Active clinical trials for "Tuberculosis, Meningeal"

LASER-TBM is a parallel group, randomized, multi-arm phase IIa trial evaluating the safety of increased dose rifampicin (RIF) plus linezolid (LZD), with or without aspirin (ASA), for the treatment of HIV-infected adults with tuberculous meningitis (TBM). The study will recruit 100 HIV-infected adults with TBM across four sites in South Africa. The primary endpoint is the occurrence of solicited treatment-related adverse events. Secondary endpoints include death and disability (including neurocognitive impairment), radiological outcomes, and the occurrence of immune reconstitution inflammatory syndrome (IRIS). A nested pharmacokinetic (PK) substudy aims to: Describe the plasma and cerebrospinal fluid (CSF) PK of LZD and high dose RIF. Evaluate the relationship between drug exposures, toxicity and efficacy. Compare exposures between intravenous and oral RIF administration. Investigate the impact of high dose RIF on LZD and dolutegravir (DTG).

Tuberculous (TB) meningitis is the most severe manifestation of TB infection, leaving up to 50% of patients dead or neurologically disabled. Current treatment is similar to treatment of lung TB, although penetration of some antibiotics into the brain is poor and the immune-pathology of TB meningitis is very different from pulmonary TB. In a recent phase II clinical trial from the investigators group, the first of its kind globally, intensified antibiotic treatment, with moxifloxacin and high dose rifampicin, strongly reduced mortality of TB meningitis. The investigators aim to examine the effect of intensified antibiotic treatment on mortality and morbidity of TB meningitis in a phase 3 clinical trial, preceded with an explorative pharmacokinetic (PK) study to examine if higher oral doses rifampicin result in exposures similar to the i.v. dose used in our phase 2 trial, since oral rifampicin could be implemented much easier in low-resource settings.

Tuberculous meningitis (TBM) is the most severe form of tuberculosis infection with high mortality. Current treatment regimens are not based on clinical trials. Rifampicin is a key drug for TBM, but its penetration into the brain is limited, suggesting that a higher dose may be more effective. There are several highly relevant, outstanding questions related to the appropriate dose of rifampicin for TBM, before a multicenter phase 3 trial can be performed. These are: Previous phase 2a randomized clinical trial (done in the same setting as this proposed study) suggests that high doses of intravenous rifampicin (600mg, circa 13 mg/mg) for TBM is safe and associated with a survival benefit in adults. Given that i.v. rifampicin is not readily available, this needs to be confirmed using an equivalent higher oral dose of rifampicin. Recent pharmacokinetic analysis of a continuation trial comparing 600 mg i.v. rifampicin with 750 mg and 900 mg oral rifampicin suggests that an even higher dose may be needed; but this has not been examined Based on those previous data, there is a need to explore a longer duration of high-dose rifampicin for a subsequent phase 3 randomized clinical trial; treatment response in the investigators previous trial suggest that the optimal duration may be > 14 days. There is a need to explore relevant treatment endpoints besides mortality including neurological, neuroradiological and inflammatory response.

Tuberculous meningitis is a severe brain infection which often causes disability and death even when treated with the best available treatment. Aspirin is a type of anti-inflammation drug which can reduce the inflammatory response in brains of patients with tuberculous meningitis, and therefore may decrease some of the most severe outcomes. This study compares the use of aspirin (at 2 different doses) versus placebo as an additional therapy to the standard treatment to see if aspirin is safe and helpful in reducing disability and death from tuberculous meningitis. Patients will be treated with aspirin or placebo for 60 days and followed up while on standard treatment for 8 months.

Tuberculosis meningitis (TBM) is the most severe manifestation of TB, resulting in death or neurological disability in up to 50% of affected patients, despite antibacterial treatment. This TBM treatment follows the model for pulmonary TB by using the same first-line TB drugs (a combination of rifampicin, isoniazid, pyrazinamide and ethambutol) and the same dosing guidelines, although it is known that penetration of two of these drugs (rifampicin and ethambutol) into cerebrospinal fluid (CSF) is limited. Improvement of treatment of TBM is urgently needed. To do so, a combination of two interventions will be investigated in this study. A series of phase II clinical trials on higher doses of the pivotal TB drug rifampicin in Indonesian patients with TBM have shown that the dose of rifampicin can be increased from 10 mg/kg orally (standard dose) up to 30 mg/kg orally, resulting in a strong increase in exposure to this drug in plasma and CSF, no increase in grade III or IV adverse effects, and a reduction in mortality. Similarly, higher doses of rifampicin up to 35 mg/kg resulted in strong increases in plasma concentrations; the doses were well tolerated and reduced time to sputum conversion in African pulmonary TB patients. Next to a higher dose of rifampicin, the approved antibacterial drug linezolid seems a good candidate for a new TBM regimen. The drug penetrates well into the CSF and is applied successfully against other central nervous system (CNS) infections (e.g. caused by penicillin-nonsusceptible Streptococcus pneumoniae, vancomycin-resistant enterococci and methicillin-resistant Staphylococcus aureus). In a study in China, linezolid in a dose of 600 mg BID orally strongly increased recovery of patients with TBM response. Linezolid is also being investigated as a new drug for (drug-resistant) pulmonary TB in numerous studies, in a dose of 1200 mg once daily. More severe adverse effects to this drug typically occur only after prolonged treatment during several months, not during short-term treatment. Overall, linezolid is expected to be a promising and tolerable candidate for a new intensified TBM treatment regimen consisting of a backbone of high dose rifampicin plus linezolid.

In this open-labeled, randomized clinical trial, the Investigator will assess the safety and pharmacokinetics (PK) of model-optimized doses of rifampicin (RIF) with or without levofloxacin (LEVO) given to children as part of multidrug treatment for tuberculous meningitis (TBM) versus standard treatment. The Investigators will also assess functional and neurocognitive outcomes by treatment group, as measured by the Pediatric Modified Rankin Score (MRS) and the Mullen Scales of Early Learning (MSEL), respectively.

Tuberculous meningitis (TBM) is the most lethal form of tuberculosis infection, and is diagnosed in approximately 5-10% of TB patients. The incidence of TBM has increased considerably during the last decade, partly due to the HIV epidemic. Without treatment, virtually all patients with TB meningitis will die. With the current treatment regimens, TBM is fatal in approximately 30-50% of cases, and responsible for severe disability in a similar proportion of survivors. Worldwide, Indonesia the third highest case load of tuberculosis with an estimated 500,000 new patients / year. Representative data are lacking, but it is clear that TBM is a growing problem. For instance, in Hasan Sadikin Hospital, the top-referral hospital for West Java Province (population 40 million), Indonesia, 40-50 cases of TBM were treated yearly in the late 90's compared to approximately 100 in recent years. There is very little evidence for the current treatment regimen for TBM, which dates back to the late 60's. Therefore, there is an urgent need to evaluate intensified treatment of TBM in randomized trials. We hypothesize that higher dose rifampicin, moxifloxacin (possibly also at high dose), or both will improve outcome of TBM. To determine the experimental regimen(s) which should be compared with current regimen in phase 3 trials, we want to evaluate pharmacokinetic aspects and toxicity of candidate regimens in a phase 2 clinical trial in 60 patients with TBM in Indonesia.

Early diagnosis and appropriate treatment of tuberculous meningitis (TBM) are crucial steps to reduce morbidity and mortality. The WHO recommended to use Xpert MTB/RIF assay to diagnose pulmonary TB, pediatrics TB, extra pulmonary TB and rifampicin resistance. However, the data of accuracy in diagnosis of TBM is still lacking. This study aimed to find out the diagnostic performance of Xpert MTB/RIF assay for the diagnosis of tuberculous meningitis, especially in patients who presented with subacute lymphocytic meningitis.

The DREAMM project is investigating whether the DREAMM interventions (1) Health system strengthening, 2) Co-designed education programs tailored to frontline healthcare workers, 3) Implementation of a diagnostic and treatment algorithm and, 4) Communities of practice in infectious diseases and laboratory capacity building) when combined reduce two week all-cause mortality of HIV-associated meningo-encephalitis in African LMICs.

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.