Tuberculous Meningitis: Can aspirin help?

Using a combination of aspirin, anti-tuberculosis drugs and steroids may help to reduce the number of strokes and deaths in patients with tuberculous meningitis.
  1. Ashwini Kalantri  Is a corresponding author
  2. Shriprakash Kalantri  Is a corresponding author
  1. Mahatma Gandhi Institute of Medical Sciences, India

Tuberculosis is a highly infectious disease that, over the millennia, has killed more people than wars or famines (World Health Organization, 2017). Roughly one third of the world's population – almost two billion people – are thought to carry the pathogen that causes the disease. It particularly affects low-income countries, and almost two million people died from the disease in such countries in 2017 (Dheda et al., 2016).

The most lethal and disabling form of tuberculosis is tuberculous meningitis, which causes inflammation in the brain (Wilkinson et al., 2017). This type of tuberculosis happens when the bacteria move to the protective covering of the brain, the meninges, and form small lesions that can rupture and so prompt the symptoms of the disease. Most untreated patients die within two months of the onset of illness (Thwaites et al., 2013).

Tuberculous meningitis (TBM) is commonly treated with a combination of steroids (to reduce the inflammation) and anti-tuberculosis drugs (to fight the bacteria). Although this combination of treatments can improve survival, the mortality rates and severe cases of disability continue to be unacceptably high (Heemskerk et al., 2016; Thwaites et al., 2004). People with TBM often suffer from complications due to fluids that accumulate in the brain cavities, and from inflamed blood vessels that can lead to blood clots, the main cause of strokes. Could drugs that prevent clots and reduce inflammation help patients with TBM?

Now, in eLife, Guy Thwaites and colleagues – including Nguyen Mai as first author – report that a common anti-inflammatory drug may hold the key to answering this question (Mai et al., 2018). The researchers – who are based in Vietnam, the UK and the Netherlands – designed a clinical trial to test the efficacy and safety of aspirin in patients with TBM.

Aspirin is a drug commonly used to avert or treat heart attacks and strokes. It prevents blood clots from forming and also reduces inflammation. Patients taking aspirin suffer fewer heart attacks, strokes and deaths than those who do not, albeit at the cost of a small number of bleeding events (Antithrombotic Trialists' (ATT) Collaboration et al., 2009).

In the experiments, 120 Vietnamese adults were randomly assigned to receive a low dose of aspirin (81 mg/day), a high dose of aspirin (1000 mg/day), or an identical tablet that did not contain any medication (called the placebo). All groups were also given anti-tuberculosis drugs and steroids for the first 60 days. Mai et al. then assessed the efficacy of aspirin by analyzing brain scans and measuring markers of thrombosis and inflammation in the fluid surrounding the brain and the spinal cord.

The results showed that aspirin reduced stroke-associated disability and death, at least for a short time. Compared to the placebo, a low dose of aspirin lowered the risk by 7%, and a high dose by 13%. However, given the small number of patients in the study, these results should be interpreted with caution. Encouragingly though, the risk of bleeding in the brain or stomach did not increase significantly in patients receiving aspirin, regardless of the dose. Thus, this trial suggests that aspirin is safe when used alongside the drugs normally used to treat TBM.

In March 1882, Robert Koch discovered the bacterium that causes tuberculosis – a turning point in our understanding of the disease (Blevins and Bronze, 2010). A century later, accurate diagnosis and potent drugs have helped to reduce the number of deaths caused by this illness. But researchers and physicians have failed to replicate this success story in TBM.

Could aspirin, used in combination with standard treatments, cut the Gordian knot to solve or even prevent the complications associated with TBM? Could it improve long-term survival and offer disability-free life to patients? Mai et al. show that aspirin might be able to achieve these goals to some extent. The trial was, however, not designed to answer all these questions. A larger phase 3 trial, which compares this new approach with the best currently available treatment, will be needed to confirm that aspirin is indeed safe and able to reduce the number of strokes and deaths in patients with TBM.

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Author details

  1. Ashwini Kalantri

    Ashwini Kalantri is in the Department of Community Medicine, Mahatma Gandhi Institute of Medical Sciences, Sevagram, India

    For correspondence
    ashwini@mgims.ac.in
    Competing interests
    No competing interests declared
    ORCID icon "This ORCID iD identifies the author of this article:" 0000-0001-5013-4371
  2. Shriprakash Kalantri

    Shriprakash Kalantri is in the Department of Medicine, Mahatma Gandhi Institute of Medical Sciences, Sevagram, India

    For correspondence
    sp.kalantri@gmail.com
    Competing interests
    No competing interests declared
    ORCID icon "This ORCID iD identifies the author of this article:" 0000-0002-1633-1029

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© 2018, Kalantri et al.

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  1. Ashwini Kalantri
  2. Shriprakash Kalantri
(2018)
Tuberculous Meningitis: Can aspirin help?
eLife 7:e35906.
https://doi.org/10.7554/eLife.35906

Further reading

  1. Aspirin helps to reduce inflammation and the number of strokes associated with tuberculous meningitis.

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    The sustained success of Mycobacterium tuberculosis as a pathogen arises from its ability to persist within macrophages for extended periods and its limited responsiveness to antibiotics. Furthermore, the high incidence of resistance to the few available antituberculosis drugs is a significant concern, especially since the driving forces of the emergence of drug resistance are not clear. Drug-resistant strains of Mycobacterium tuberculosis can emerge through de novo mutations, however, mycobacterial mutation rates are low. To unravel the effects of antibiotic pressure on genome stability, we determined the genetic variability, phenotypic tolerance, DNA repair system activation, and dNTP pool upon treatment with current antibiotics using Mycobacterium smegmatis. Whole-genome sequencing revealed no significant increase in mutation rates after prolonged exposure to first-line antibiotics. However, the phenotypic fluctuation assay indicated rapid adaptation to antibiotics mediated by non-genetic factors. The upregulation of DNA repair genes, measured using qPCR, suggests that genomic integrity may be maintained through the activation of specific DNA repair pathways. Our results, indicating that antibiotic exposure does not result in de novo adaptive mutagenesis under laboratory conditions, do not lend support to the model suggesting antibiotic resistance development through drug pressure-induced microevolution.