RR-TB patients.