Research Keyword: cell culture

Clinical Implementation of Sustainable Functional Foods and Nutraceuticals in Metabolic Health: A Feasibility Study

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Researchers tested a combination of special foods and supplements made from Mediterranean plants like tomatoes, pomegranates, and hazelnuts to see if they could help people with metabolic health problems. Over 4 weeks, older adults who consumed these foods daily showed improvements in muscle, bone quality, and liver health. The products tasted good and people stuck with them easily, suggesting this approach could be a practical way to improve health through diet.

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Processes of Obtaining Nanostructured Materials with a Hierarchical Porous Structure on the Example of Alginate Aerogels

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Scientists created lightweight, sponge-like materials called aerogels made from alginate (a substance derived from seaweed) with special internal structures. They tested three different techniques to create these structures: using soap-like surfactants, using a plant protein called zein, and using pressurized carbon dioxide. Each method produced materials with different pore sizes and characteristics, making them suitable for different medical applications like delivering medications slowly or growing cells for tissue repair.

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Modern Pro-Health Applications of Medicinal Mushrooms: Insights into the Polyporaceae Family, with a Focus on Cerrena unicolor

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This research explores how medicinal mushrooms, especially a species called Cerrena unicolor, could be used to improve human health through functional foods and dietary supplements. These mushrooms contain natural compounds that fight cancer, bacteria, viruses, and free radicals that damage our cells. Scientists have found that incorporating these mushroom extracts into foods, particularly dairy products, could create powerful health-promoting foods that help with cancer treatment, diabetes management, and wound healing.

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Edible mycelium as proliferation and differentiation support for anchorage-dependent animal cells in cultivated meat production

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Scientists developed a new technology using edible mushroom mycelium (the root-like structure of fungi) as a scaffold to grow animal muscle cells for cultivated meat production. They tested different fungal species and found that mycelium from koji mold (Aspergillus oryzae) worked best for supporting cell growth and maturation. Unlike current plastic microcarriers that must be removed from the final product, these edible carriers can be incorporated directly into the meat, adding nutritional value and reducing waste.

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Filamentous fungal pellets as versatile platforms for cell immobilization: developments to date and future perspectives

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Filamentous fungi, commonly known as molds, can be grown into small spherical structures called pellets that act as excellent platforms for attaching and growing various types of cells. These fungal pellets are sustainable, biodegradable alternatives to synthetic materials and can support different cell types for applications ranging from producing cultivated meat to treating wastewater. The porous structure of fungal pellets allows cells to attach and grow while maintaining the ability to transfer nutrients and oxygen efficiently.

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Study on Optimization of Liquid Fermentation Medium and Antitumor Activity of the Mycelium on Phyllopora lonicerae

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Researchers improved the production of a medicinal fungus called Phylloporia lonicerae that grows on honeysuckle plants. They developed a better growing medium that produced more fungus in less time. They then discovered that components from this fungus can kill cancer cells, particularly lung and esophageal cancer cells, by triggering a natural cell death process called apoptosis. This work suggests the fungus could be developed into an anti-cancer functional food.

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