molecular diagnostics – Page 5

Design of a melting curve analysis (MCA) based on multiplex real-time PCR for detection of Aspergillus terreus and Aspergillus fumigatus in cereals and oilseeds samples

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This study developed a fast molecular test to detect harmful fungi (Aspergillus species) in grains and seeds. Traditional fungal identification takes 3-5 days, but the new PCR-based method can produce results in hours. Testing 140 grain and seed samples, the new method successfully identified two dangerous Aspergillus species that produce toxic compounds harmful to human health. This advancement helps ensure food safety by enabling quicker detection of contamination in food production facilities.

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.

Identification of matB used as an endogenous reference gene for the qualitative and real-time quantitative polymerase chain reaction detection of Lentinus edodes

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This study identifies the matB gene as a reliable genetic marker for detecting shiitake mushrooms (Lentinus edodes) in food products. Researchers developed a simple DNA test that can identify L. edodes in processed foods where it might be fraudulently substituted for more expensive wild mushrooms. The test is highly sensitive, detecting DNA at extremely low concentrations, and works on both raw mushrooms and processed products. This method provides food manufacturers and regulators with an effective tool to prevent mushroom fraud and ensure food authenticity.

Protein Coding Low-Copy rpb2 and ef1-α Regions Are Viable Fungal Metabarcoding DNA Markers Which Can Supplement ITS for Better Accuracy

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Researchers tested different DNA markers for identifying fungal species using DNA sequencing technology. They compared the standard fungal marker (ITS) with two alternative protein-coding markers (rpb2 and ef1-α) on closely related mushroom species. The results showed that using multiple markers together provides better and more reliable identification of fungal species compared to using just one marker, which is especially useful for environmental monitoring and species identification studies.

Simultaneous Detection of Four Madurella Species Using Loop-Mediated Isothermal Amplification (LAMP) for Eumycetoma Diagnosis

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Scientists developed a simple new test to identify four types of fungi that cause a serious tropical disease called eumycetoma. Unlike previous tests that required expensive equipment and multiple reactions, this new test works in one tube using simple heating instead of complex thermal cycling. The test can detect the fungi in about 45 minutes and works reliably in remote areas with limited resources.

Dual-Emission FRET-PCR Outperforms SYBR Green and EvaGreen for Accurate Discrimination of Primary Canine Dermatophytes: Microsporum canis, Nannizzia gypsea, and Trichophyton mentagrophytes

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Dogs often get fungal skin infections caused by three main types of fungi. Doctors have traditionally grown these fungi in culture, which takes 2-4 weeks. Scientists have now developed a faster genetic test called FRET-PCR that can identify which fungus is causing the infection in just 2.5 hours. This new test is more accurate and reliable than older genetic tests, helping veterinarians treat infections quickly and prevent them from spreading.

Editorial: Dermatopathology and Associated Laboratory Investigations in the Study of Skin Disease

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This special journal issue brings together several studies on how doctors diagnose skin diseases using laboratory tests. The papers cover different methods including examining fungal infections under a microscope, using new staining techniques, and applying molecular tests to identify skin cancers and autoimmune conditions. Together, these studies show how combining pathology examination with laboratory techniques is essential for accurately diagnosing and treating various skin disorders.

qPCR-Based Molecular Detection of Trichophyton indotineae by Targeting Divergent Sequences

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Trichophyton indotineae is a dangerous fungal infection that causes ringworm and is increasingly resistant to common antifungal treatments. Scientists developed a rapid blood test-like diagnostic tool called qPCR that can accurately identify this specific fungus in less than 2 hours for just a few dollars. The test was created by comparing the genetic codes of different fungal species to find unique fingerprints that distinguish T. indotineae from similar-looking fungi.

Addressing Critical Fungal Pathogens Under a One Health Perspective: Key Insights from the Portuguese Association of Medical Mycology

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This comprehensive study by Portugal’s mycology experts examines four dangerous fungi that cause severe infections: Aspergillus fumigatus, Candida auris, Candida albicans, and Cryptococcus neoformans. The research shows that Portugal’s hospitals have varying capabilities to diagnose and treat these infections, with some laboratories well-equipped and others lacking advanced diagnostic tools. The study found concerning increases in antifungal resistance and highlights that these fungi live in hospitals, water systems, soil, and even animals, emphasizing the need for integrated approaches connecting human, animal, and environmental health to better protect public health.

First report of Stemphylium lycopersici keratitis, a complex corneal infection case

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A 66-year-old man developed a severe corneal infection from a stone chip injury that didn’t improve with standard antibiotics. Doctors discovered the infection was caused by a rare plant fungus called Stemphylium lycopersici, combined with a herpes virus. Using advanced genetic testing (mNGS) to identify the exact pathogens, they prescribed targeted antifungal and antiviral medications along with a corneal transplant, successfully healing the infection and preserving his vision.

Research Keyword: molecular diagnostics