fungal infection – Page 5

Inhibition of Fusarium oxysporum growth in banana by silver nanoparticles: In vitro and in vivo assays

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Researchers tested silver nanoparticles as a potential cure for Fusarium wilt, a serious fungal disease that damages banana crops worldwide. Using laboratory tests and greenhouse experiments with banana plants, they found that silver nanoparticles effectively killed the fungus and reduced disease symptoms by about 68% when applied to plant roots. The study shows that this nanotechnology approach could offer a new way to protect banana plantations from this devastating disease.

A rare case of invasive necrotizing myositis of the thigh caused by Basidiobolus ranarum: a multi-pronged approach to successfully managing a near-fatal polybacterial mycotic infection

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A 46-year-old man developed a severe, spreading infection of his thigh muscle caused by a rare fungus called Basidiobolus ranarum, likely from an insect bite years earlier that was neglected. The infection became life-threatening when bacteria also invaded the tissue, causing widespread muscle death and bloodstream infection. Doctors treated him with multiple antifungal medications, antibiotics, surgery, and eventually had to amputate his leg to save his life. After six weeks of intensive care combining several medications including potassium iodide and extended oral antifungal therapy, the wound finally healed.

Study on Pathogenesis of Cytospora pyri in Korla Fragrant Pear Trees (Pyrus sinkiangensis)

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Researchers identified Cytospora pyri as the fungus causing a serious disease in Korla fragrant pear trees in China. The fungus can only infect trees through wounds and spreads through the tree’s tissues over several weeks. Understanding how the fungus breaks down plant cell walls using enzymes could help develop better strategies to prevent the disease and protect pear orchards.

Beyond division and morphogenesis: Considering the emerging roles of septins in plasma membrane homeostasis and cell wall integrity in human fungal pathogens

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Septins are protein structures inside fungal cells that help them divide and maintain their outer layers. This review explains how these proteins play crucial roles in fungal infections by helping pathogens survive stress conditions and respond to host defenses. By understanding how septins work, scientists might develop new antifungal medications that target these proteins to fight stubborn fungal infections.

Cryptococcus albidus (Naganishia albida) meningitis in a young patient with T-cell acute lymphoblastic leukaemia

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A 16-year-old boy with leukemia developed meningitis caused by a rare fungus called Cryptococcus albidus. Doctors initially thought he had a viral infection and started him on antiviral medication, but specialized fungal tests revealed the true culprit. Treatment with antifungal medications successfully cured the infection, demonstrating the importance of identifying the exact cause of infection to provide the right treatment.

Key Fungal Secreted Proteases in Coccidioidomycosis

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Researchers studied how a dangerous fungus called Coccidioides causes disease by examining special proteins called proteases that the fungus secretes. They found that blocking these proteases prevented the fungus from forming the spherule structures that allow it to spread inside infected people. This discovery could lead to new treatments for coccidioidomycosis, a serious infection that affects people in the Southwest United States.

Optimized protein extraction protocol from human skin samples

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Researchers developed an improved method for extracting and analyzing proteins from human skin samples. Using specialized equipment and chemical treatments, they were able to identify about 6,000 different proteins in skin tissue, which is significantly more than previous methods could detect. This new protocol is particularly useful for studying skin diseases like fungal infections and could help identify new treatments by revealing how proteins change in diseased skin.

Mediastinal cryptococcoma as part of disseminated cryptococcosis in HIV-negative pregnant woman with Myasthenia Gravis: Autopsy case report

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A 29-year-old pregnant woman with myasthenia gravis, a condition requiring long-term immune-suppressing medications, died from a widespread fungal infection caused by Cryptococcus. Despite being HIV-negative, her weakened immune system made her vulnerable to this serious infection. An autopsy revealed the infection had spread throughout her body, including her heart, brain, lungs, and kidneys. This case highlights how fungal infections like cryptococcosis can affect people without HIV when their immune systems are compromised by other conditions or medications.

Dectin-1 and dectin-2 drive protection against Sporothrix brasiliensis in experimental sporotrichosis

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Researchers studied how the body fights a dangerous fungus called Sporothrix brasiliensis that causes sporotrichosis. They found that two immune receptors called dectin-1 and dectin-2 are crucial for protecting against this infection in mice. Surprisingly, these receptors work by activating killer immune cells and controlling regulatory immune cells, rather than through the typical immune response pathway scientists expected.

SUB6 Subtilisin is Involved During the Initial Adhesion of Trichophyton benhamiae and T. mentagrophytes onto Reconstructed Human Epidermis

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Researchers studied a fungal protease called SUB6 produced by common skin infection-causing fungi. Using engineered fungi lacking this protein, they found that SUB6 helps fungi initially stick to skin but isn’t absolutely required for infection. The fungi can compensate by producing other proteases, suggesting SUB6 might be better used as a diagnostic marker to detect fungal infections rather than as a drug target.

Research Keyword: fungal infection