candidiasis – Page 13

Increasing postgraduate medical mycology research dissertations at Uganda’s higher institution of learning

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A study from Makerere University in Uganda found that funding has significantly boosted research on fungal diseases among graduate students. The number of students focusing on medical mycology jumped from 16% to 40% between 2023 and 2024, with more advanced laboratory techniques being used. The research focused on serious fungal infections like cryptococcal meningitis, which particularly affects people with HIV/AIDS. The university’s creation of a collaborative research group helped students work together and complete their projects on time.

Invasive Fungal Disease is Rare in Multiple Myeloma Patients Treated with BCMA CAR-T Therapy

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Researchers studied patients with multiple myeloma who received a new type of cancer treatment called BCMA CAR-T cell therapy. While this powerful therapy can sometimes increase infection risk, the study found that serious fungal infections occurred in only a small percentage of patients (1.7%). However, when these fungal infections did occur, they were often severe and potentially life-threatening, particularly in patients who experienced significant side effects from the therapy.

Virulence factors of Candida spp. isolated from COVID-19 patients: hydrolytic enzyme activity and biofilm formation

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During the COVID-19 pandemic, many hospitalized patients developed fungal infections caused by Candida yeasts alongside their coronavirus infection. Researchers studied 71 Candida samples from COVID-19 patients to understand how these fungi cause disease by examining three damaging enzymes they produce and their ability to form protective biofilm layers. The findings showed that these fungi are highly virulent, producing strong enzyme activity that helps them invade tissues and resist treatment, which helps explain why these infections are particularly dangerous in COVID-19 patients.

Exploring the Antifungal Potential of Lawsone-Loaded Mesoporous Silica Nanoparticles Against Candida albicans and Candida glabrata: Growth Inhibition and Biofilm Disruption

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Researchers developed a new antifungal treatment by loading lawsone (a compound from henna plants) into tiny particles called mesoporous silica nanoparticles. When tested against common fungal infections caused by Candida bacteria, this nano-formulation was more effective than lawsone alone at killing the fungi and breaking down protective biofilm structures. The treatment showed no harm to normal human cells, suggesting it could be a promising natural alternative to treat stubborn fungal infections that resist current antifungal drugs.

Etiological Agents and Predisposing Factors of Superficial Fungal Infections in Northeastern Argentina

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Researchers studied fungal skin infections in a community in northeastern Argentina, finding that 37% of patients had these infections. The most common cause was a fungus called Trichophyton tonsurans. Poor living conditions like overcrowding and lack of clean water increased infection risk. The study shows that fungal skin infections are a significant health problem in areas with limited access to basic sanitation and water services.

Evaluation of the Cytotoxicity and Antifungal Efficacy of Crocus sativus (saffron) Petals on Clinical Isolates of Candida albicans

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Researchers tested saffron petals to see if they could fight Candida albicans yeast infections. While saffron extract showed some antifungal activity, it was less powerful than the standard drug fluconazole. However, saffron was very safe and non-toxic to human cells, making it a promising natural alternative therapy worth exploring further.

Neonatal Invasive Candidiasis: Current Concepts

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Serious fungal infections (candidiasis) in newborns have become increasingly difficult to treat, especially in developing countries. The types of fungi causing these infections have changed dramatically, with many now resisting the standard fluconazole treatment. Modern medical care, like proper handwashing, environmental cleaning, and careful line care, is actually more effective at preventing these infections than giving preventive antifungal drugs. Healthcare providers need better tools for quickly identifying which fungal species is causing infection and which drugs will work against it.

Unlocking the potential of experimental evolution to study drug resistance in pathogenic fungi

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Fungal infections are becoming harder to treat as fungi develop resistance to antifungal drugs. This review explains how scientists can use experimental evolution—growing fungi in controlled laboratory conditions while exposing them to drugs—to understand how and why resistance develops. By studying these evolutionary processes and using mathematical models to predict outcomes, researchers can develop better treatment strategies, including combination therapies and drug cycling approaches to prevent resistance from emerging.

Incidence And Risk Factors for Invasive Fungal Infections in Pre-Transplant and Transplant-Ineligible Multiple Myeloma in the U.S.: A Claims Analysis (2017-2021)

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This study examined fungal infections in patients with multiple myeloma who were not eligible for or preparing for stem cell transplants. Researchers found that 6% of these patients developed invasive fungal infections, with yeast infections being the most common type. The risk of these infections was significantly higher in patients taking dexamethasone (a steroid) or those with low white blood cell counts and those receiving multiple cancer therapies.

A novel pan-fungal screening platform for antifungal drug discovery: proof of principle study

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Researchers developed a faster, more efficient screening method to test potential antifungal drugs against multiple disease-causing fungi simultaneously. Using an improved growth medium and screening 500 chemical fragments, they identified compounds with antifungal activity and demonstrated the platform can reliably detect promising drug candidates. This approach could accelerate the discovery of new antifungal medications, which are urgently needed as fungi develop resistance to current treatments.

Disease: candidiasis