Mucormycosis – Page 9

Pathogenic mucorales: Deciphering their cell wall polysaccharidome and immunostimulatory potential

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Mucormycosis is a serious fungal infection that primarily affects people with weak immune systems and carries high mortality rates. Researchers studied three common mucormycosis-causing fungi to understand how their outer cell layers interact with the human immune system. They found that all three fungi trigger strong inflammatory responses, which may explain why the disease is so damaging. This research helps us better understand how these infections work and could lead to improved treatments or vaccines.

Detection of Mucorales antigen in bronchoalveolar lavage samples using a newly developed lateral-flow device

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Researchers developed and tested a new rapid test (TG11-LFD) for detecting mucormycosis, a dangerous fungal infection, using a simple device similar to a COVID rapid test. The test detects a specific protein marker released by Mucorales fungi in lung fluid samples. In testing with 62 clinical samples, the new test correctly identified about 77% of actual infections and was negative in about 76% of non-infected samples. This affordable, simple test could help doctors quickly diagnose mucormycosis and start life-saving treatment faster, especially in countries with limited laboratory resources.

Clinical Mycology Today: Emerging Challenges and Opportunities

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Fungal infections are becoming more common due to new cancer treatments and other medical advances, while some fungal species are developing resistance to standard antifungal medications. The good news is that several new antifungal drugs are in development with better safety profiles and novel mechanisms to fight these infections. However, the field faces challenges including limited specialized mycologists and difficulty designing clinical trials to properly test new treatments.

Performance of the VITEK® MS system for the identification of filamentous fungi in a microbiological laboratory in Chile

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This study tested a rapid fungal identification system called VITEK® MS in a Chilean hospital laboratory. The system uses mass spectrometry technology to identify mold species quickly and accurately, often within 48-72 hours. Results showed the system correctly identified over 91% of fungal samples without any mistakes, making it a valuable tool for diagnosing serious fungal infections in hospitalized patients.

The expression of fungal CotH, human glucose-regulated protein 78 (GRP78), and predicted miRNAs in macrophages and diabetic mice infected with Rhizopus oryzae

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Mucormycosis is a serious fungal infection caused by Rhizopus oryzae that is particularly dangerous for people with diabetes. This study shows that a fungal protein called CotH3 attaches to a human cell receptor called GRP78, allowing the fungus to invade cells more easily in diabetic patients. The research found that diabetes increases GRP78 production, making fungal invasion more likely, while antifungal treatment (liposomal amphotericin B) can reduce the expression of both CotH3 and GRP78.

ESCMID-EFISG Survey on Diagnostic and Therapeutic Capacity for Invasive Fungal Infections in Belgium, the Netherlands, and Luxembourg: A Focus on High Azole Resistance

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This survey examined how well hospitals in Belgium, the Netherlands, and Luxembourg can diagnose and treat serious fungal infections, especially in patients whose immune systems are weakened. The researchers found that while most hospitals have good access to testing and antifungal medications, some important tests are still missing, and many hospitals send samples to other facilities for testing, which can delay treatment. Since this region has unusually high rates of fungal infections that resist common antifungal drugs, improving access to advanced diagnostic tests is crucial for patient survival.

Mucor germinans, a novel dimorphic species resembling Paracoccidioides in a clinical sample: questions on ecological strategy

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Researchers discovered a new fungus called Mucor germinans that infected a cancer patient’s lungs and appeared as yeast cells rather than the typical thread-like fungal structures. This is unusual because Mucor infections normally show filamentous hyphae, and the yeast-like appearance made it look like a different fungus, potentially delaying correct diagnosis and treatment. The study shows that this fungus can change forms depending on temperature and other conditions, and identifying it requires checking for multiple nuclei in the cells to distinguish it from other similar-looking yeasts.

Epidemiology of mucormycosis in COVID-19 patients in northwest Iran: Rhizopus arrhizus as the predominant species

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During the COVID-19 pandemic, some patients developed a severe fungal infection called mucormycosis alongside their coronavirus infection. This study found that 63 COVID-19 patients in Iran developed mucormycosis, which primarily affected the sinuses and brain. The researchers identified that a fungus called Rhizopus arrhizus caused most infections, and patients who received corticosteroids (used to treat severe COVID-19) had a higher risk, especially those who developed diabetes from the steroids.

Case Commentary: Successful use of olorofim for the treatment of multi-drug-resistant Lomentospora prolificans infection in a child

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A young girl contracted a dangerous drug-resistant fungal infection in her knee after an injury, which failed to respond to standard antifungal treatments. Doctors obtained special access to an experimental antifungal drug called olorofim through a compassionate use program. The child showed improvement within two weeks and was completely cured after six months of treatment with no signs of the infection returning two years later, making this the first successful case of this new drug being used in a child.

Revealing structure and shaping priorities in plant and fungal cell wall architecture via solid-state NMR

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This review explains how scientists use a special type of microscopy called solid-state NMR to study the protective outer layers of fungi and plants. The research shows that fungal pathogens can cleverly rearrange their cell walls to resist antifungal medicines, and that plants carefully organize their cell walls during growth by forming specific connections between different molecules. Understanding these structures at the molecular level could help develop better antifungal treatments and improve how we use plant biomass for biofuels and materials.

Disease: Mucormycosis