Aspergillosis – Page 3

A prospective, multicenter study of invasive fungal disease caused by molds in children and adults in Chile

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Researchers studied serious fungal infections caused by molds in Chilean hospitals and found that aspergillus was the most common culprit, affecting both children and adults. Many patients with these infections were also suffering from COVID-19, showing how serious respiratory viruses can increase the risk of fungal complications. Good news: the study found no resistance to common antifungal medications in Chile yet, though overall survival rates remain concerning at around 60% at three months.

Aspergillus fumigatus dsRNA virus promotes fungal fitness and pathogenicity in the mammalian host

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A virus that infects the fungus Aspergillus fumigatus makes the fungus more dangerous by helping it survive stress and resist immune cell attack. When researchers removed the virus from the fungus, it became weaker and less harmful to infected mice. Treating infected mice with an antiviral drug called ribavirin reduced the virus, lowering fungal burden and improving survival, suggesting that targeting fungal viruses could be a new way to treat serious fungal infections.

Genetic sequencing of the airborne fungal spectrum and air quality at a public hospital in Mexico City

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Researchers tested the air inside and outside a Mexico City hospital to identify harmful fungi that could make patients sick. Using two different sampling methods, they found 27 different fungal species, including dangerous ones like Aspergillus fumigatus that cause serious infections especially in people with weakened immune systems. The study shows that hospitals need better air monitoring systems to protect vulnerable patients from these airborne infections.

Superficial abdominal surgical site infection caused by Aspergillus welwitschiae: a case report

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An elderly woman developed a rare fungal infection in her abdominal surgical wound after surgery for a perforated colon. The infection was caused by Aspergillus welwitschiae, a mold that was initially thought to be a more common species. Doctors treated the infection by surgically removing the infected tissue and giving the patient an antifungal medication called voriconazole. This is the first reported case of this particular mold causing this type of surgical infection.

Cracks in the Curriculum: The Hidden Deficiencies in Fungal Disease Coverage in Medical Books

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This study examined how well major medical textbooks cover fungal diseases, which kill millions of people annually. Researchers found that books focused on infectious diseases had much better information about fungal infections than general internal medicine textbooks. Most textbooks failed to adequately cover how to prevent fungal infections and diagnose them correctly, which could lead to delayed treatment and worse patient outcomes.

Immunomodulatory function of chitosan is dependent on complement receptor 3

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This study reveals how the human immune system recognizes chitosan, a natural component found in the walls of disease-causing fungi like Aspergillus and Cryptococcus. Researchers discovered that immune cells use a protein called CR3 on their surface to detect and respond to chitosan by producing inflammatory chemicals that help fight infection. When chitosan works together with fungal proteins, it can boost the immune system’s response even more effectively, suggesting new ways to enhance immunity against fungal infections.

Discovery of novel targets for important human and plant fungal pathogens via an automated computational pipeline HitList

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Researchers created a computer program called HitList that searches fungal DNA to find new targets for antifungal medications. The program identified 16 promising protein targets that could be attacked by new antifungal drugs, including 8 completely new targets never before considered. This discovery could help develop new antifungal treatments to fight drug-resistant fungal infections in both humans and crops.

Past, present and future of antifungals: Advancements in mechanisms of action and resistance

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Fungal infections are a growing global health threat, especially for people with weakened immune systems, causing millions of deaths annually. Currently available antifungal drugs are limited and increasingly face resistance, making them less effective over time. This special collection of research papers explores new approaches to treating fungal infections, including novel drugs, combination therapies, and alternative treatments to overcome resistance. Scientists and doctors hope these advances will help save more lives by providing better options for treating serious fungal diseases.

Molecular Mechanisms of Pathogenic Fungal Virulence Regulation by Cell Membrane Phospholipids

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This review explains how the fats that make up fungal cell membranes directly influence how dangerous fungi become to humans. Different types of membrane fats help fungi change shape to invade tissues, survive stress in the body, and hide from immune cells. By understanding these processes, scientists can develop new ways to fight fungal infections by targeting the membrane components that fungi depend on for survival.

Antifungal persistence: Clinical relevance and mechanisms

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Some fungal infections don’t respond well to antifungal medications even though the fungi aren’t drug-resistant. This happens because a small percentage of fungal cells enter a dormant, low-energy state that protects them from being killed by the drugs. Understanding how these persistent cells survive and finding ways to target them could help prevent recurring fungal infections and improve treatment outcomes.

Disease: Aspergillosis