antifungal resistance – Page 7

Clinical aspects and recent advances in fungal diseases impacting human health

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Fungal infections affect over a billion people worldwide and are becoming harder to treat due to growing resistance to antifungal medications. The review discusses major challenges in detecting and treating these infections, including difficulty in diagnosis and limited awareness among healthcare providers. New antifungal drugs are being developed and approved to address these challenges, but a comprehensive approach involving better awareness, improved testing, and responsible medication use is needed.

Evaluation of Antifungal Activity Against Candida albicans Isolates From HIV-Positive Patients with Oral Candidiasis in a Major Referral Hospital, West Java, Indonesia

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This study examined fungal infections in HIV-positive patients suffering from oral candidiasis (mouth thrush) in Indonesia. Researchers identified the types of Candida fungi present and tested their resistance to four common antifungal medications. Most patients had Candida albicans, and while these fungi generally responded well to newer antifungal drugs like voriconazole and fluconazole, some showed resistance, particularly to fluconazole, suggesting the need for careful testing before prescribing treatment.

Diagnostic Performance of a PCR-Based Approach for the Diagnosis of Dermatomycosis

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This study evaluated a new testing method combining DNA analysis (PCR) with traditional microscopy and culture to diagnose fungal skin, hair, and nail infections. The PCR method detects the infection quickly and accurately, identifying the specific fungus causing the problem within days rather than weeks. The study of over 4,400 samples found that Trichophyton rubrum was the most common cause of fungal infections, and the combined testing approach was 98.5% accurate while reducing unnecessary lab work.

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.

Insights into Persian Gulf Beach Sand Mycobiomes: Promises and Challenges in Fungal Diversity

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Researchers studied fungi living in sand and water along Persian Gulf beaches to understand potential health risks for swimmers. They found that fungal species, particularly Aspergillus terreus, were abundant in beach sand, with some fungi showing resistance to common antifungal medicines. The study suggests beaches need better monitoring and sanitation practices to protect public health, especially during busy bathing seasons when many visitors enjoy the coast.

Targeted long-read sequencing analysis and antifungal susceptibility profiles of Sporothrix schenckii isolates from Thailand

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Researchers in Thailand studied a fungal infection called sporotrichosis that affects both cats and people. They used advanced DNA sequencing technology to identify the specific type of fungus and understand how it’s related to similar fungi found in other parts of the world. They also tested how well common antifungal medications work against these fungi and found that some isolates are becoming harder to treat.

Recent innovations and challenges in the treatment of fungal infections

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Fungal infections are becoming more common and dangerous, especially for people with weakened immune systems, and many fungi are developing resistance to current medications. Doctors and researchers are developing new treatment strategies, including combining multiple drugs together and using advanced technologies to deliver medicines more effectively to infected areas. Natural compounds from plants and new biotechnology tools like genetic engineering and nanoparticles show promising results for fighting drug-resistant fungal infections.

Molecular Identification of Candida Species among Iranian Patients: Pursuing Candida auris

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This study evaluated a simple molecular test called PCR-RFLP to identify different types of Candida fungi in hospitalized patients in Iran. Among 136 patient samples, researchers found eight different Candida species, with common Candida albicans being most prevalent, but other more dangerous species also present. No cases of the emerging pathogen Candida auris were found, though the test method can effectively detect it. The researchers conclude this cost-effective test could be valuable for identifying dangerous fungal infections in developing countries.

John Perfect Shares Insights on Infectious Diseases, Antifungal Therapy, and Drug Resistance

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This interview with Dr. John Perfect, a leading expert in fungal infections, discusses how antifungal treatments have evolved over his 48-year career. He explains that while fungal resistance is a concern, it’s less problematic than bacterial antibiotic resistance because fungi don’t spread resistance through plasmids. Dr. Perfect emphasizes the importance of newer, faster-acting antifungal drugs and combining drug therapy with immune system support to better treat serious fungal infections like cryptococcal meningitis and candidemia.

Exposure to Tebuconazole Drives Cross-Resistance to Clinical Triazoles in Aspergillus fumigatus

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When farmers use antifungal pesticides called triazoles to protect crops, the fungi can develop resistance to these chemicals. This study found that when the fungus Aspergillus fumigatus is exposed to the agricultural triazole tebuconazole, it can become resistant not only to that pesticide but also to clinical triazole drugs used to treat human fungal infections. The resistant fungi maintain this resistance even when the pesticide is removed, suggesting that environmental pesticide use may threaten the effectiveness of medical antifungal treatments.

Research Keyword: antifungal resistance