View clinical trials related to Tuberculosis, Meningeal.
Filter by:Extrapulmonary TB (EPTB) accounts for nearly 30% of TB cases in HIV endemic settings, such as South Africa. The diagnosis of extrapulmonary TB is complicated by the poor performance of Gene Xpert and TB Culture in extrapulmonary fluid (30-50% sensitive), as well as the poor specificity of ADA. We can therefore not reliably use these tests to diagnose EPTB as effectively as we use them in sputum samples. The current best practice for diagnosing pleural TB is to perform a pleural biopsy, which is both invasive and costly. A rapid, easy to use test is needed to allow accurate and fast diagnosis of EPTB. Interferon-gamma is released at high concentrations in extrapulmonary fluid in active EPTB. Antrum Biotech has developed the IRISA-TB assay (validated and SAHPRA licenced) for the diagnosis of EPTB. The study will assess the real-world performance of IRISA-TB compared to ADA, Gene Xpert, and TB Culture when used to diagnose EPTB. We will evaluate IRISA-TB's performance in the following patient groups: - Suspected TB pleural effusion (n= 650) - Suspected TB pericardial effusion (n= 280) - Suspected TB peritonitis (n= 200) - Suspected TB meningitis (n = 1040) As part of our evaluation, we will ask clinicians who treat these patients to provide their feedback on IRISA-TB. We will ask them to indicate to what extent the IRISA-TB test helped them to make treatment decisions. Finally, we will conduct an economic assessment to determine the true cost of diagnosing and treating EPTB to the health system and patients, and we will determine how IRISA-TB could potentially result in cost savings.
The goal of this Diagnostic accuracy study is - To study sensitivity and specificity of sulcal tuberculomas in the diagnosis of tubercular meningitis and - To study the correlation of imaging findings in tubercular meningitis and spinal tubercular arachnoiditis with clinical outcomes after completion of therapy - Secondary objectives - To study the proportion of patients having clinical or imaging features of spinal tubercular arachnoiditis - To study the factors determining outcomes in patients with spinal tubercular arachnoiditis - To study the treatment trends in patients with spinal tubercular arachnoiditis The investigators will include [study Population] Patients with chronic meningitis as per criteria listed below - Chronic meningitis : Case definition - Headache with or without fever, nuchal stiffness and systemic symptoms AND - CSF suggestive of meningitis Pleocytosis (>20 cells per μL) with lymphocyte predominance (>50%) OR Protein concentration greater than age-specific normal value; especially >1•0 g/L OR Glucose concentration less than 60% of concentration in blood OR MRI suggestive of meningeal enhancement on contrast enhanced T1 sequences AND - Deemed by the treating physician that the syndrome is consistent with chronic meningitis - Patients who are positive for antibodies to HIV and pregnant females will also be included. - Willing to undergo periodic assessment clinically and with MRI as per clinical condition demands. The sensitivity and specificity of the finding of sulcal tuberculomas will be compared to the reference standard diagnostic criteria for the diagnosis of TB meningitis.
Randomized phase II clinical trial which aims to assess the impact on 3-month mortality and safety of adding adalimumab to standard treatment (anti-tuberculosis drugs and corticosteroids) in HIV patients with tuberculosis meningitis in 3 countries (Brazil, Mozambique, and Zambia).
The purpose of this study is to compare a 6-month regimen of high-dose rifampicin (RIF), high-dose isoniazid (INH), linezolid (LZD), and pyrazinamide (PZA) versus the World Health Organization (WHO) standard of care (SOC) treatment for tuberculosis meningitis (TBM).
The rapid diagnosis of tuberculosis (TB) in children remains a serious challenge owing to limitations in the existing diagnostic tests. TB meningitis (TBM), an extrapulmonary form of TB, is the most severe manifestation of paediatric TB. TBM results in high morbidity and mortality in children, despite the availability of chemotherapy, mainly due to diagnostic delay. Most tests required for proper TBM diagnosis including analysis of cerebrospinal fluid (CSF) and brain imaging are not available in resource-limited settings e.g., in most of Africa including South Africa. New tests for TBM are urgently needed. The main goal of this proposal is to develop a point-of-care (POC) diagnostic test for TBM, based on CSF and bloodbiomarkers. Aim 1: Evaluate the diagnostic potentials of 51 host inflammatory biomarkers that the investigators recently identified in CSF and blood samples from children with suspected meningitis in a repository of 100 stored CSF and serum samples using a multiplex platform. After statistical analysis including multi-marker modelling by linear discriminant analysis, random forest, and other modelling techniques, the investigators will select the best combination of up to four biomarkers for incorporation into the prototype diagnostic test (Aim 2). Aim 2: Incorporate the best performing CSF and serum biomarkers into a novel, patented biosensor-based POC diagnostic test. The investigators will develop a multi-biomarker prototype test for detecting up to 4 biomarkers in serum or CSF. Aim 3: Evaluate the newly developed POC test on 300 children prospectively. This will be done at the Tygerberg Academic Hospital. The diagnostic yield of the POC test will be compared to the routine diagnostic tests.
INTENSE-TBM is randomized controlled, phase III, multicenter, 2 x 2 factorial plan superiority trial assessing the efficacity of two interventions to reduce mortality from tuberculous meningitis (TBM) in adolescents and adults with or without HIV-infection in sub-Saharan Africa: - Intensified TBM treatment with high-dose rifampicin and linezolid, compared to WHO standard TBM treatment. - Aspirin, compared to not receiving aspirin. The trial will be open-label for anti-TB treatment and placebo-controlled for aspirin treatment.
Tuberculous meningitis (TBM) is the most serious form of Mycobacterium tuberculosis infection, causing mortality and disability in more than half of the patients. Current standard treatment for TBM is based on those developed to treat pulmonary tuberculosis, which does not take into account the differential ability of anti-tuberculosis drugs to penetrate the brain. With both good central nervous system penetrance and anti-tuberculosis efficacy that have been demonstrated in drug-resistant tuberculosis, linezolid may be a promising antimicrobial in TBM treatment. The purpose of this study is to evaluate the effectiveness of linezolid in the treatment of TBM.
The genetically polymorphic N-acetyltransferase type 2 (NAT2) is responsible for isoniazid metabolism, and rapid acetylators were associated with low concentrations of isoniazid based on previous studies. The investigators hypothesize that among rapid acetylators high dose isoniazid would result in lower rates of death and disability in patients with tuberculous meningitis than the rates with the standard regimen. The investigators recruited patients between the ages of 18 and 65 years with newly diagnosed TBM, then NAT2 genotype will be characterized by using High-Resolution Melting Kit (Zeesan Company, Xiamen). Participants with slow or intermediate acetylators will be administered with standard chemotherapy. For participants with rapid acetylators, patients were stratified at study entry according to the modified British Medical Research Council criteria (MRC grade), then randomly assigned in a 1:1 ratio to receive either standard or with high dose isoniazid treatment. All patients received antituberculosis treatment, which consisted of isoniazid (standard dose or high dose), rifampin, pyrazinamide, ethambutol for 3 months, followed by isoniazid, rifampin and ethambutol at the same doses for an additional 9 months. All patients received adjunctive treatment with dexamethasone for the first 6 to 8 weeks of treatment. 338 participants with rapid acetylators were randomly assigned to group B (standard treatment) and group C (high dose isoniazid), respectively. At the same time, 338 participants with slow or intermediate acetylators were recruited to group A (standard treatment). The primary outcome was death or severe disability 12 months after enrollment. Secondary outcome measures were coma-clearance time, fever-clearance time, and difference of laboratory examination (protein concentration, chloride, glucose and white cell counts) of cerebrospinal fluid.