biofilm formation – Page 4

Antifungal Potential of Streptomyces-Derived Metabolites Against Fluconazole-Resistant Oral Candida albicans: In vitro Evaluation and Mechanistic Insights

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Researchers studied a type of soil bacteria called Streptomyces that produces natural compounds with strong antifungal properties. These compounds effectively killed drug-resistant Candida fungal infections that commonly affect cancer patients undergoing radiation therapy. The bacterial extract worked by damaging fungal cell membranes and blocking biofilm formation, which are protective structures the fungus uses to survive. While the results are promising for treating stubborn fungal infections, more research is needed to ensure safety for human patients.

Genomic Insights of Candida krusei, an Emerging Fungal Pathogen With Intrinsic Antifungal Resistance

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Candida krusei is a yeast that causes serious bloodstream infections, particularly in people with weakened immune systems. Unlike many other fungi, it naturally resists common antifungal drugs like fluconazole, making infections hard to treat. The organism can form protective biofilms and has multiple genetic mechanisms that help it survive antifungal treatment. Researchers are exploring new drugs and treatment strategies to combat this growing health threat, especially in hospitals.

Enhanced biodegradation of fluorinated pharmaceutical by Aspergillus flavus and Cunninghamella elegans biofilms: kinetics and mechanisms

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Researchers discovered that two types of fungi, Aspergillus flavus and Cunninghamella elegans, can effectively break down common prescription drugs like fluoxetine, ciprofloxacin, and atorvastatin in wastewater. When grown as biofilms on foam carriers, these fungi removed over 90% of the pharmaceuticals in just a few days. This is an important finding because conventional wastewater treatment doesn’t effectively remove these medications, which can harm aquatic ecosystems.

Clinical profiling, antifungal drug susceptibility, and biofilm formation ability in pulmonary mucormycosis

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This study examined 26 patients with a serious lung fungal infection called mucormycosis in a Beijing hospital. Most patients were older with health problems like diabetes and high blood pressure, and sadly about 4 in 10 died. Interestingly, most patients had other infections (viral or fungal) before developing mucormycosis. The researchers tested which antifungal drugs worked best against the fungus, finding that amphotericin B was most effective, though it can damage kidneys. They also discovered that most of the fungal strains could form protective biofilm structures, making treatment more difficult.

Overexpression of efflux pump and biofilm associated genes in itraconazole resistant Candida albicans isolates causing onychomycosis

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Researchers studied why some fungal nail infections caused by Candida albicans stop responding to the antifungal drug itraconazole. They found that resistant fungal cells have higher activity of genes that pump the drug out of cells and produce slimy protective coatings called biofilms. These resistant fungi also formed less dense biofilms when the drug was present from the start. Understanding these resistance mechanisms could help develop new treatments by targeting the pump systems or breaking down the protective biofilm layers.

Cunninghamella echinulata DSM1905 biofilm-based L-asparaginase production in pneumatically-driven bioreactors

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Scientists tested different types of bioreactors to grow a fungus called Cunninghamella echinulata that produces L-asparaginase, an enzyme used to treat leukemia and lymphoma. They found that a special hybrid bioreactor with a mesh scaffold allowed the fungus to form a biofilm, which produced significantly more of the therapeutic enzyme than other reactor types. This discovery could improve the production of cancer-fighting medications.

HIV protease inhibitors restore amphotericin B activity against Candida

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Researchers discovered that HIV protease inhibitors, medications commonly used to treat HIV, can significantly enhance the effectiveness of amphotericin B, a powerful antifungal drug. When combined, these medications work synergistically to kill the dangerous fungus Candida auris, reduce its ability to form protective biofilms, and lower infection levels. This finding suggests a promising new treatment strategy for multidrug-resistant fungal infections that currently pose a serious global health threat.

Clinical aspects and recent advances in fungal diseases impacting human health

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Fungal infections are becoming a major health threat, affecting over a billion people worldwide. The main problems are difficulty diagnosing these infections, increasing resistance to current medications, and limited treatment options. Doctors and the public need better awareness, and new antifungal drugs with different approaches are needed to effectively treat resistant infections.

Exploring the health benefits of Ganoderma: antimicrobial properties and mechanisms of action

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Ganoderma is a medicinal mushroom that has been used in traditional medicine for thousands of years and shows promise as a natural antibiotic. The mushroom contains special compounds like polysaccharides and triterpenoids that can kill harmful bacteria and fungi by damaging their cell walls and boosting your immune system. Recent research shows it works against common infections like those caused by staph bacteria and E. coli, and may even help fight antibiotic-resistant germs.

Antifungal activity and mechanism of novel peptide Glycine max antimicrobial peptide (GmAMP) against fluconazole-resistant Candida tropicalis

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Scientists developed a new antimicrobial peptide called GmAMP that can effectively kill drug-resistant fungal infections caused by Candida tropicalis, a pathogen resistant to common antifungal medications. The peptide works by damaging the fungal cell membrane and is safe for human use. In laboratory tests using insect larvae, the peptide successfully treated infections and reduced the fungal burden, suggesting it could become a new treatment option for patients with resistant fungal infections.

Research Keyword: biofilm formation