meRfi®-GM
The Digital Textbook on Gut Microbiota and Beyond
Allergic reactions / Allergies & Gut microbiota
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Contents
The increase in allergy prevalence observed in recent decades may result from early intestinal dysbiosis (8)
Antiallergenic processes induced by generation of TGF-beta (suppression of Th2 induced allergic inflammation) and by Th1 immunity
Bifidobacterium, which is a dominant genus in infants’ fecal flora has shown beneficial effects in various pathologies, including allergic diseases
see also:
Allergic reactions / Allergies & Bifidobacterium breve
Antibiotics & Human Microbiota / Human microbiome
[Clostridium & Immunoglobulin E responses](brain://XRENz0neNkaYYhLsyQVkKg/ClostridiumImmunoglobulinERe…
References (Sources)
- Allergies and Asthma: Do Atopic Disorders Result from Inadequate Immune Homeostasis arising from Infant Gut Dysbiosis?
- Association Between use of acid-suppressive medications and antibiotics during infancy and allergic diseases in early childhood
- Gnotobiotic Mouse Immune Response Induced by Bifidobacterium sp. Strains Isolated from Infants
- Microbiota and human allergic diseases: the company we keep
- New developments providing mechanistic insight into the impact of the microbiota on allergic disease.
- The Relationship between the Infant Gut Microbiota and Allergy. The Role of Bifidobacterium breve and Prebiotic Oligosaccharides in the Activation of Anti-Allergic Mechanisms in Early Life