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20 resultsShowing papers similar to Editorial: Probiotics for global health: advances, applications and challenges
ClearEditorial: Probiotics for global health: advances, applications and challenges
This editorial synthesizes recent advances in probiotic research for global health applications, highlighting their potential to support host health, prevent disease, and counteract dysbiosis, while identifying key challenges in making safe and sustainable probiotic interventions more accessible.
Single Strain Probiotic Bifidobacteria Approach in Health and Non-Health Fields
This review examines the potential of single-strain Bifidobacteria probiotics for health and non-health applications. It highlights the importance of personalized microbiome analysis in selecting effective probiotic strains for targeted use.
Editorial: Microbial Ecotoxicology Advances to Improve Environmental and Human Health Under Global Change
This editorial introduces a special journal issue on microbial ecotoxicology, highlighting how microorganisms are affected by environmental contaminants including microplastics, pharmaceuticals, and other emerging pollutants. Understanding microbial responses to pollution is critical for assessing broader ecosystem and human health risks.
Editorial: Impact of gut ecosystem in health and diseases: microbiome, mucosal barrier and cytokine milieu
This editorial introduces a research collection examining the gut ecosystem's role in health and disease, focusing on how the perinatal and lifetime 'exposome' (diet, pre/probiotics, environmental factors) shapes microbiome composition, mucosal barrier function, and cytokine/chemokine signaling in intestinal immunity.
Some insights on traditional and novel approaches in microbial biotechnology that contribute to the United Nations Sustainable Development Goals
This editorial highlights diverse ways microbial biotechnology contributes to sustainable development goals, discussing both traditional and novel approaches in areas including pollution remediation, food security, and resource recovery.
Resilience to Global Health Challenges Through Nutritional Gut Microbiome Modulation
This review explores how gut microbiome composition during early life influences long-term health, and how nutritional strategies can help build resilience against chronic diseases. Researchers highlight that environmental factors including microplastics and other contaminants can disrupt the developing gut microbiome, potentially contributing to allergies, obesity, and neurological conditions. The study suggests that targeted nutritional interventions to support healthy gut bacteria could help counteract some of these environmental exposures.
Probiotics an emerging therapeutic approach towards gut-brain-axis oriented chronic health issues induced by microplastics: A comprehensive review
This review examines how microplastics disrupt the gut-brain axis, the communication system between the digestive system and the brain, leading to chronic health problems like inflammation and neurological issues. The authors highlight probiotics as a promising treatment approach, since beneficial bacteria can help repair gut damage caused by microplastic exposure. The findings suggest that supporting gut health through probiotics may help counteract some of the harmful effects of microplastics on both digestion and brain function.
Editorial: Expert opinions: save the microbes to save the planet
This editorial discusses the role of microbes in planetary health, arguing that microbial communities are critical to addressing climate change, biodiversity loss, and environmental pollution including plastic degradation. The piece calls for greater scientific attention to protecting and harnessing microbial diversity as a tool for ecological restoration.
Probiotics as Modulators of Microplastic-induced Toxicity: A Systematic Review
This systematic review found that probiotics can reduce microplastic-induced toxicity in animal models by restoring gut microbiota balance, reducing oxidative stress, and modulating inflammatory responses. The findings suggest that probiotic supplementation may help mitigate the harmful effects of unavoidable microplastic exposure, though human clinical trials are still needed.
Microbiome First Approaches to Rescue Public Health and Reduce Human Suffering
This review advocates for Microbiome First public health approaches to address the failure of conventional disease prevention programs, arguing that restoring healthy microbiome diversity through diet, reduced antibiotic use, and reduced exposure to disruptors including microplastics and PFAS could reduce noncommunicable disease burden.
A Clarion Call or a Call of the Clarions
This editorial discusses the growing importance of the human microbiome as a fourth dimension of epidemiological analysis — alongside host, pathogen, and environment — in understanding health and disease. The authors argue that microbiome research will reshape medicine and our understanding of genetic and cellular health.
Exploring the Crucial Role of the Gut Microbiome in Advancing Food Processing Technologies
This review explores the role of gut microbiome composition in food processing and technology development, examining how microbial communities influence fermentation, nutrient bioavailability, and food safety, with implications for probiotic and prebiotic product design.
Could probiotics protect against human toxicity caused by polystyrene nanoplastics and microplastics?
This review examines whether probiotics could help protect against the harmful effects of polystyrene nanoplastics and microplastics in the body. Researchers found evidence that probiotic bacteria may counteract plastic-induced gut imbalances, reduce inflammation, and support intestinal barrier function. The study suggests that probiotics represent a promising area of research for mitigating some of the biological effects of microplastic exposure, though more human studies are needed.
Nanobiotics against antimicrobial resistance: harnessing the power of nanoscale materials and technologies
Researchers review how nanoscale materials — tiny particles engineered at the billionth-of-a-meter scale — offer a promising alternative to traditional antibiotics as bacteria develop resistance to conventional drugs. These "nanobiotics" can penetrate bacterial defenses and biofilms in ways that standard antibiotics cannot, potentially helping avert a global post-antibiotic health crisis.
The probiotic SLAB51 as agent to counteract BPA toxicity on zebrafish gut microbiota -liver-brain axis
Researchers tested whether the probiotic supplement SLAB51 could counteract the harmful effects of bisphenol A (BPA), a plastic-derived chemical, in zebrafish and found it significantly restored healthy gut bacteria, reduced liver damage, and protected the brain — suggesting probiotics may help offset harm from plastic-associated chemical exposure.
The concept of balance in microbiome research
This essay critically examines how the concept of "balance" is used in microbiome research and medical literature. Researchers analyzed multiple interpretations of what a balanced versus imbalanced microbiome means, finding that the term is often used loosely without precise scientific definition. The study argues for more rigorous conceptual frameworks to better understand how microbiome composition relates to health outcomes.
Novel Approaches in Establishing Chemical Food Safety Based on the Detoxification Capacity of Probiotics and Postbiotics: A Critical Review
This review examines emerging evidence that probiotics and their metabolic byproducts (postbiotics) can help neutralize environmental contaminants in food, including bacterial toxins, mycotoxins, pesticides, heavy metals, and microplastics. Researchers found that various probiotic strains can bind to, transform, or break down these harmful substances through multiple mechanisms. The study highlights biological approaches using beneficial microorganisms as a practical and cost-effective strategy for improving food safety.
Microplastics and probiotics: Mechanisms of interaction and their consequences for health
This review explores how microplastics interact with probiotics and what that means for gut health. Researchers summarized evidence showing that microplastics can disrupt the gut lining, alter the microbiome, and trigger inflammation, while certain probiotic strains may help counteract these effects by reducing oxidative stress and supporting the intestinal barrier. The study also discusses the emerging possibility of using engineered probiotics for environmental microplastic cleanup.
Microplastics and microbiota: Unraveling the hidden environmental challenge
This editorial summarizes the emerging evidence that microplastics disrupt the gut microbiome, decreasing microbial diversity and triggering an imbalance called dysbiosis. This disruption affects immune function, nutrient metabolism, and overall health, though the full long-term consequences of this two-way relationship between microplastics and gut bacteria remain an active area of research.
A probiotic for preventing microplastic toxicity: Clostridium dalinum mitigates microplastic-induced damage via microbiota-metabolism-barrier interactions
Using metagenomics and metabolomics, this study found that the probiotic bacterium Clostridium dalinum reduced microplastic-induced gut damage in mice by modulating gut microbiota composition, metabolic pathways, and intestinal barrier integrity.