encapsulation – mycolab.ai

Probiotic-fortified Solanum lycopersicum (tomato) juice: free or encapsulated Lactobacillus plantarum and Lactobacillus delbrueckii

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This study developed a probiotic-enriched tomato juice using beneficial bacteria wrapped in protective capsules. The encapsulated version maintained better bacterial survival, taste, and health benefits compared to unprotected bacteria during the 28-day storage period. This creates a promising non-dairy functional beverage option for health-conscious consumers seeking improved gut health and antioxidant benefits.

Benefits of Immobilized Bacteria in Bioremediation of Sites Contaminated with Toxic Organic Compounds

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This review explains how immobilizing bacteria on solid carriers like biochar can make them much more effective at cleaning up polluted soil and water. When bacteria are attached to a matrix material, they form protective biofilms that help them survive toxic pollutants better than free-floating bacteria. By combining immobilized bacteria with the right carrier materials, environmental cleanup can be faster, cheaper, and more sustainable than traditional chemical methods.

Innovative Bioactive Nanofibrous Materials Combining Medicinal and Aromatic Plant Extracts and Electrospinning Method

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This research explains how scientists use a technique called electrospinning to create tiny, beneficial fibers from medicinal plants. By combining plant extracts like turmeric with biodegradable polymers, researchers create advanced materials that can deliver medicine, promote wound healing, and fight bacteria. These innovative fibers represent a natural approach to healthcare, bringing ancient plant wisdom into modern nanotechnology for practical medical applications.

Mesoporous silica and vegetal extracts combined as sustainable stone heritage protection against biodeterioration

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Researchers developed an eco-friendly method to protect historic stone buildings and sculptures from fungal damage. They trapped natural plant oils (from oregano and thyme) inside tiny nano-containers made of silica, which slowly releases the antimicrobial compounds over time. When tested on marble samples, this coating prevented fungal growth for two months without harmful chemicals, making it safe for both the environment and workers preserving cultural heritage.

Extraction of Active Compounds from Dioscorea quinqueloba and Their Encapsulation Using Mucin and Chitosan for Application in Cosmetic Formulations

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Researchers created tiny capsules containing beneficial compounds from yam plants using natural materials like chitosan and mucin, designed for use in cosmetic products. These microcapsules were shown to be safe, effective at protecting skin from oxidative damage, and capable of reducing signs of aging similar to green tea extract. The study demonstrates that yam-based microcapsules have strong potential as natural ingredients in skincare formulations.

Mesoporous silica and vegetal extracts combined as sustainable stone heritage protection against biodeterioration

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Researchers developed an innovative protective coating for historic stone structures using natural plant extracts encapsulated in special porous silica particles. The oregano oil-based coating successfully prevented fungal growth on marble surfaces for extended periods while being safe for the environment and workers. This sustainable solution offers museums and heritage conservation professionals a non-toxic alternative to harsh chemical biocides, helping preserve precious artifacts for future generations.

Encapsulation of progesterone in reishi mushroom composite for optimized hormone replacement and targeted anticancer therapy

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Researchers created a new treatment by combining progesterone (a hormone) with reishi mushroom powder to make it work better in the body. The mushroom acts like a protective wrapper that slowly releases the hormone, making it more effective for treating menopausal symptoms and fighting breast cancer cells. The combination also fights harmful bacteria and fungi while remaining stable during storage. This approach combines traditional medicine with modern pharmaceutical science.

Development of Mycoinsecticides: Advances in Formulation, Regulatory Challenges and Market Trends for Entomopathogenic Fungi

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This review explores fungal-based insecticides as environmentally friendly alternatives to chemical pest control. These products use naturally occurring fungi that infect and kill insects through direct contact, making them effective against many crop pests. The review covers different formulation types, product development challenges, and regulatory approval processes in major markets worldwide.

Design and Evaluation of a Inonotus obliquus–AgNP–Maltodextrin Delivery System: Antioxidant, Antimicrobial, Acetylcholinesterase Inhibitory and Cytotoxic Potential

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Researchers studied Chaga mushroom from Romania and developed new ways to package and deliver its beneficial compounds using silver nanoparticles and a food-safe ingredient called maltodextrin. These new delivery systems were designed to work better in the body by improving how well the mushroom’s active ingredients dissolve and stay stable. Testing showed these enhanced formulations were very effective at fighting bacteria, protecting cells from damage, and killing cancer cells.

Research Keyword: encapsulation