type 2 diabetes – Page 2

Olive mill solid waste induces beneficial mushroom-specialized metabolite diversity revealed by computational metabolomics strategies

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This study shows how adding olive mill waste to mushroom growing substrate can increase beneficial compounds in mushrooms while reducing harmful toxins. Researchers grew two types of edible mushrooms (lion’s mane and king oyster) on substrate containing different amounts of olive mill waste and used advanced chemical analysis to identify how the waste affected the mushrooms’ medicinal compounds. Adding olive mill waste increased healthy compounds like hericenones and erinacerins while decreasing toxic enniatin compounds, potentially creating safer and more nutritious mushrooms for consumers.

Gut-Brain Axis in Obesity: How Dietary Patterns Influence Psychological Well-Being and Metabolic Health

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This review explains how our diet affects both our gut bacteria and our mental health through the gut-brain axis, a communication system between our digestive system and brain. Mediterranean diets rich in fiber and healthy foods support beneficial bacteria and mental well-being, while Western diets high in processed foods harm gut health and increase obesity risk. Emotional eating driven by stress and depression worsens obesity, but targeted dietary interventions with prebiotics, probiotics, and fiber can help restore balance and improve both physical and mental health.

The Antioxidant Properties of Mushroom Polysaccharides can Potentially Mitigate Oxidative Stress, Beta-Cell Dysfunction and Insulin Resistance

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This research review explores how mushroom compounds called polysaccharides may help manage diabetes by reducing harmful stress on cells caused by high glucose levels. Scientists found that 104 different mushroom polysaccharides have anti-diabetic properties and can protect insulin-producing cells in the pancreas. These natural compounds show promise as a complementary treatment to conventional diabetes medications, potentially with fewer side effects than synthetic drugs.

Fermented Rice Bran: A Promising Therapeutic Agent Against High-Fat Diet-Induced Metabolic Disorders

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Fermented rice bran, created by fermenting rice byproduct with beneficial bacteria, shows promise in helping manage weight and blood sugar levels in studies using rats on high-fat diets. The fermentation process increases the nutritional value of rice bran by boosting protein, fiber, and antioxidant content. Animals supplemented with fermented rice bran for 8 weeks showed improved cognitive function, better liver health, and improved lipid profiles compared to those on high-fat diets alone.

Hypoglycemic Properties of Leccinum scabrum Extracts—An In Vitro Study on α-Glucosidase and α-Amylase Inhibition and Metabolic Profile Determination

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Researchers tested birch bolete mushrooms (Leccinum scabrum) for diabetes-fighting properties. They found that extracts from this edible mushroom were exceptionally effective at blocking enzymes that break down carbohydrates, potentially helping control blood sugar levels. The study identified key beneficial compounds including healthy fats and plant alkaloids, suggesting the mushroom could become a functional food or dietary supplement for managing type-2 diabetes.

Freeze-Dried Probiotic Fermented Camel Milk Enriched with Ajwa Date Pulp: Evaluation of Functional Properties, Probiotic Viability, and In Vitro Antidiabetic and Anticancer Activities

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Researchers created a powdered functional food by combining fermented camel milk with Ajwa date pulp and probiotics. The product showed promise in helping manage blood sugar levels and fighting cancer cells in laboratory tests. Adding date pulp improved the powder’s ability to mix with water and helped beneficial bacteria survive digestion. This combination of camel milk and dates offers a potential new functional food option for people looking to prevent or manage diabetes and other diseases.

Targeting the AMP-activated protein kinase pathway: the active metabolites of botanical drugs represent potential strategies for treating metabolic-associated fatty liver disease

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Fatty liver disease is becoming increasingly common and current medications have side effects like dangerously low blood sugar. This review shows that natural plant-based compounds and traditional Chinese herbs can activate a key protein (AMPK) in the body that helps burn fat and regulate sugar levels. Over 30 different plant compounds from foods and herbs like ginger, curcumin, and ganoderma mushrooms have been shown to improve fatty liver disease by activating this protein through multiple beneficial mechanisms.

Advancing Nutritional Science: Contemporary Perspectives on Diet’s Role in Metabolic Health and Disease Prevention

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This research collection shows how what we eat significantly impacts our metabolic health and ability to prevent diseases. Key findings include that eating more vegetables helps prevent metabolic syndrome in older adults, and certain dietary patterns combined with regular exercise reduce disease risk in young adults. The research also highlights the benefits of natural compounds like inulin and royal jelly for managing metabolic disorders, while emphasizing the importance of personalized nutrition approaches for rare conditions.

Effects of Monascus pilosus SWM 008-Fermented Red Mold Rice and Its Functional Components on Gut Microbiota and Metabolic Health in Rats

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Researchers studied whether fermented red mold rice could improve gut health in rats by examining changes in beneficial bacteria. The study found that red mold rice and its active compounds increased helpful bacteria like Akkermansia mucinophila without causing any harmful effects. These beneficial bacteria may support better digestion, metabolism, and overall health, suggesting fermented red mold rice could be useful as a functional food for maintaining a healthy gut.

(Poly)phenol-gut microbiota interactions and their impact on human health

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Plant-based foods rich in polyphenols like berries, tea, and cocoa offer significant health benefits through interactions with gut bacteria. These bacteria break down polyphenols into active compounds that can help prevent heart disease, diabetes, and cancer. However, people respond differently to these foods based on their unique gut bacteria composition, suggesting the future of nutrition will be personalized based on individual microbial profiles.

Disease: type 2 diabetes