Illustration of a lab mouse showing brain changes from childhood junk food diet, with helpful bacteria depicted.
Illustration of a lab mouse showing brain changes from childhood junk food diet, with helpful bacteria depicted.
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Childhood junk food may leave lasting changes in brain circuits that guide eating, mouse study suggests

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Researchers at APC Microbiome Ireland at University College Cork report that early-life exposure to a high-fat, high-sugar diet altered feeding behavior and appetite-related brain pathways in mice into adulthood, even after the animals returned to a standard diet and normal body weight. The team also found that a specific Bifidobacterium strain and a prebiotic fiber mix helped mitigate some of these long-term effects.

Scientists at APC Microbiome Ireland, based at University College Cork (UCC), say they found evidence in a mouse model that a high-fat, high-sugar diet early in life can produce lasting changes in how the brain regulates eating.

In research published in Nature Communications, the team reported that mice exposed to the calorie-dense diet during early life showed persistent alterations in adult feeding behavior. The researchers linked those behavioral changes to disruption in the hypothalamus, a brain region central to appetite and energy balance.

The study also tested whether targeting the gut microbiome could reduce these effects. According to the researchers, both a bacterial strain identified as Bifidobacterium longum APC1472 and a combination of prebiotic fibers—fructo-oligosaccharides (FOS) and galacto-oligosaccharides (GOS)—showed potential to mitigate diet-associated changes when provided across the animals’ lifespan.

The UCC-led work involved collaborators from the University of Seville in Spain, the University of Gothenburg in Sweden, and Teagasc Food Research Centre in Fermoy, Ireland, the university said.

Was die Leute sagen

Recent X posts discuss a mouse study from University College Cork showing early high-fat, high-sugar diets cause lasting hypothalamus changes affecting feeding behavior into adulthood, even after diet normalization. Users highlight the potential mitigating role of Bifidobacterium longum probiotic and prebiotics like FOS/GOS. Reactions are mostly informative and positive about gut health interventions for preventing obesity risks, with some emphasizing childhood nutrition importance. Direct shares of the ScienceDaily article and study links appear alongside summaries, focusing on brain-gut connections without strong skepticism.

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