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Showing 1-6 of 6 trials
NCT07157904
Tuberculosis (TB) can be treated; however, the standard 6-month treatment is long and challenging for many patients, and 10-20% still don't recover well by the end of treatment. Thus, it's important to regularly check if the treatment is working to help patients get better and prevent drug-resistant TB from developing. It can, however, be especially hard to check if TB treatment is working in places with limited resources. Traditional methods, such as testing sputum samples for microscopy and culture, have limitations. Lipoarabinomannan (LAM) is a substance that is found in the cell wall of the bacteria that cause TB, which can be used as an indicator for TB diagnosis and treatment monitoring. The PATHFAST TB LAM Ag test is a fully automatic machine that checks for LAM in sputum. It could offer a faster and more accurate way to see if TB treatment is working. This study aims to find out how helpful the PATHFAST-LAM test is in monitoring TB treatment progress among Kenyan TB patients. The primary objective of this study is to assess whether changes in sputum LAM levels can help predict unfavorable results. In this study, investigators will recruit adult patients diagnosed with pulmonary TB from multiple healthcare facilities in Nairobi, Kenya. Investigators will follow them during their TB treatment and collect sputum and urine samples at the beginning of treatment, then, every week for the first month, every two weeks for the next two months, and monthly for months 3-6. Investigators will use the PATHFAST-LAM test to measure LAM levels in sputum and urine. Since there are no previous studies that have evaluated the relationship between sputum LAM and treatment outcome, investigators will do an initial analysis with 30 participants, and based on that, investigators will determine the final number of participants needed for our study. It is expected that sputum LAM decreases when the treatment is successful and remains positive (does not decrease) when treatment is unsuccessful, with patients experiencing unfavorable results. How LAM decreases during the earlier course of TB treatment may be useful in predicting patients' outcomes. The results of this study could provide a faster and effective way for monitoring TB treatment. This could contribute to improved patient outcomes and help reduce the global burden of TB.
NCT05045391
Pulmonary tuberculosis (PTB) is the most common cause of lung destruction, contributing to coinfections development, and Aspergillosis spp. is one of the most important. Diagnosis of chronic pulmonary aspergillosis (CPA) in PTB patients is difficult due to similarity of clinical and radiological data, especially in resource-constrained settings. Differentiation of PTB patients with singling out a group with a higher Aspergillus IgG level during the initial examination will help physicians to orient to further examination of CPA. Objectives: to determine the prevalence of aspergillosis in Koch's bacillus-positive and Koch's bacillus-negative PTB patients and antifungal resistance of Aspergillus species isolates in Central Asia countries.
NCT04930978
Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is the causative agent of the Coronavirus disease (COVID-19). Tuberculosis (TB) is the foremost cause of infectious deaths globally. In 2025, an additional 1.4 million TB deaths could occur as direct consequence of the COVID-19 pandemic. It is postulated that individuals with latent or active TB are more susceptible to SARS-CoV-2 disease and that COVID-19 disease rate is high in patients with active TB, although the evidence is still scarce. TB and SARS-CoV-2 are both infectious diseases which primarily attack the alveolar region of the lungs and share common symptoms. SARS-CoV-2 disease can induce innate and adaptive immunity, but uncontrolled inflammatory innate immunity and impaired adaptive immune responses may be associated with severe tissue damage, both locally and systemically. People with coinfection (COVID-19 and TB disease) might potentially have impaired protective immune responses and treatment outcomes, specifically as far as anti-tuberculosis treatment is concerned. However, very little is known about the immunological underpinnings in this interface between TB and COVID-19 on the effect of SARS-CoV-2 disease on disease severity, response to treatment and treatment outcomes in pulmonary tuberculosis. Investigators hypothesize that altered immunity due to prior or present asymptomatic disease with SARS-CoV-2 virus can lead to altered immune responses and systems biology, increased severity and altered treatment outcomes in TB disease. The main objective of the study would be to evaluate the baseline differences in immune cells populations immune cell responses at baseline and at the time of treatment (2nd month) and end of treatment. Further, Investigators would be evaluating the changes in proteomic profiles in a subset of these individuals. In addition, immunological assays examining differences in T cell populations, measuring levels of various cytokines and by immunophenotyping 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 active TB patients with or without SARS-CoV-2. The secondary objective would be to study the clinical features, disease severity, mycobacterial burden and treatment outcomes in a cohort of SARS-CoV-2 infected (asymptomatic PCR or Antibody+) and non-infected patients with active pulmonary TB.
NCT04044001
This is a prospective, open label, two-centre, randomized, controlled, two-stage, phase Ib/IIa study to evaluate the safety, tolerability, PK, drug-drug interaction and bactericidal activity of BTZ-043 administered orally once daily over 14 days to participants with newly diagnosed, uncomplicated, smear-positive, drug-susceptible pulmonary tuberculosis. The primary objective is to assess the safety and tolerability of BTZ-043 given over 14 days by evaluation of adverse events during treatment and follow-up period in patients with newly diagnosed, uncomplicated, smear-positive, drug-susceptible pulmonary tuberculosis.
NCT05017324
The primary aim of this pragmatic trial is to determine the effectiveness of a Whole Genome Sequencing (WGS) Drug Sensitivity Testing (DST) strategy to guide individualised treatment of rifampicin resistant tuberculosis (RR-TB) patients. The primary objective is to determine the effectiveness of this WGS DST strategy in patients diagnosed with RR-TB. We will additionally perform an exploratory health economics evaluation of both arms, and will determine the feasibility of the WGS DST strategy.
NCT02984579
This is a multi-center, blinded study to determine the performance of the YD Diagnostic Corporation (YD) REBA MTB-MDR® and Hain Genotype MTBDRplus V2 kit in a total of 600 clinical isolates and 900 residual sputum samples from patients with symptoms of pulmonary TB (PTB) and at risk of drug resistance. All testing was done on stored, de-identified leftover samples. The study involved three World Health Organization (WHO) Supranational Reference Laboratories with well-characterized strain collections and access to sputum samples with significant rates of drug resistance.