International journal of molecular sciences

How Gut Bacteria Influence Stroke Development and Progression

Updated

Abstract

Essence

Gut microbiota disruption may contribute to stroke risk and recovery through inflammatory, thrombotic, metabolic, barrier, and neurotrophic pathways.

Evidence

This review synthesizes mechanistic and biomarker evidence linking intestinal , microbial metabolites, neurotrophic factors, and stroke risk, injury, and recovery.

Caveat

The evidence supports potential diagnostic, prognostic, and therapeutic relevance rather than direct proof that changing gut microbiota prevents stroke or improves outcomes.

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Key numbers

12.2 million
Stroke Incidence
New strokes occurring annually worldwide
22%
Stroke Risk Increase
Risk associated with TMAO levels
10%
Stroke Risk Reduction
Reduction in stroke risk from high-fibre diets

Full Text

What this is

  • The paper discusses the and its role in stroke onset and progression.
  • It outlines how gut microbiota influences neurological health through various mechanisms.
  • The review emphasizes the potential for microbiota modulation as a therapeutic strategy for stroke.

Essence

  • The gut microbiota significantly impacts stroke risk and recovery through mechanisms involving inflammation and neuroprotection. Modulating gut microbiota may offer new therapeutic avenues for stroke management.

Key takeaways

  • Gut can lead to increased stroke risk by promoting inflammation and atherogenic processes. Specific bacterial profiles are associated with varying stroke risks.
  • Microbiota-derived metabolites, such as Trimethylamine N-Oxide (TMAO) and short-chain fatty acids (SCFAs), play crucial roles in stroke pathophysiology and recovery.
  • Dietary interventions and microbiota modulation may reduce stroke risk and improve outcomes, highlighting the potential for therapeutic strategies targeting gut health.

Caveats

  • Research on the microbiota's role in stroke is still evolving, with many mechanisms yet to be fully understood. Further studies are needed to validate findings and therapeutic approaches.

Definitions

  • microbiota-gut-brain axis: A bidirectional communication system connecting the gut microbiota with the central nervous system, influencing health and disease.
  • dysbiosis: An imbalance in the gut microbiota that can lead to health issues, including increased inflammation and disease risk.

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