Esophageal cancer – mycolab.ai

Integration of active ingredients from traditional Chinese medicine with nano-delivery systems for tumor immunotherapy

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This review examines how traditional Chinese medicine ingredients can boost the body’s natural ability to fight cancer when combined with tiny nanoparticles that deliver drugs more effectively. The nanoparticles help TCM compounds work better by improving how they dissolve, how long they stay in the body, and where they target. By activating immune cells like natural killer cells and dendritic cells while reducing immune-suppressing cells, this combination approach offers a promising new strategy for cancer treatment with fewer side effects.

The Anticancer Potential of Edible Mushrooms: A Review of Selected Species from Roztocze, Poland

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This review examines edible mushrooms found in Poland’s Roztocze region for their potential to fight cancer. These mushrooms contain natural compounds like polysaccharides and proteins that can kill cancer cells in laboratory studies through various mechanisms, including triggering cell death and boosting immune function. While promising, these findings from laboratory and animal studies need further development before becoming clinical treatments.

Lactic acid bacteria: beyond fermentation to bio-protection against fungal spoilage and mycotoxins in food systems

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Mold and fungal toxins spoil food and threaten human health, costing billions globally. While chemical preservatives work, many consumers want natural alternatives. Lactic acid bacteria (the same organisms used in yogurt production) produce natural antimicrobial compounds that can prevent mold growth and neutralize harmful toxins, offering a safer, more natural way to keep food fresh longer.

From mold to mycotoxins: an LC–MS/MS method for quantifying airborne mycotoxins in indoor environments

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Mold in water-damaged buildings produces toxic compounds called mycotoxins that can become airborne and be breathed in. This study developed a precise laboratory method to detect and measure 29 different mycotoxins in indoor air samples. Researchers tested the method in three real mold-infested buildings and successfully identified seven different mycotoxins, proving the method works well even when toxin levels are very low. This breakthrough helps determine whether moldy indoor environments pose serious health risks to workers and occupants.

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

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Scientists optimized how to grow Phylloporia lonicerae fungus in the lab, increasing its production by 142% while cutting growth time by two-thirds. They discovered that certain compounds extracted from this fungus, particularly from a petroleum ether extract, can kill cancer cells and trigger apoptosis. The petroleum ether extract was more effective than the standard cancer drug 5-fluorouracil, especially against esophageal cancer cells, suggesting this fungus could be developed into a natural anti-cancer treatment.

Unraveling the Fungi–Cancer Connection

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Fungi living in and around tumors play surprisingly important roles in cancer development and treatment response, yet they have been largely overlooked compared to bacteria. Different cancer types host specific fungal species that can promote tumor growth through immune suppression and toxin production. By better understanding and potentially targeting these tumor-associated fungi, researchers believe we could develop new combination treatments that enhance the effectiveness of existing cancer therapies.

Unveiling SSR4: a promising biomarker in esophageal squamous cell carcinoma

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Researchers discovered that a protein called SSR4 is overexpressed in esophageal cancer cells and is associated with poor patient outcomes. This protein appears to be involved in how cancer cells communicate with immune cells in the tumor environment. The findings suggest SSR4 could be used as a diagnostic marker and potential therapeutic target for treating esophageal cancer patients.

Effect of Popcorn (Zea mays var. everta) Popping Mode (Microwave, Hot Oil, and Hot Air) on Fumonisins and Deoxynivalenol Contamination Levels

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This study examined how different popping methods affect harmful toxins (called mycotoxins) in popcorn. Researchers tested 39 popcorn samples using three cooking methods: hot air, hot oil, and microwave, measuring how much the dangerous toxins fumonisins and deoxynivalenol decreased. They found that all three methods reduced toxin levels, with hot oil popping being the most effective, reducing fumonisins by 98% and deoxynivalenol by 58%. These findings suggest that eating properly prepared popcorn can significantly reduce exposure to naturally occurring toxins in corn.

Comparative Multi-Omics Analysis and Antitumor Activity of Phylloporia crataegi and Phylloporia fontanesiae

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Researchers compared two types of medicinal fungi (Phylloporia crataegi and Phylloporia fontanesiae) to understand why one is better at fighting cancer. They used advanced techniques to examine the fungi’s chemicals, genes, and proteins, discovering that P. crataegi contains special compounds like trans-cinnamic acid that help kill cancer cells. This study provides important information for developing new cancer treatments from these fungi.

Comparative Multi-Omics Analysis and Antitumor Activity of Phylloporia crataegi and Phylloporia fontanesiae

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Two species of medicinal fungi were studied to understand why one was better at fighting cancer cells. Researchers analyzed the chemicals, genes, and proteins in both fungi and found that Phylloporia crataegi had much higher levels of cancer-fighting compounds and activated special cellular defense pathways that harm cancer cells. This research shows that medicinal fungi could be promising sources for developing new cancer treatments.

Disease: Esophageal cancer